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Patent 2313826 Summary

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(12) Patent: (11) CA 2313826
(54) English Title: RECORDING AND REPRODUCING APPARATUS
(54) French Title: APPAREIL D'ENREGISTREMENT ET DE LECTURE
Status: Expired and beyond the Period of Reversal
Bibliographic Data
(51) International Patent Classification (IPC):
  • G11B 27/28 (2006.01)
(72) Inventors :
  • ISHII, TOSHIYUKI (Japan)
  • MISONO, KOUSUKE (Japan)
  • MISAWA, SEIICHI (Japan)
  • FUKUDA, JOJI (Japan)
  • NISHIGAKI, TETSUO (Japan)
  • OTA, KIYOSHI (Japan)
(73) Owners :
  • SONY CORPORATION
(71) Applicants :
  • SONY CORPORATION (Japan)
(74) Agent: GOWLING WLG (CANADA) LLP
(74) Associate agent:
(45) Issued: 2001-07-03
(22) Filed Date: 1991-01-18
(41) Open to Public Inspection: 1991-07-22
Examination requested: 2000-07-12
Availability of licence: N/A
Dedicated to the Public: N/A
(25) Language of filing: English

Patent Cooperation Treaty (PCT): No

(30) Application Priority Data:
Application No. Country/Territory Date
010864/90 (Japan) 1990-01-21

Abstracts

English Abstract


In a recording and reproducing apparatus having at
least one program recorded to recording tracks on a
recording medium, management database is recorded on
the recording tracks with the program so as to form a
management database recording field. The management
data is reproduced on being loaded the recording medium
to the recording and reproducing apparatus to manage
each program recorded on the recording tracks. In the
case of video tape recorder, the management data is
recorded on video recording tracks, audio recording
tracks and /or a control signal recording tracks.
therefore, to cover in the appended claims all such
changes and modifications as fall within the true
spirit and scope of the invention.


Claims

Note: Claims are shown in the official language in which they were submitted.


THE EMBODIMENT OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:
1. A video tape recorder for recording at least one program on a video tape,
comprising:
recording/reproducing means for recording and reproducing signals on the video
tape;
input means for receiving said at least one program;
display means for providing a display to a user;
user command input means for receiving recording commands from a user; and
control means for controlling the recording of said at least one program on
said
video tape by said recording/reproducing means;
said control means being operative to control said recording/reproducing means
to record management data in a management database recording field formed at a
predetermined position on said video tape, said management data including
recording
control data for subsequent display to a user carrying out a recording command
input for
indicating a recording condition of said video tape;
said control means being operative to control said recording/reproducing means
to record data indicating an unused recording capacity of said video tape and
to control
said recording/reproducing means to record on said video tape data indicating
a total
number of programs recorded on said video tape and data identifying at least
an identity
and a total number of programs reserved to be recorded thereon as at least a
portion of
said data indicating an unused recording capacity of said video tape;
said control means being operative to control said recording/reproducing means
to reproduce said recording control data from said management database
recording field
of said video tape and to control said display means to display a recording
condition of
said video tape based on the reproduced recording control data;
said user command input means being operative to input recording commands
from a user responding to the display of said recording condition;
said control means being further operative to control the recording of said at
least
one program based on said recording commands.
135

2. The video tape recorder of claim 1, wherein said control means is operative
to
control said recording/reproducing means to record data indicating whether
said at least
one program has been recorded.
3. The video tape recorder of claim 1, wherein said control means is operative
to
control said recording/reproducing means to record data indicating whether
said at least
one program has been recorded completely.
136

Description

Note: Descriptions are shown in the official language in which they were submitted.


CA 02313826 2000-07-12 Nww~rvi~'vv
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RECORDING AND REPRODUCING APPARATUS
BACKGROUND OF THE INVENTION
The present invention relates to a recording and
reproducing apparatus sad more particularly to a
recording and reproducing apparatus which providec
substantially easier control over the programs recorded
or preset to be recorded on recording medium.
There have been a tape recorder of above-described
type disclosed in U.S. patent No. 4,224,844.
In conventional video tape recorders for household
use, a plurality of programs are recorded on a video
tape in the running direction thereof, and a cue signal
is recorded at the beginning of each program. When the
user wants to reproduce a given program from the
recorded video tape, a series of operations need to be
carried out: putting the video tape recorder in search
mode, forwarding the tape fast up to the position where
the cue signal of the program is located and may be
reproduced from, putting the video tape recorder in
reproducing mode, and reproducing the tape to see if
the program reached Is indeed the one desired.
With the above-described conventional video tape
recorders, the data about a plurality of programs
recorded on the video tape is actually located at the
1

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beginning of each individual program. This arrangement
involves one disadvantage. That is, whenever the user
wants to see 1 ii a desired program is indeed recorded,
wants to determine the program to be reproduced, wants
to search for another program, or want to overwrite a
new program onto a previously recorded program it is
necessary to undergo the chores of repeatedly
forwarding last and reproducing the video tape on the
video tape recorder in search of the desired program.
for a considerable period of time, until the desired
program is located and accessed.
In addition, the prior art video tape recorders
only detect, as program-describing data, the position
of each program recorded on the video tape when in
search therefore. Thus when it is necessary to use
fairly complicated data such as timer presetting data,
there arises a need to utilize a method whereby
presetting data is written to a timer preset memory
separately provided.
However, using the above method fails to preserve
the data specific to each of the individual video tapes
because the timer preset memory is common to all video
tapes used. So the presetting data above cannot be
used as control data about the individual programs.
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' Ii the user wants to control a large number of
recorded or unrecorded video tapes or to have control
over a program in "series" recorded on a plurality of
video tapes, keeping a record of these tapes is a
time-consuming and tiresome task. That task involves
writing beforehand, onto labels of the video cassettes
and cassette cases, control data as to the contents of
the programs recorded on the tape, the recording times
of these programs, and the preferences for preserving
or not preserving each recorded program.
The more programs and video tapes to be recorded
or preset, the more troublesome and complicated the
chores involved in writing down the control data
thereabout, reading the data and making decisions based
on the data. An acute need has been recognized to
simplify as much as possible the necessary operations
and record-keeping activities.
Especially, if a plurality of programs
constituting, for example, a serial drama were recorded
in a random order on one tape, viewing these programs
later in the correct order requires the user to
repeatedly carry out the chores described above so as
to access each program. These aspects of the
conventional devices are an inconvenience that has long
3

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annoyed their users.
The present invention relates to a recording and
reproducing apparatus and, more particularly, to a
video tape recorder for household use.
The typical conventional video tape recorder uses
a detection head (called the control head) to detect
the position data (cue signal) of any program recorded
on the video tape in the running direction thereof. If
a plurality of programs are recorded on the video tape
and if any of the programs is desired to be reproduced,
the cue signal of the target program is searched for
and reached.
Thus when any of the multiple programs recorded on
the video tape is to be singled out and overwritten
with a new program, the conventional video tape
recorder reaches the .target program by searching for
its cue signal, and starts recording the new program
onto the tape field containing the target program.
_ The conventional video tape recorder has the erase
head located upstream of the magnetic head for
recording and reproducing video signals and the control
head downstream thereof in the running direction of the
video tape. In operation, the downstream control head
searches through program cue signals for the one
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~ corresponding to the target program. With the target
program located, the erase head erases it sequentially
and the downstream magnetic head records the new
program in its place.
The fact that the erase head is located upstream
of the control head in the conventional video tape
recorder involves one disadvantage. That is, where the
tape field containing the program to be erased is
followed by a field containing a program to be
preserved, the upstream erase head tends to erase the
position data (cue signals of the subsequent program
field before the downstream detection head can detect
the position data~thereot. The inadvertent erasure of
the position data can cause the program that should be
preserved to be erased following the preceding program
from the video tape.
Household electronic appliances of the
above-described type allow the user to record or preset
the-recording of at least one broadcast program
desired. Using the preset data, the appliances execute
sophisticated functions of diverse kinds. A number of
ways have been devised to make the input of program
presetting data easier. for example, switches for
setting necessary items are provided so as to be

CA 02313826 2000-07-12
' manually operated, and a bar code reading means to used
to Input the necessary data.
Conventional preset data input means have one
disadvantage in common. That is, these household use
devices have their recording-related operations
designated in machine-oriented terms. The items
required by the machine are represented in characters
and/or symbols which are arranged on an operation
panel. The user at the operation panel selects and
specifies one or a plurality of these items as needed.
These, specification items are established as such
on the assumption that the user has a certain level of
understanding of the functions and the structure
regarding the device in question (i.e " a working
knowledge of the basics, expressed in such terms as
"Recording Start Time," "Recording End Time" and
"Input," which are explained in the instruction
manual). In other words, those who have difficulty
undefistanding such fundamentals about the device they
want to operate may not be able to correctly input the
program presetting data required.
SUMMARY OF THE INVENTION
In view of the foregoing, an object of this
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invention Is to provide a recording and reproducing
apparatus in which substantially simplifies the steps
that the user carries out in controlling programs to be
preset or recorded.
Another object of the invention is to provide a
recording and reproducing apparatus in which recognises
the recording area containing data about all programs
recorded on a video tape as recording medium before the
tape is actually forwarded fast or otherwise
manipulated, thereby readily accessing any desired
program on the tape in the shortest possible time.
Another object of the Invention is to provide a
data recording and reproducing apparatus which will be
a convenient, easy-to-use solution to the
above-described inconvenience of the conventional
apparatus.
Another object of the invention is to provide a
recording and reproducing apparatus capable of
overwriting a new program onto the desired program
recorded field alone from among a plurality of program
recorded fields on the video tape.
The foregoing objects and other objects of the
invention have been achieved by the provision of
A video tape recorder having at least one program
7

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recorded to video recording tracks and audio recording
tracks on a video tape; wherein a management database
recording field is formed at a predetermined position
on the video recording tracks, or on the audio
recording tracks, or on control signal recording
tracks, the management database recording field having
management data recorded thereto, the management data
corresponding to said program, the management data
being used to control each program recorded on said
video tape,
a video tape recorder for recording at least one
program onto a video tape; wherein the address data
representing the recording start point of the program
is recorded to the tape top part of the video tape,
whereby the recorded position of the program on the
video tape is controlled In a concentrated manner,
a data recording and reproducing apparatus for
recording management data to management database
recording fields located in recording tracks of a
recording medium, the apparatus utilizing the
management data in the raanagement database recording
fields to control the data recorded in the recording
tracks or in areas with reference to the recording
tracks; wherein reproduction order data representing
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the order in which to reproduce the recorded data is
recorded to the management database recording fields,
a recording and reproducing apparatus containing a
recording head means for sequentially recording at
least one program on a recording medium in the running
direction thereof, the recorded program having the data
of the position thereof recorded by the recording head .
means into a control signal recording track formed on
the recording medium in the running direction thereof,
the program and the position data being erased by an
erase head means in recording mode from the recording
medium in the running direction thereof, the erasure
being followed by recording of a new program and the
position data there onto the recording medium in the
running direction thereof through the use of, the
recording head means in the recording mode, wherein
comprises:
a control head means for reading the position
data-, the control head means being located upstream of
the erase head means in the running direction of the
recording medium,
a data recording and reproducing apparatus having
management data recorded to a management database
recording field in recording traclcs of a recording
9

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medium, the control data being used by the apparatus to
manage the data recorded in the recording tracks, a
data input device comprising: a data input means to
which specification items are assigned, the data input
device writing the management data to the-management
database recording field when the data input means is
specified.
The nature, principle and utility of the invention
will become more apparent from the following detailed
description when read in conjunction with the
accompanying drawings in which like parts are
designated by like reference numerals or characters.
BRIEF DESCRIPTION OF THE DRAWINGS
In the accompanying drawings:
Fig. 1 is a block diagram of the video tape
recorder in its entirety as embodied according to the
invention;
_Fig. 2 is a function block diagram of the
embodiment of Fig. i;
Fig. 3 is a schematic diagram of the recording
format on the video tape for use with the embodiment;
Figs. 4 through fi are schematic and tabular
representations of the control database used by the

CA 02313826 2000-07-12
' embodiment;
Fig. 7 is a flowchart depicting the steps in which
to process the input data of the video tape recorder;
Figs. 8 and 9 are flowcharts showing the steps in
which to process the control database used by the video
tape recorder;
Fig. 10 is a front view illustrating how the
remote controller for use with the video tape recorder
is constructed;
Fig. 11 is a tabular representation of the
language-based items to be specified by the user;
Fig. 12 is a schematic diagram illustrating the
format of the start address for use with the video tape
recorder;
Fig. 13 is a block diagram showing how a recorded
program is overwritten with a new program;
Fig. 14 is a detailed block diagram of the video
recording encoder and decoder contained in the video
tape- recorder;
Fig. 15 is a bloclc diagram of another embodiment
of the invention;
Fig. 16 is a detailed block diagram of the audio
recording encoder and decoder contained in the video
tape recorder;
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Fig. 17 is a waveform chart showing the signal
format of the write control data for use with the
embodiment of the invention;
Fig. 18 is a detailed block diagram of the video
recording encoder and decoder, the audio recording
encoder/decoder, and the CTL recording encoder/decoder
contained In the video tape recorder;
Fig. 19 is a schematic diagram of another
recording format on the video tape for uae with another
embodiment;
Figs. 20 through 22 are schematic diagrams of
other recording formats on the video tape for use with
other embodiments;
Fig. 23 is a schematic diagram of the format of
start and end addresses for use with the fifth
embodiment;
Fig. 24 is a schematic diagram of the recording
format for use with the another embodiment;
_Fig. 25 is a front view of the monitor and the
video tape recorder for use with the other embodiments;
Fig. 26 is a schematic diagram of the format of
program start and end addresses for use with the
embodiment;
Fig. 27 is a flowchart of the steps carried out
12

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i
~ while program reproduction mode is in effect; and
Figs. 28 through S2 are tabular representations
showing other embodiments of the remote controller.
DETAILED DESCRIPTION OF THE INVENTION
Preferred embodiments of this invention will be
described with reference to the accompanying drawings.
[1] First Embodiment
(1) Overall Construction. of the Video Tape Recorder
In Fig. 1, reference numeral 1 is a video tape
recorder (VTR) in which a recording video signal S1
input through a video signal processing unit 2 is
supplied to a video tape recorder unit S to be recorded
thereby. A reproduced video signal S2 is supplied to a
monitor 4 as a video output signal S3 through the video
signal processing unit 2.
In addition, a control management data processing
unit 5 is provided. An I/0 data signal S4 is given by
a remote controller 8 and supplied to a control
management data processing CPU 8 through a remote
control transceiver 7. In turn, the CPU 8 places
control data S5 onto a bus 9 for control over circuit
elements constituting the video signal processing unit
2 and the video tape recorder unit 3. Control data S6
13

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~ is exchanged between a mechanism control CPU 11 of the
video tape recorder unit S and the control management
data processing CPU 8 via a bus 10. The exchange
produces a control signal S7 for control over
mechanisms constituting the video tape recorder unit S.
The video signal processing unit 2 supplies a
superimpose fader circuit 24 with a received video
signal S11, an external line video signal S12 and an
internal synchronizing signal S13 through an input
selection circuit 23. The signal S11 is received by a
tuner 21, the signal S12 is fed over an input line from
an external video signal source, and the signal S13 is
generated by an internal synchronizing circuit 22.
This arrangement causes the recording video signal S1
to appear at the output end of the superimpose fader
circuit 24.
The recording video signal S1 is supplied to a
recording circuit 32 vie a recording swltchover circuit
S1. In recording mode, the signal S1 is forwarded from
the recording circuit S2 through an electromagnetic
conversion circuit 33 to a magnetic head 34 which
records the signal onto a video tape 36 in a video
cassette 35.
The video signal thus recorded on the video tape
14

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S6.is picked up in reproducing mode by a reproducing
circuit S7 through the magnetic head S4 and the
electromagnetic conversion circuit S3. The
reproduction circuit S7 then sends~the video signal via
a reproduction switchover circuit S8 to the video
signal processing unit 2.
The reproduced video signal S2 passes through an
output selection circuit S9 and is converted by a video
processing circuit 40 into a video output signal SS for
display onto a display screen 4A of the monitor 4.
The control management data processing CPU 8 in
the control data processing unit 5 processes the basic
data stored In a ROM-type basic data memory 4S and the
processing data stored in a RAM-type register 44. The
processing is performed based on the I/0 data signal S4
coming from the remote controller 6 or on an input data
signal 58 from a VTR keyboard 12 in synchronization
with a clock signal from a clock circuit 46. Thus the
control data S5 and S6 are placed onto the buses 8 and
10.
In this embodiment, the bus 9 is connected to a
card reader 48. The control management data processing
CPU B may supply the register 44 with the basic data
which the card reader 4fi has read from an IC card 47.

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' There may arise a need to inform the user of the
result of the processing done by the control management
data proeesslng CPU 8. In that case, the control
management data processing CPU B supplies a video
display processor 41 with a video display data signal
S14 as part of the control data S5. A video display
signal S15 is read from a video RAM 42 based on the
video display data signal S14 and is sent to the
superimpose fader circuit 24. The video display signal
S15 is superimposed onto a video signal S1B given by
the input selection circuit 2S. This produces a
superimpose output signal S1? which Is supplied to the
video processing circuit 40 vie the output selection
circuit S9. The video processing circuit 40 displays,
on the screen 4A of the monitor 4, an image on which
the video signal comprising characters, diagrams and
other indications is superimposed. The display
provides an interactive interface for the user.
_ While displaying the image comprising characters
and diagrams on the screen 4A of the monitor 4, the
control management data processing CPU 8 of this
embodiment also supplies the remote controller 6 with
the video signal representing the same image via the
remote control transceiver 7 as the I/O data signal S4.
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' This arrangement causes the same image as that on the
screen 4A of the monitor b to appear on a display
screen 6A of the remote controller 6.
The control management data processing CPU 8
records write control data S2b to a video recording
track of the video tape 38. The write control data
S25, part of the control data S5 and associated with
the recording and reproduction of the video tape
recorder unit S, is torwa.rded through a video recording
encoder bl, the recording switchover circuit S1, the
recording circuit S2 and the electromagnetic conversion
clreuit $S, in that order, before reaching the track.
When control data is read from the video recording
track via the electromagnetic conversion circuit 33,
reproducing circuit 37 and reproducing switchover
circuit S8, the data is supplied to the control
management data processing CPU 8 as read control data
S26 through a video recording decoder 52 and the bus 8.
- The control management data processing CPU 8 of
this embodiment also supplies the electromagnetic
conversion circuit 33 with write control data S27 via
an audio recording encoder/decoder 63, the data S27
being the same as the write control data S25 ted to the
video recording encoder 51. This allows management
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' data DAV to be recorded onto audio recording tracks CH1
and CH2 on the video tape 36 through the magnetic head
S4. At the same time, the management data DAV is read
from the audio tracks CH1 and CH2 by the
electromagnetic conversion circuit SS using the
magnetic head 34 and sent to an audio recording
encoder/decoder 63. Thus the management data is
supplied to the~control management data processing CPU
8 as read management data S28.
Furthermore, the control management data
processing CPU 8 of this embodiment supplies the
electromagnetic conversion circuit 3S with write
management data S29 via a CTL recording encoder/decoder
64, the data S29 being the same as the write management
data S25 fed to the video recording encoder 51. This
allows management data DAV to be recorded onto the
control signal recording track TCT on the video tape 36
through a first control head 34D (Fig. 13) of the
magnetic head S4. At the same time, the management
data DAV is read from the control signal recording
track TCT on the video tape 36 by the electromagnetic
conversion circuit 33 using a first control head 34D
(Fig. 13) and sent to the CTL recording encoder/decoder
54. Thus the management data is supplied to the
18

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. control management data processing CPU 8 as read
control data S30.
In addition, the control management data
processing CPU 8 of this embodiment has the management
data DAV read from the control signal recording track
TCT on the video tape S8 by the electromagnetic
conversion circuit S3 using a second control head S4A
(Fig. 1S) of the magnetic head S4 and sent to a CTL
reproducing decoder 6b. Thus the management data is
supplied to the control management data processing CPU
8 as read management data S48.
(2) Function Blocks of the Video Tape Recorder
The control management data processing CPU 8
controls the video tape recorder as a whole in
accordance with the function blocks depicted in Fig. 2.
l;eferring to Fig. 2, the CPU 8 acts as an
interrupt handling means in a block BK1 upon receipt of
a command from the keyboard 12. Thereafter, the CPU 8
acts as a system scheduling means and a database
retaining means in a block BK2. At this point, while
controlling the entire system on a time series basis,
the system scheduling means and database retaining
means BK2 communicate with a timer preset database
19

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creating means in a block BKS in order to execute the
functions of an artificial intelligence module in a
block BK4 and of an applicatior. processing means in a
block BK6.
In the artificial intelligence module BK4, the CPU
8 interprets the contents of the command entered in
natural language in accordance with the input command
items expressed in natural language by a natural
language system BK4A.
The CPU 8 infers and learns the habit of the user
using a habit learning and-inference system BK4B based
on how the command is given In the applicable natural
language. At the same time, the CPU 8 generates a
habit database through the use of a habit database
generation system BK4C.
In the application processing means BK6, the CPU 8
executes the functions of a management database module
BK6B, a user preference module BKSC, a system setting
module BKSD and a timer preset module BK54 using a
module processing means BKbA.
In the application processing means BK6, the CPU 8
also provides a message display using a message system
BKSF. At the same time, the CPU 8 causes the monitor 5
to perform its display in a monitor block BICSG.

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In handling the artificial intelligence module BK4
and application processing means BKb, the CPU 8
processes a timer preset packet and Ilags in a common
data area processing block BKB.
The processing in the application processing means
BKb is connected ria an I/O driving means BK7 to the
video tape recorder proper 3, the monitor 4, the remote
control transceiver 7 and the remote controller 8 which
are external devices.
(3) Becordlng Format of the Video Tape
As illustrated in Fig. S, the video tape Sfi
contains video recording tracks TA and TB, a control
signal (CTL) recording track TCT and audio recording
tracks CHI and CH2. The video recording tracks TA and
TB have a different azimuth angle each, are formed
diagonally relative to the tape running direction K1
and in the head scanning direction K2, and sequentially
adjo-in one another in the tape running direction K1.
The CTL recording track TCT is formed at the outer
fringe of the entry ends of the video recording tracks
TA and TB in the running direction of the video tape
36. The audio recording tracks CHl and CH2 are formed
outside the exit ends of the video recording tracks TA
21

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~ and TB on the tape 38.
A recording start leader of the video tape 36
contains a management database video track recording
field FAVV covering a predetermined number of video
recording tracks TA and TB. The management database
video track recording field FAVV ie followed by a video
signal recording field FVD with one field of video
signal recorded onto each of the video recording tracks
TA and TB.
The management data DAV whose structure is shown
in Fig. 4 is recorded onto each of the recording tracks
TA and TB. The tracks TA and TB belong to the
management database video track recording field FAVV'
A management database audio track recording field
FAVA is formed at a predetermined track position of,
say, the tape top of the audio recording tracks CH1 and
CH2. The management data DAV, with its structure
depicted in Fig. 4, is similarly recorded onto the
management database audio track recording field FAVA'
Furthermore, a management database control signal
track recording field FAVC is formed at a predetermined
track position of, say, the tape top of the control
signal recording track TCT. The management data DAV
whose structure is described in Fig. 4 is likewise
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' recorded onto the management database control signal
track recording field FAVC'
The management data DAV comprises a volume data
block DVM and a program data block DPR recorded in that
order from the top side of recording tracks.
The volume data block DVM contains management data
about the video cassette S5 loaded in the video tape
recorder proper S. For example, the volume data block
DVM Is constituted by items A1 - A15 in 1S5 bites, as
illustrated In Fig. 5.
Referring to Fig. 5, the data in the item A1
represents a format version. The version number of the
current management data DAV is recorded in one byte.
When the video cassette S5 is loaded, the format
version is identified according to this item. This
sets up the system to process any old version of the
management data DAV that may be encountered.
The item A2 indicates the number of times
retarding is carried out. For example, this item
retains in one byte the number of times the management
data DAV is recorded onto the control database audio
track recording field FAVA. Thus the number of times
the management data DAV is recorded using an audio
system recording method is recorded for subsequent
23

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' reference.
The item AS indicates the number of PICTURES used.
For example, this item retains in one byte the number
of pictures used when the management data DAV Is
recorded onto the video cassette 35. The number is
identical to the number of recording tracks occupied by
the management database video track recording field
FAVV' This allows the system to determine the position
of the first track in the video signal recording field
FVD'
The item A4 indicates the number of programs used.
For example, this item retains in one byte the number
of programs preset or recorded on the video cassette 35
as well as the availability of the recording space
thereon.
In this embodiment, bits 0 - 6 are used to
indicate up to a count of 32 programs to be preset or
recorded. Bit ? is used to indicate the availability
of any more recording space (recording space available
if set to 0; not available if set to 1). This bit
arrangement makes it possible to detect the
unavailability of the recording space on the video tape
if fewer than 32 programs preset or recorded take up
all available recording space because of the tape
24

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' length constraints or due to the extended program
lengths.
The item A6 indicates the data of creation. For
example, this item retains in five bytes the data on
which the control data DAV was first written to the
video cassette S5.
With thfs embodiment, bytes 1 through 6 retain
minutes, hours, day, month and year, respectively, In a
two-digit binary-coded decimal number each. This
allows the system to determine how old the video
cassette 36 Is with reference to the volume data DVM in
the item A6 indicating the date of creation.
The item A6 indicates the date of update. For
example, this item retains in five bytes the date on
which the management data DAV was updated.
With this embodiment, bytes 1 through 5 retain
minutes, hours, day, month and year, respectively, in a
binary-coded decimal number each. This allows the
system to find out when the currently used management
data DAV was last altered.
The item A7 indicates a system volume number. For
example, this item retains in eight bytes the current
serial number, i.e., volume number, of the video
cassette 35 recorded in "series." The item A7

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~ indicates that the currently loaded video cassette is a
~ part of a aeries while veritying the serial number
thereof. When the system volume number is added to the
recording preset data retained by the video tape
recorder unit 3, the number is displayed on the
monitor. By watching the monitor, the user obtains
data about the video tape 38 preset for recording.
The item A8 indicates a screen display color. For
example, this item specifies in two bytes the color in
which to display a list or other, indications. When the
user loads a video cassette 36 and gets a list screen
displayed, the color of the currently displayed screen
immediately tells 'the user which cassette is being
loaded.
The item A9 indicates various flags. For example,
this item retains a plurality of flag data in one byte.
This embodiment allows the user to set a "write
inhibit" flag to bit 0 so as to keep the recorded
contents of the video cassette 35 intact.
The system is allowed to set a "formatted" flag to
bit 1. This makes it possible to verify whether or not
all recording areas of the video tape 36 have been
formatted.
The system is also allowed to set an "address
26

CA 02313826 2000-07-12
mode° flag to bits 2 and 3 indicating the type of each
program end address. This bit arrangement makes it
possible to always detect any program end address in a
mode that varies depending on the video cassette 35.
The item A10 indicates the type of video cassette.
For example, this item records in two bytes the length
and type of the cassette tape used.
With this embodiment, byte 1 is set automatically
by the system, whereas byte 2 is set as needed by the
user. When the video cassette 35 is loaded, the type
and the length thereof are verified. That in turn
permits verification of the appropriate hub diameter to
be used.
The item All indlcatea a password. For example,
the user may enter into this item a password in a
four-digit binary-coded decimal number of two bytes.
When the video cassette S5 is loaded in the video tape
recorder unit 3, the user is required to enter
correctly the password registered for cassette use. It
the password is not correctly input, neither recording
nor reproduction of the video cassette 35 is allowed.
Then the contents of the video tape 36 remain unknown.
The item A12 indicates a user volume number. For
example, this item retains in two bytes a video
27

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' cassette number, i.e., a volume number that the user
may attach, to the video cassette S5. With this
embodiment, the user volume number may range from 0 to
84,000 in binary-coded decimal notation. When the user
volume number is added to the recording preset data
retained by the video tape recorder unit S, the number
may be displayed on the monitor. The display on the
monitor informs the user of the volume number for the
video tape S8 to be preset for recording.
The item A1S indicates a reproducing order. For
example, this item records in 32 bytes the order in
which up to S2 programs are to be reproduced as needed.
When program reproducing mode is selected, the programs
whose numbers are recorded in byte 1 through byte S2
are specitied in that order for reproduction.
The item 14 indicates a recording order. For
example, this item records in 32 bytes the order in
which up to S2 programs are to have their corresponding
numb-ers registered for recording. When program
reproducing mode is selected, the programs recorded in
the order set in byte 1 through byte 32 are reproduced
in the same order.
The item A15 indicates a volume label. For
example, this item indicates in 40 bytes a label such
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'as a title that the user may attach to the video
cassette 36. When the volume label is added to the
recording preset data retained by the video tape
recorder unit 3, the label may be displayed on the
monitor. The display on the monitor in turn informs
the user of the volume label attached to the video tape
36.
With this embodiment, the item A15 may record a
label of up to 40 characters in ASCII or up to 20
characters in S-JIS code.
As illustrated in Fig. 4, the program data block
DPR comprises program data DPRx which corresponds to
the data on the programs recorded or preset to be
recorded on the video tape 36 of the video c~asaette 35.
A typical structure of the program data DPRx ,is shown
in Fig. 8.
The item B1 indicates a start address. For
example,~the system write, into this item in three
bytes, the start address of each program relative to
the first address of the video tape 36 after the
program has been recorded in the video signal recording
field VVD of the video cassette 35.
With this embodiment, any of three address values
modes may be selected: time-of-day mode (seconds,
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CA 02313826 2000-07-12
minutes and hours given in binary-coded decimal
notation), program number mode (program numbers
expressed under VASS (video address signal search)
standards for VHS format), and control signal mode
(address values expressed in CTL pulse counts under CTL
standards for Beta format).
The item B2 indicates an end address. For
example, this item records in three bytes the end
address value of a program relative to the tape top of
the video tape S6. In this embodiment, as with the
program start address values, the program end address
values may be expressed in any of three modes:
time-ot-day mode, program number mode or control signal
mode.
The item B3 indicates various flags. For example,
this item records in one byte the data about how a
given program is handled. With this embodiment, bit 0
contains a "recording done" flag indicating whether the
program in question has been recorded. Bits I and 2
retain a "recording complete status" flag indicating
the status in effect when the recording ended. Bit 3
contains a "write enable" flag indicating whether or or
not the program may be overwritten. Bit 4 contains a
"program viewing history" flag indicating whether or
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not the program has been viewed at least once.
The item B4 indicates system program numbers. For
example, this item records in one byte a series of
reference numbers given by the system to programs.
With this embodiment, serial numbers 0, 1, 2, e~c.,
from the tape top of the tape are written as system
numbers.
The item BS indicates a program number. For
example, the user may enter, into this item in one
byte, the number indicating which of the serials the
current program is in its series (e. g., a serial
drama).
The item B8 indicates a category code. For
example, this item records in one byte the category of
each given program (sports, news, drama, etc.).
The item B7 indicates an input source. For
example, this item records in one byte the source from
which a given program has been input. With this
embodiment, the item B7 records the channel number
selected by the tuner 21 (Fig. 1) or the external line
number in the external line video signal S12 as the
data representing the source.
The item B8 indicates a recording/operation mode.
For example, this item records in one byte the type of
31

wCA 02313826 2000-07-12
recording mode specified for the video cassette S5 as
well as the operation mode in effect during the
recording. With this erabodiment, the video cassette 35
is recorded in one of three broadly categorized modes:
Beta mode, VHS mode or 8-mm Video mode. Each mode is
set to the item B8 when the video cassette S5 is
recorded by the corresponding type of video tape
recorder. The Beta mode comprises "Beta Is" mode,
"Beta II" mode and 'Beta III" mode. The VHS mode
contains "SP" mode, "LP" mode and "EP" mode. The 8-rnm
Video mode includes "SP" mode and "LP" mode.
Illustratively, the operation mode for use with the
recording is a normal recording mode or a reference
signal write-only mode.
The item B9 indicates a recording start time. For
example, the item records in five bytes the time of day
at which a preset or recorded program is to start.
With this embodiment, the user writes minutes, hours,
day,- month and year into bytes 1 through 6,
respectively, in binary-coded decimal notation.
The item B10 indicates a recording end time. For
example, this item records in two bytes the time of day
at which a preset or recorded program is to end. With
this embodiment, bytes 1 and 2 are set to minutes and
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hours in binary-coded decimal notation.
The item B11 indicates preset recording control
information. For example, this item records in 10
bytes the data for activating the video tape recorder
unit S (Fig. 1) for preset recording along with any
other peripheral device required to function in
synchronization therewith.
The item B12 indicates a title. For example, the
user writes, into this item In 40 bytes, the character
data representing the title of a given program.
(4) Settings of the Video Tape Recorder
In response to a conunand signal from the remote
controller 8 or from the keyboard 12, the CPU B
activates processing programs RTO, RT1 and RTS1 to
control the control data processing unit 6, video
signal processing unit 2 and video tape recorder unit S
as desired by the user. The processing programs are
depicted in Figs. 7 through 9.
In this embodiment, the remote controller 6
comprises the display screen 6A on the housing surface,
the screen having an LCD panel with a touch panel
provided thereon, as shown in Fig. 10. When a table of
setting items is displayed on the display screen 6A, a
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~ desired item is touched directly with the user's
fingertip. The touching action generates a signal
corresponding to the selected item for input. In
addition, a cursor appearing on the display screen 6A
is moved by four-direction cursor keys 6B and is set to
a target item. Operating an ENTER key 6C Inputs the
signal representing the target item.
The remote controller 6 has a normal operation
setting key 6D, a menu display setting key 8E, a
control data mode setting key 8F, a first preset
operation mode setting key 6G, and a second preset
operation mode setting key 8H. These mode setting keys
are used to specify for the CPU 8 the operation mode in
which to operate the video tape recorder 1.
How the input data processing program ftT0 runs
will now be described with reference to Fig. ?. In
step SP1, the CPU 8 waits for power to be turned on.
If power is applied, step SP2 is reached. In step SP2,
a check is made to see if power is applied for the
first time. If power is found to be applied for the
first time in step SP2, steps SP3, SP4 and SP5 are
executed in sequence. In step SP3, a message "SET TIME
OF DAY" appears on the display screen 4A of the monitor
4 as well as on the display screen 8A of the remote
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~ controller B. In step SP4, the current time is set in
system setting mode. In step SPS, a message "TIME OF
DAY IS SET" appears on the display screens 4A and 8A.
With the above steps completed and the time of day
established, the video tape recorder 1 again enters the
same command wait state as that in which the time of
day has just been set.
If the check in step SP2 reveals that power is not
applied for the first time, the comtaand wait state is
also reached. In this state, th.e user may select any
of such mode options as management database, system
setting, preference setting and time presetting.
In practice, when the menu display mode setting
key 6E is operated on the remote controller 6 (or on
the keyboard 12) in the command wait state, the CPU 8
displays a list of mode options, "MANAGEMENT DATABASE,"
"SYSTEM SETTING," "PREFERENCE SETTING" and "TIMER
PRESETTING," on the display screens 6A and 4A. The
user selects one of these modes by touching it with his
or her fingertip.
The management database mode is a mode in which to
record the management data DAV (Fig. 4) to the
management database video track recording field FAVV or
to the management database audio tracl~ recording field

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'wCA 02313826 2000-07-12
" FAVA on the video tape S6 (Fig. S); it is also a mode
" in which to drive and control the video tape recorder
unit S using the management data DAV previously
recorded. When the management database item is
selected in step SPB, step SPT is reached. In step
SP7, a check is made to see if a video cassette S5
containing a tape with the management data DAV recorded
thereon (called a management data tape) is loaded. If
that tape Ie sound to be loaded, a subroutine RT1 is
reached. The subroutine R,T1 executes various kinds of
processing on the management database before step SP8
is reached. In step SPB, a check is made to see if the
contents of the management database have been updated.
If the contents of the management database are found to
be updated, step SP9 is reached. In step SP9, the data
recorded in the manageraent database video track
recording field FAVV or in the management database
audio track recording field FAVA is replaced with the
updated control data.
When all processing on the management database
comes to an end, a check is made in step SP10 to see if
power is turned off. If power remains applied, the
above-described command wait state is again reached.
If power is found to be removed in step SP10, step SP11
36

CA 02313826 2000-07-12
' is reached in which.the input data processing program
RTO is ended.
Referring to Fig. 8, how the subroutine RT1
executes various kinds of processing on the control
database will now be described. When the subroutine
RT1 is entered, step SP21 is reached. In step SP21,
the CPU 8 displays a management data list on the
display screen 8A of the remote controller 8 as well as
on the display screen 4A of the monitor 4. Thereafter,
the CPU enters the conunand wait state.
At this point, each display screen shows such
items as "LABEL", "PRESET CANCEL", "AUTO REPRODUCING",
"MANUAL PRESET", "PROGRAM INFORMATION VERIFICATION" and
"MANAGEMENT DATA PRESET" any of which the user may
select.
The label item represents an operation mode in
which to select and set from among the management data
DAV the volume data or program data contained in the
volume data block DVM or in the program data block DPR
(Fig. 4). If the label item is selected in step SP22,
each display screen displays items "PASSWORD",
"RECORDING MODE", "TAPE TYPE", "CATEGORY" and "TITLE"
any of which the user may again select.
If the user selects the pnssword item, step SP23
37

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CA 02313826 2000-07-12
is reached. In step SP23, the CPU 8 allows the user to
alter the password data recorded in the item All of the
volume data DVS (Fig. 6).
If the user selects the recording mode item, step
SP24 is reached. In step SP24, the CPU 8 specifies the
recording/operation mode recorded in the item B8 of the
program data DPRX (Fig. B) and writes the applicable
recording mode data.
If the user selects the tape type item, step SP25
is reached. In step SP2b, the CPU 8 alters the tape
type data among the data representing the video
cassette type recorded in the item A10 of the volume
data D~ (Fig. 5).
If the category item is selected by the user, step
SP28 is reached. In step SP26, the CPU 8 alters the
category code data recorded in the item B8 of the
program data DPRX (Fig. 6).
If the title item is selected by the user, step
SP27 is reached. In step SP27, the CPU 8 alters the
title data recorded in the item B12 of the program data
DPRX (Fig. 6).
In the manner described, the CPU 8 alters the data
in the password item through the title item in steps
SP23 - SP27 before reaching step SP28. In step SP28, a
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CA 02313826 2000-07-12
check is made to see it an "END" item is specified. If
the end item is found to be specified, the processing
on the applicable management database is terminated and
step SP29 is reached. Step SP29 is followed by step
SP8 back in the control database processing loop
illustrated in Fig. 7.
If, in step SP21 of Fig. 8, the user selects the
preset cancel item in the control data list displayed
in the command wait state, step SP30 is reached: In
step SP30, the CPU 8 cancels all_ programs preset in the
current control data list.
If the user selects the auto reproducing item in
step SP21, step SP~S1 is reached. In step SP31, the CPU
8 reproduces in a predetermined order, and alters as
needed, the reproducing order data in the item A13 of
the volume data DVS (Fig. b).
If the manual preset item is selected by the user
in step SP21, step SP32 is reached. In step SP32, the
CPU consecutively accepts the manual settings of a
predetermined number of programs and enters the
settings as control data.
When step SP34, SP31 and SP32 are completed, the
CPU 8 returns to the management database processing
loop (Fig. 9) through steps SP2B and SP29.
39

CA 02313826 2000-07-12
' While the CPU 8 is in the command wait state in
step SP21 of Fig. 8, with the control data list
displayed, the user may select the program information
verification item. This causes the CPU 8 to enter step
SP3S which is followed by step SP34. In step SP34, the
CPU 8 switches displays on each display screen.
Depending on the screen selected, step SP35, SP3fi, SP87
or SP38 is reached. Of the volume data DVS (Fig. 5)
and the program data DPRX (Fig. 6), the write enable
item, the program viewing history item, the category
item or the title item is verified and/or altered in
step SPS5, SPSB, SP3? or SPSB, respectively.
In this embodiment, characters are used to
represent the write enable item, the program viewing
history item, the category item and the title item.
This representation scheme makes it possible to check
and alter the data about~a plurality of preset programs
in a relatively narrow display area.
- When steps SP35 through SP38 are completed, the
CPU 8 returns to the management database processing
loop (Fig. 7~ through steps SP28 and SP29.
Lf the user selects the management data preset
item in the command wait state where the control data
list is being displayed, the CPU 8 enters a management

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CA 02313826 2000-07-12
data subroutine BT3. There, the CPU 8 executes the
management data reset processing subroutine RT31 which
constitutes part of the subroutine 8TS and which
changes types of preset mode, as illustrated in Fig. 9.
With the subroutine BT31 activated, the CPU 8
prompts the user in step SP41 to select the type of
time preset mode. As shown in Fig. 11, this embodiment
provides two types of timer preset mode, language-based
preset mode or graphic-based preset mode, one of which
the user is asked in step SP41 to select for the preset
screen. In language-based preset mode, the items to be
specified are expressed in the form of a language-based
item table (TBL) in natural language (Japanese). In
graphic-based preset mode, which is usually used, the
specification items are expressed in the form of a
graphic-based item table in graphic elements such as
alphanumeric characters and symbols.
If the user selects the above language-based
preset mode, the CPU 8 enters step SP42. In step SP42,
the CPU 8 causes the language-based item table (TBL) to
appear on each display screen, and moves into a
register 44 the data which corresponds to the
language-based input item selected by the user.
On the other hand, if the user selects the
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CA 02313826 2000-07-12
graphic-based preset mode, the CPU 8 enters step SP43.
In step SP43, the CPU 8 causes the graphic-based item
table on each display screen, and moves into the
register 44 the data corresponding to the graphic-based
input item selected by the user.
After the user has completed necessary input
operations in the above steps, the CPU 8 terminates its
management data preset processing and returns to the
management database processing loop of Fig. B.
The CPU 8 then displays items "ENTRY," "CHANGE"
and "INQUIRY" on the screen. When the user selects the
entry item, change item or inquiry item in step SP51,
SP52 or SP53, respectively, the CPU B initiates the
corresponding processing.
Thereafter, depending on the item selected by the
user, the CPU 8 displays a calendar-based preset table,
weekly preset table or daily preset table in step SP54,
SP5b or SPSfi, respectively. The user is prompted to
wrik.e the start time and/or the end time of each
program to be preset into the calendar-based preset
table, into the weekly preset table or into the daily
preset table.
With the above settings completed, the CPU 8 goes
to step SP2B where it is ascertained that the current
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CA 02313826 2000-07-12
' management database processing program has ended. The
CPU 8 then returns to the management database
processing loop of Fig. 7 through step SP29.
Described above is what subsequently happens when
the user selects the management database item in step
SP8 while the initial command wait state of Fig. 7 is
in effect. After the selection, the management data is
written to, altered or verified on the video tape.
Alternatively, the user may select the system setting
item, the preference setting item or the timer
presetting item. If any of these three items is
selected, the CPU 8 accordingly establishes the
operating conditions for the affected parts of the
video tape recorder 1.
Specifically, assume that the user selects the
system setting item in step SP61 of Fig. 7. Each
display screen then displays such items as "CURRENT
TIME", "DOZE-OFF TIMER", "RECORDING MODE", "NOISE
REMOVAL", "BS ONLINE", "AUTO SETTING", "TUNER
PRESETTING" and "LINE PRESETTING" which may be selected
by the user in steps SP62 through SP69, respectively.
When any of these items is selected, the CPU 8 sets the
operating conditions for the applicable component of
the system. After completing the above processing, the
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CA 02313826 2000-07-12
> CPU 8 terminates the system setting processing loop anal
moves on to step SP10.
If the user selects the preference setting item in
step SP71, the CPU 8 causes each display screen to
display such Items as "PICTURE DISPLAY", "MANAGEMENT
DATABASE", "USER SETTING", "CHARACTER", "TIMER
PRESETTING", "USER LEVEL", "MESSAGE" and "VOICE" which
may be selected by the user in steps SP72 through SP78,
respectively. When any of these items is selected, the
CPU 8 executes the processing which corresponds to the
selected item. After completing that processing, the
CPU 8 goes to step SP10, as described above.
Assume that i~n step SPBI, the user selects the
timer presetting item. The CPU B then causes each
display screen to display the entry, change and inquiry
items, which may be selected by the user in steps SP82,
SP83 and SP84, respectively. When the user selects any
of these items, each display screen displays the
calendar-based preset table item, the weekly preset
table item and the daily preset table item. The user
then selects one of these three items. When the
calendar-based preset table item, the weekly preset
table item or the daily preset table item is selected
by the user, the CPU 8 causes the calendar-based preset
44

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,table, the weekly preset table or the daily preset
table to appear on each display screen, respectively.
Using the currently displayed preset table, the user
presets any programs desired.
When completing the timer preset processing loop,
the CPU 8 moves on to step SP10.
In the manner described above, the CPU 8 executes
the input data processing program RTO of Fig. 7. This
provides reliable control over the video tape recorder
unit S based on the data entered by the user.
(5) Presetting of Management Data Using the Language
Input Items
As described above, when "MANAGEMENT DATA
PRESETTING" is designated from the management data list
displayed on the display screens in the command waiting
state in step SP21 (Fig. 8), the CPU 8 in the control
management data processing unit 5 enters the management
data-presetting subroutine RT3 and executes the
management data presetting process. At that time,
Table of Language Designated Items TBL shown in Fig. 11
is displayed on the display screens 4A and 6A so that
the user can input the management data as if he or she
talks to the computer.

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CA 02313826 2000-07-12
When the timer setting process is executed in step
SP81 in the initial command waiting state shown in Flg.
9, the CPU 8 displays on the display screens 4A and 6A
Table of Language Designated Items TBL shown in Fig.
11, as in the case of execution of the management data
presetting process, so as to allow the user to input
the items easily and reliably using the daily used
language.
In this embodiment, Table of Language Designated
Items TBL is a list of terms with which the user can
interactively input commands to the video tape recorder
1 using the natural language. The table contains the
terms which represent the objects to be operated, the
terms which represent the contents of the operations,
the terms which represent the operation time or
operation hour and so on. These terms are arranged in
the table in such a manner that they can be designated
by the unit of one or a plurality of words.
In this embodiment, the terms with which the time
or hour can be designated include those with which the
times before and after the current time can be
designated by the unit of day or week, i.e., "TODAY",
"TOMORROW", "DAY AFTER TOMORROW" and "NEXT WEEK", those
with which repetition can be designated by the unit of
46

CA 02313826 2000-07-12
week or day, i.e., "EVERY WEEK" and "EVERY DAY", those
with which the date can be designated in accordance
with the calendar, i.e., "MONTH", "DAY", "SUNDAY" to
"SATURDAY", and those with which the time in a day can
be designated, i.e., "IN THE MORNING", "IN THE
AFTERNOON", "O'CLOCK", "MINUTE" and "BETWEEN".
The terms with which the input sources can be
designated include "BS", "LINE", "CABLE", "ch" and
"~ III".
The terms with which the operations can be
designated include "DISPLAY", "CHANGE", "CANCEL",
"CONTINUES UNTIL", "RECORD PRESETTING", "END",
"STOP ..." and ".".
The terms with which the above-described terms can
be connected include "FROM", "UNTIL", "THE PROGRAM OF",
"OF", "AT" and "TO". The terms with which numeral
information can be input includes "0" to "12". The
terms for the man-machine interaction with the CPU 8
include "YES" and "NO"
In this embodiment, Table of Language Designated
Items TBL is displayed on the display screen 6A of the
remote controller 6 and on the display screen 4A of the
monitor 4 when the process of "MANAGEM);NT DATA
PRESETTING" is executed in the subroutine RT3 (Fig. 8)
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and when the process of "TIMER PRESETTING" is executed
in step SP81 (Fig. 7), so that the user can designate
one of the terms listed on Table of Language Designated
Items TBL to input the command represented by the term
designated to the CPU 8.
For example, when it is desired to program the
recorder for the program which goes on the air the 1st
channel from 8 o'clock to 9 o'clock on Monday night,
the user may designate from Table of Language
Designated Items TBL, "RECORD PRESETTING", "THE PROGRAM
OF" "1", "ch", "FROM", "8", "O'CLOCK", "Tt7", "9",
"O'CLOCK", "IN THE AFTERNOON", "OF", "MONDAY", "EVERY
WEEK" and "." in that order or in another order.
When these operations are those executed in the
subroutine RT3 on "MANAGEMENT DATA PRESETTING", the
input data is stored in the register 44, and then
recorded on the management data DAV recording area of
the management database video track recording area FAVV
or the management database audio track recording area
FAVA' That is, the recording starting time
information, i.e., the numerical data representing "8
O'CLOCK IN THE AFTERNOON OF EVERY FRIDAY", is recorded
as the program information DPRX of the program
information block DPR which is identified by Item B9.
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Also, the information representing the recording ending
time, i.e., the numerical data representing "9
O'CLOCK", is recorded as the program information DPRX
identified by Item B10. The data representing the
input source, i.e., the numerical data representing "1
channel", is recorded as the program information DPRX
identified by Item B7.
If the above-described programming of the recorder
1 is the one which is made in the process of CHANGE of
TIMER PRESETTING in step SP81, the input data is
written as new recording information in the presetting
information memory provided in the video tape recorder
unit 3.
When it is desired to make a change on the preset
program, e.g., to change the channel number of the
preset program which will go on the air next day from 6
channel to 8 channel, the user may execute the process
of MANAGEMENT DATA PRESETTING of the subroutine RT3 and
designate from Table of Language Designated Items TBL,
"CHANGE", "THE PROGRAM OF" "TOMORROW" "FROM" "6", "ch",
"TO", "8", "ch" in that order or in another order.
That is, the input source data recorded on the
management data DAV recording area of the management
database video track recording area FAV~ or the
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' management database audio track recording area FAVA as
the program information DPRX identified by Item B~,
i.e., "8 ch", is replaced by "8 ch" to change the
already set management data.
Ii the above-described programming of the recorder
1 is the one which is made in the process of CHANGE of
TIMER PRESETTING in step SP81, the data already written
in the presetting information memory provided in the
video tape recorder unit S is replaced by the input
data.
If it is desired to cancel the already preset
program, e.g., to "cancel presetting of the program
which will go on the air next Tuesday", the user may
designate from Table of Language Designated Items TBL
displayed on the screens in the subroutine RT3 or in
step SP81 "CANCEL", "THE PROGRAM OF" "NEXT" "TUESDAY"
in that order or another.
If the above operations are those executed in the
process of "MANAGEMENT DATA PRESETTING" of the
subroutine RT3, all the information on the program
whose recording starting time information, i.e., the
numerical data representing "TUESDAY ON EVERY WEEK", is
recorded on the management data DAV recording area of
the management database video track recording area FAVV
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or the management database audio track recording area
FAVA as the program information DPRR identified by Item
B9 is cancelled.
If the above operations are those executed In
"TIMER PRESETTING" in step SPB1, the corresponding
information stored In the memory provided in the video
tape recorder unit 3 is cancelled.
The user can input information more easily and
accurately to program the recorder using Table of
Language Designated Items TBL shown in Fig. 11 because
the daily used language is used in the table as the
item data input means.
(6) Recording of the Program Start Address
When one or a plurality of programs P1, P2, P3,
etc., are recorded on the video tape S6, the control
data processing CPU 8 writes to the start address item
B1 of the program data DPRX (Fig. 6) the recording
start point of each program as the program start
address value relative to the tape top. Thereafter,
when any of the recorded programs on the video tape 36
is to be reproduced or overwritten, the system can
verify the recording position of that program by
checking the address thereof without actually running
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the tape up to the tape position where the program is
recorded.
By operating the remote controller 6, the user
first enters the management data DAV of each item (Fig.
4) as the I/0 data S4 through the remote control
transceiver ?. The control management data processing
CPU 8 places the control data into the register 44.
Thereafter, if control data recording mode is selected
when, say, the video cassette 3b is ejected, the
control management data processing CPU 8 transfers the
management data DAV from the register 44 to the video
recording encoder 51 as the write control data S2b. In
turn, the video recording encoder 51 converts the
management data into a data video signal S42 and
supplies the signal to the recording circuit 32 through
the recording switchover circuit 31.
At this point, the recording circuit 32 processes
the data video signal S42 in the same manner as the
recording video signal S1 is processed. The recording
circuit S2 then records the processed signal as one
corresponding to one field of video signal into the
video recording tracks TA and TB (Fig. 3) on the video
tape 36 through a video electromagnetic conversion
circuit which constitutes part of the electromagnetic
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conversion circuit 33 as well as through video heads
(write and read heads) making up the magnetic head 34.
Thus the management database video track recording
field FAVV (Fig. 3) is formed at the tape top of the
video tape S8. As shown in Fig. 12B, a management data
video signal VDDAV is recorded in the corresponding
management database video track recording field FAVV'
During the above recording operation, the control
management data pro~esslng CPU 8 transfers raark
recording data as control signal recording data S44 to
CTL recording encoder/decoder 54. In turn, the CTL
recording eocoder/decoder.54 converts the control
signal recording data S44 into a data control signal
S46. The data control signal S48 is written as a
recording start point mark signal MKBS (Fig.. 12C) to
the control signal recording track TCT on the video
tape 38 through a control signal electromagnetic
circuit constituting part of the electromagnetic
conversion circuit 33 and through the control head
which is one of the magnetic head 34.
Thereafter, the control management data processing
CPU 8 transfers the control signal as the control
signal recording data 544. This causes a control
signal CTS to be recorded onto the control signal
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recording track TCT.
In program recording mode, the control management
data processing CPU 8 records program video signals
VDP1, VDP2, VDP3~ etc., of programs P1, P2, PS, etc.,
consecutively into the video recording tracks TA and TB
(Fig. 12B) of the video signal recording field FVD
(Fig. S) following the management database video track
recording field FAVV. In parallel with the above
recording, the CPU 8 records the corresponding program
audio signals ADP1, ADP2, ADPS, etc., to the audio
recording tracks CH1 and CH2 (Fig. 12A). At the same
time, the CPU 8 writes control signals CTP1, CTP2'
CTPS, etc., to the control signal recording track TCT
(Fig. 12C).
In the program recording mode described above, the
control data processing CPU 8 supplies the CTL
recording encoder/decoder b4 with the mark signal data
in the form of the control signal recording data S44
upon_ start of the recording of the program video
signals VDP1, VDP2, VDP3, etc. This causes recording
start point mark signals MKP1S' MKP2S' MKPSS, etc., to
be recorded as shown in Fig. 12C.
In this embodiment, the marls signals MKOS, MKpIS'
MKP2S' MKP3S, etc., are each made up of a tape position
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.,
address value relative to the reference point of the
tape top on the video tape 38. The tape position
address value is illustratively provided by
transferring the value on a tape counter circuit in the
video tape recorder unit 3 to the control management
data processing CPU 8 via the mechanism control CPU 11.
Cliven the setup described above, when a recorded
video cassette 35 is loaded into the video tape
recorder unit 3, the control management data processing
CPU 8 enters management database. reproducing mode even
as it communicates with the mechanism control CPU 11.
Once in management database reproducing mode, the CPU 8
picks up the data video signal from the management
database video track recording field FpVV on the video
tape 38 and writes the data into the register 44, the
data being forwarded through the magnetic heads 34, the
electromagnetic conversion circuit 33, the reproduction
circuit 37, the reproduction switchover circuit S8 and
the _video recording decoder 52.
The register 44 thus retains the management data
DAV (Fig. 4) therein as the management data specific to
the current video tape 38. The program data block DPR
contains the program data DPR.X (Fig. 8) about the
programs P1, P2, P3, etc., recorded on the video tape

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' 38.
As described, the position data comprising the
recording start points MKP1S' MKP2S, MKP$S, etc., is
placed in the start address item B1 of the respective
program data DPRX. The position data constitutes an
address representing the position of each program
relative to the reference position of the tape top on
the video tape 38. In this manner, the register 44
constitutes part of the setup that provides centralized
control over the programs in terms of their addresses.
The user verifies the contents of the start
address item B1 comprising the respective program data
DPRX. The verification allows the user to readily know
the position of any program currently recorded on the
video tape 38 without going through the chores of
forwarding fast and reproducing the tape to see where
the desired program actually starts. The user is now
able to gain easy access to each of the programs
recorded on the tape.
(7} Overwriting of the Recorded Program
Assume that one of a plurality of programs P1, P2,
P3, etc., recorded in the video recording tracks TA and
TB on the video tape 36 is to be overwritten with a new
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program. In that case, the control management data
processing CPU 8 controls the second control head 34A,
the erase head 34B, the recording and reproducing head
(video head) 34C and the first control head 34D shown
in Fig. 13 so as to record the new program.
For example, where a new program is to be
overwritten onto the second recorded program P2 (Fig.
12), the control management data processing CPU 8 first
supplies the mechanism control CPU 11 with a command
via the bus 10 for searching the recording start point
mark signal MKP2S of the second program P2.
Upon receipt of the conunand, the mechanism control
CPU 11 supplies a video tape driving unit 5? with the
control signal S? specifying that the video tape 36 is
to be forwarded fast or rewound as needed.
At this point, the control management data
processing CPU 8 inputs the control signal that was
read by the first control has 34D and forwarded through
a recording and reproducing circuit 33B contained in
the electromagnetic conversion circuit 33 and the CTL
recording encoder/decoder. If the input control signal
is the recording start point mark signal, the signal is
sent to the mechanism control CPU 11 over the bus 10.
The mechanism control CPU 11 has previously input
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' and retained the recording start point mark signal
MKP2S corresponding to the second program, the signal
being from the control management data processing CPU
8. Based on this signal, the CPU 11 checks to see if
the recording start point mark signal entered during
the above search operation coincides with the
previously retained recording start point mark signal
KMP2S. If the signals match, it means that the first
control head S4D has reached the recording start field
of the second program P2. At this point, the mechanism
control CPU 11 stops the video tape 38 and supplies the
control management data processing CPU 8 with a signal
indicating the end of the search operation.
The control management data processing CPU 8 then
permits overwriting of the new program. Specifically,
the erase head 34B erases the second program P2 from
the tape. At the same time, the recording video signal
S1 starts to be recorded from the beginning of the
recorded field VDP2 of the second program P2, the
signal being forwarded through the recording circuit
32, a switchiching circuit 33C and the recording and
reproducing head 34C in a rotating drum SA.
Concurrently, the control management data processing
CPU 8 starts recording new control signal recording
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data S44 as a new control signal to the control signal
recording track TCT of the second program P2 through
the CTL recording encoder 64, the recording and
reproducing circuit SSB and the first control head 34D.
At this point, a new audio signal is recorded onto
the audio recording tracks CHI and CH2 via an audio
head, not shown.
Because the second control head S4A is located
upstream of the erase head 34C in the running direction
K1 of the video tape 38, the control management data
processing CPU 8 can detect the control signal and the
recording start point mark signal before they are
erased by the erase head 34C.
Thus the control management data processing CPU 8
inputs the control signal that is read by the second
control head 34A as control signal reproducing data
560, the signal being forwarded through the reproducing
circuit 33A in the electromagnetic conversion circuit
33 and through the CTL reproduction decoder 55. The
CPU 8 then waits for the third recording start point
mark signal MKP3S to be input, the signal being
recorded at the beginning of the field containing the
third program P3 which follows the second program P2 on
the tape.
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With the third recording start mark signal MKPSs
input, the control management data processing CPU 8
tells the mechanism control CPU 11 to terminate the
recording operation. This prevents the third program
PS from getting inadvertently erased if the new program
being recorded is longer than the second program P2
that has been overwritten.
Because the third recording start point mark MKPgS
is read by the second control head, the recording
operation is reliably stopped before an erase operation
of the third program P3 that needs to be preserved. In
this manner, only the second program P2, which was
intended to be erased, is overwritten with the new
program.
After the new program is recorded as described
above, the control management data processing CPU 8
alters the management data DAV in the register 44 in
accordance with the overwrite operation that took
place. The CPU 8 then rewinds the video tape 36,
alters the program data DPftX in the management data
recording field at the tape top, and terminates the
overwrite operation.
As described, the second control head 34A is
located upstream of the erase head in the running

CA 02313826 2000-07-12
' direction K1 of the video tape S6. With the second
control head reading recording start point mark signals
from the vide o tape 36 during recording, the field into
which a new program is being recorded is continuously
checked for its ending. Thus only the desired portion
of the tape is overwritten with the new program.
(8) Other Embodiments of the First Embodiment
(8-1) In the embodiment described above, the management
data DAV is recorded onto the video recording tracks TA
and TB while a mark signal indicating the recording
start point of each program is concurrently recorded
onto the control signal recording track TCT.
Alternatively, the management data DAV may be recorded
onto the audio recording tracks CH1 and CH2 or onto the
tape top part of the control signal recording track
TCT.
Another alternative is to record the mark signals
onto-the audio recording tracks CH1 and CH2 or onto the
video recording tracks TA and TB instead of the signals
being recorded onto the control signal recording track
TCT.
(8-2) The above-described embodiment is an application
of the present invention to a recording and reproducing
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apparatus having a recording and reproducing head in a
rotating drum. Alternatively, the invention may be
applied to a recording and reproducing apparatus having
a fixed head arrangement for recording and reproducing
video signals.
(8-S) In the embodiment described above, the management
data DAV has the volume data block DVM and the program
data block DPR recorded, in that order, from the
beginning of the recording tracks. Alternatively, the
blocks may be switched between their positions,
subdivided into more blocks for different arrangements,
or otherwise allocated on the video tape.
(8-4) The above-described embodiment is an application
of the present invention to the video tape recorder.
Alternatively, the invention may be applied to other
various recording and reproducing apparatus such as
DATs (digital audio tape recorders) which record and
reproduce audio signals.
[2] Second Embodiment
(1) Recording of Management Data DAV to Management
Database Video Traclc Recording Field FAVV
In the second embodiment, the video recording
encoder 51 (.Fig. 1) converts the management data DpV
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into a data video signal in the setup shown in Fig. 14,
the management data thus being recorded on the video
tape 36 as the signal having the same format as the
video signal. At the same time, the video recording
decoder 52 converts the data video signal into the
management data DAV and supplies it to the control
management data processing CPU 8 in the setup of Fig.
14, the data video signal being reproduced in the same
format as the video signal reproduced from the video
tape 36.
Specifically, once in management data recording
mode, the video recording encoder 51 transfers the
management data DAV as write management data S25 to the
encoder circuit 51A and then converts the data into
video data S41 for writing to the video memory 53, the
management data DAV having being stored as part of the
basic data in the basic data memory 43 (Fig. 1) based
on the control data S5 for the conirol management data
process ing CPU 8.
The video~data written to the video memory b3 is
read out by the display control circuit 51B, and is
converted from digital to analog format to make up a
data video signal S42 which is supplied to the
recording switchover circuit 31.
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' The recording switchover circuit 31 is controlled
according to the control data for the control
management data processing CPU 8 as described with
reference to Fig. 1. Thus when the video cassette 35
is loaded into the video tape recorder unit 3, with
management database recording mode selected before the
recording video signal S1 is recorded to the video
signal recording field FVD (Fig. 3), the recording
switchover circuit S1 acts to supply the data video
signal S42 to the recording circuit 32.
As a result, the recording circuit 32 records the
data video signal S42 as a one-field video signal to
the video recording tracks TA and TB (Fig. 3) on the
video tape 36, the data video signal S42 being supplied
from the video recording encoder 51 and forwarded, like
the recording video signal S1, through the video
electromagnetic conversion circuit 33A in the
electromagnetic conversion circuit 33 and the video
head comprising the magnetic head 34.
In this manner, the management database video
track recording field FAVV is formed illustratively at
the tape top part of the video tape 36.
When management data reproducing mode is selected,
the data video signal is sent out as the reproduced
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video signal S2, the data video signal being reproduced
via the video head containing the magnetic head 34 from
the video recording tracks TA and TB of the management
database video track recording field FAVV, the
reproduced signal being forwarded through the video
electromagnetic conversion circuit 33A in the
electromagnetic conversion circuit 33, the reproducing
circuit 37 and the reproducing switchover circuit 38.
At this point, the video recording decoder 52 gets
the analog/digital conversion circuit 52A to convert
the data video signal into video data 543, the data
video signal having being output as the reproduced
video signal S2. The data S43 after conversion is
written to the video memory 53 via the memory write
control circuit 52B.
The video data thus written to the video memory 63
is converted by the decoder circuit 52C into
reproduction management data S44 for output to the bus
9. .
In the setup of Fig. 14, the control management
data processing CPU 8 enters management database
reproduction mode while communicating with the
mechanism control CPU 11 when the video cassette 35 is
loaded into the video tape recorder unit 3. Using the

CA 02313826 2000-07-12
switchover control signal 545, the control management
data processing CPU 8 switches the reproduction
switchover circuit 88 to the aide of the reproduction
circuit 37. This causes the data video signal to be
picked up from the management database video track
recording field FAVV on the video tape 38 and fed to
the video recording decoder 52 through the magnetic
head S4, the video electromagnetic conversion circuit
S3A, the reproducing circuit 37 and the reproducing
switchover circuit S8. The video recording decoder 52
then converts the~data video signal into the
reproduction management data S44 and writes it to the
basic data memory 4S.
In the state above, the user may overwrite or
alter the management data DAV by specifying the
"management database" item in step SP8 of Fig. 7 to
activate the management database diverse processing
subroutine ftTl (Fig. B). In that case, the control
management data processing CPU 8 goes to step SP9 for
management database modification and, communicating
with the mechanism control CPU 11, enters management
database recording mode. Using the switchover control
signal 596, the CPU 8 switches the recording switchover
circuit 31 to the side of the video recording encoder
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61. This causes the management data DAV to be read
from the basic data memory 43 and written as write
control data S25 (data video signal) to the video tape
36, the data being forwarded through the video
recording encoder 51, the recording switchover circuit
31, the recording circuit 32, the video electromagnetic
converaion circuit 33A and the raagnetic head 34.
Thus in the setup of Fig. 14, once the video
cassette 35 is simply loaded into the video tape
recorder unit S, the user may write, verify or alter
the management data about the programs recorded or
preset to be recorded, the management data being
located in the management database video track
recording field FAVV of the vide o tape S6. This scheme
frees the users of the prior art devices of this kind
from the chores of running the video tape in search
mode or reproducing mode every time it is necessary to
verity the contents of a desired program recorded
anywhere on the video tape.
Because various kinds of management data DAV may
be retained on each video tape as the management data
specific thereto, it is possible to further improve the
intrinsic functions of the video tape recorder in terms
of sophistication. When combined with external devices
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CA 02313826 2000-07-12 ,
to constitute a system, the video tape recorder rnay
function as the command center thereof.
(2) Other Embodiments of the Second Embodiment
(2-1) In the embodiment of Fig. 14, the encoder circuit
51A is located inside the video recording encoder 51
between bus 9 and video memory 53, and the decoder
circuit 52C is located Inside the video recording
decoder 52 between video memory 53 and bus 8.
Alternatively, as shown in Fig. 15, the er:coder circuit
51A may located between video memory 53 and display
control circuit 51B, and the decoder circuit 52C may be
located between memory write control circuit 52B and
video memory 53.
In the setup of Fig. 15, the control management
data processing CPU 8 writes the write management data
S25 directly to the video memory 53 in management data
recording mode, the write management data S25 being
otherwise transferred thereto over the bus 9.
The write management data S25 thus written to the
video memory 53 is read therefrom consecutively
according to the read management signal S51 sent by the
display control circuit 51B. The read data is
converted by the encoder circuit 51A into the video
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CA 02313826 2000-07-12
data S52 and supplied to the display control circuit
51B. In turn, the display control circuit 51B outputs
the video data S52 as the data video signal S52.
In management data reproducing mode, the control
management data processing CPU 8 supplies the decoder
circuit 52C with the video data S43 for conversion to
the reproducing management data 553, the video data
having been input to the memory write control circuit
52B from the analog/digital conversion circuit 52A.
The converted data is written to the video memory 53
according to the write management signal S54 sent by
the memory write control circuit 52B.
The reproducing management data thus written to
the video memory 53 is read therefrom consecutively
according to the control data S5 of the control
management data processing CPU 8. The read data is
placed onto the bus 9 as the reproducing management
data 544.
.In the setup of Fig. 15, the management data DAV
is recorded to the management database video track
recording field FpVV on the video tape 38 in the same
manner as in the setup of Fig. 14. When the management
data DAV is read to the basic data memory 4S upon
loading of the video cassette 35, the data about the
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programs recorded or preset to be recorded on the video
cassette 35 becomes known to the user. Thus the video
tape recorder according to the invention makes it
substantially easier for the user to have ready manage
over the programs recorded or preset to be recorded (as
well as over the video casaettea) than the conventional
devices.
(2-2) In the above-described embodiment, the encoder
circuit 61A and the decoder circuit 52C are located in
the video recording encoder 51 and the video recording
decoder 62, respectively. In this arrangement, the
write management data, which is read from the basic
data memory 48, is converted into video data signal
format. In the same arrangement, the reproduced video
data is converted to management data whose format is
conducive to being written to the basic data memory 43.
Alternatively, the conversion involved may be
implemented by the control management data processing
CPU.B on a software basis.
(2-3) In the embodiments of Figs. 14 and 15, the video
data S43 obtained in management data reproducing mode
from the analog/digital conversion circuit 52A is
written temporarily to the video memory 53 before the
data is read onto the bus 9. Alternatively, the same

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CA 02313826 2000-07-12
' effect is obtained by installing a video memory 53 for
dedicated use by the video recording encoder 51 and
video recording decoder 52, or by omitting the video
memory 5S so that the data may be forwarded directly to
downstream processing circuits.
(2-4) In the embodiments of Figs. 14 and 15, the
management data DAV comprises the volume data block DVM
and program data block DPR written in that order from
the beginning of the recording tracks. Alternatively,
the blocks may be switched between their positions,
subdivided into further blocks for different
arrangements, or otherwise allocated on the tape.
(2-5) In the embodiments of Figs. 14 and 15, the
management database video track recording field FAVV is
located at the tape top part of the video tape S6.
Alternatively the field may be located somewhere else
on the tape.
[S]. Third Embodiment
(1) Recording of Management Data DAV to Management
Database Audio Track Recording Field FAVA
In the third embodiment, the audio retarding
encoder 5S (Fig. 1) converts the management data DAV
into n data audio signal in the setup shown in Fig. 16,
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the management data being recorded on the video tape 38
as the signal having the same format as the audio
signal. At the same time, the audio recording decoder
54 converts the data audio signal into the management
data DAV and supplies it to the control management data
processing CPU 8 in the setup of Fig. 16, the data
audio signal~being reproduced in the same format as the
audio signal reproduced from the video tape 36.
Specifically, according to the control data S5 of
the control data processing CPU 8, the audio recording
encoder 53 reads the management data DAV stored as part
of the basic data in the basic data memory 43 (Fig. 1)
and transfers the data as write management data S29 to
the encoder circuit 53A for conversion thereby into a
data audio signal 541. The data audio signal S41 is
supplied as a recording audio signal S42 to the audio
electromagnetic conversion circuit 33A in the
electromagnetic conversion circuit 33, the signal being
forwarded through the recording switchover circuit 53H
and the recording circuit 53C. The signal is then
written by the audio head comprising the magnetic head
34 to the audio recording tracks CH1 and CH2 (Fig. 3)
on the video tape 36.
As a result, the management database audio track
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' CA 02313826 2000-07-12 ,_,,
recording field FAVA (Fig. 3) is formed at the tape top
part of the video tape 36.
When the control management data processing CPU 8
enters management data reproducing mode, the audio
recording decoder 54 has the reproducing circuit 54A
receive the data audio signal as the reproduced audio
signal S43 via the audio electromagnetic conversion
circuit 33A in the electromagnetic conversion circuit
SS, the data audio signal being picked up by he audio
head containing the magnetic head S4 from the audio
recording tracks CH1 and CH2 of the video tape 38. The
reproduced audio signal S4S is then supplied to the
decoder circuit b4C through the reproduction switchover
circuit 54B.
The decoder circuit b4C converts the input data
audio signal S44 into read management data S28 for
output to the bus 9. At this point, the control
management data processing CPU 8 writes to the basic
data memory 43 the read management data S28 that was
sent from the decoder circuit 54C.
In the setup of Fig. lfi, the control management
data processing CPU 8 receives a management data write
command. In turn, the CPU 8 supplies the mechanism
control CPU 11 (Fig. 1) with a command telling the
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CA 02313826 2000-07-12
latter to get to a designated write start cue part on
the video tape 36. In response, the mechanism control
CPU 11 forwards the video tape S8 fast until the
designated position thereon is reached.
The control management data processing CPU 8 then
supplies the recording switchover signal S45 to the
recording switchover circuit 5SB. This causes the
recording awitchover circuit 53B to route the data
audio signal S4l~ot the encoder circuit 53A to the
recording circuit 53C.
In this manner, the recording switchover circuit
5SB continuously allows the recording audio signal S48
from the audio circuit 55 to be input to the recording
circuit 53C. Thus the audio signal is recorded to the
audio recording tracks CH1 and CH2 on the video tape
S6.
In the state above, the control management data
processing CPU 8 reads the management data DAV from the
basi-c data memory 43 and supplies the data as write
management data S27 to the encoder circuit 5SA, the
write management data S27 being comprised of an FSK
demodulation signal whose waveform is shown in Fig. 17.
The data audio signal S41 that appears at the output
terminal of the encoder 53A is recorded to the audio
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recording tracks CH1 and CH2 (Fig. 3) on the video tape
S8 through the recording switchover circuit 53B, the
recording circuit bSC, the audio electromagnetic
conversion circuit SSA In the electromagnetic
conversion circuit SS, and the magnetic head 34.
When the management database audio track recording
field FAVA has all been recorded on the video tape S6,
the control management data processing CPU 8 supplies a
management data recording end command to the mechanism
control CPU 11. This action resets management data
recording mode and causes the recording switchover
signal S45 to switch the recording swltchover circuit
bSB to the aide of the audio circuit bb. The
switchover completes the series of the management
database recording operations involved.
Upon receipt of a management database reproducing
command, the control management data processing CPU 8
supplies the mechanism control CPU 11 with a management
data start cue command.
At this point, the mechanism control CPU 11 runs
the video tape 36 until the recording start position of
the management database audio track recording field
FAVA (Fig. 3) is reached thereon.
Thereafter, the control management data processing
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CPU B sends out the reproducing switchover signal S49
over the bus 9. This signal switches the reproducing
switchover circuit 54B to the side of the decoder
circuit 54C.
Concurrently, the control management data
processing CPU 8 feeds an audio reproduction start
command to the mechanism control CPU 11 so as to get
the video tape recorder unit S ready for audio
reproduction.
Thus the management data DAV recorded in th~
management database audio track recording field FAVA on
the video tape 38 is supplied as the data audio signal
S44 to the decoder circuit 54C, the management data
being forwarded through the magnetic head 34, the audio
electromagnetic conversion circuit 33A, the
reproduction circuit 54A and the reproduction
switchover circuit 54B. At this point, the control
management data processing CPU 8 writes the read
management data S28 to the basic data memory 43 over
the bus 9, the data S28 having being output from the
decoder circuit 54C.
When reproduction of the management data DAV comes
to an end, the control management data processing CPU 8
uses the reproducing switchover signal S47 to switch
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the reproducing switchover circuit b4B to the side of
the audio circuit bb. At the same time, the CPU 8
outputs an audio reproducing end signal to the
mechanism control CPU 11. This completes the series of
the management database reproducing operations
involved.
In the above setup, the user may write, verify or
alter the management data about the programs recorded
or preset to be recorded on the.video tape 38, the
management data being located in the manager:!ent
database audio track recording field hAVA of the video
tape S8. This scheme frees the users of the
conventional,devic'es of this kind from the chores of
running the video tape in search mode or reproducing
mode every time it is necessary to verify the contents
of a desired program recorded anywhere on the video
tape.
Because various kinds of management data DAV may
be retained on each video tape as the management data
specific thereto, it is possible to further improve the
intrinsic functions of the video tape recorder in terms
of sophistication. When combined with external devices
to constitute a system, the video tape recorder may
function as the command center thereof.
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(2) Other Embodiments of the Third Embodiment
(2-1) In the embodiment of Fig. 18, the encoder circuit
6SA and the decoder circuit 54C are located in the
audio recording encoder b3 and the audio recording
decoder 64, respectively. In this arrangement, the
management data, which is read from the basic data
memory 4S, is converted into data audio signal format.
In the same arrangement, the reproduced data audio
signal is converted to management data whose format is
conductive to being written to the basic data memory
43. Alternatively, the convention involved may be
implemented by the control management data processing
CPU 8 on a software basis.
(2-2) In the embodiment of Fig. 6, the management data
DAV comprises the volume data block DVM and program
data block,DPR written in that order from the beginning
of the recording tracks. Alternatively, the blocks may
be switched between their positions, subdivided into
further blocks for different arrangements, or otherwise
allocated on the tape.
(2-3) In the embodiment of Fig. 18, the management
database audio track recording field FAVA is located at
the tape top part of the video tape 36. Alternatively
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the field may be located somewhere else on the tape.
[4] Fourth Embodiment
(1) Recording of Management Data DAV to Management
Database Control Signal Track Recording Ffield FAVC
In fourth embodiment, as shown in Fig. 18, the CTL
recording encoder/decoder 54 is connected to the
control signal head S4A in the magnetic head 34 through
the CTL electromagnetic conversion oircult SSA in the
electromagnetic conversion circuit S3. In operation,
the CTL recording encoder/decoder 54 converts the
management data DAV into a data control signal, and
writes the signal to the control signal recording track
TCT in the format Identioal to that of the control
signal. The data control signal reproduced from the
control signal recording track TCT In the format
identical to that of the control signal ie converted to
the management data DAV which is input under control of
the pontrol management data processing CPU 8:
That is, the CTL recording encoder/decoder 54 lets
the control management data processing CPU 8 supply the
management data DAV as recording management data S28W
to the encoder circuit 54B via the write switchover
circuit 54A according to the control data S5, the
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management data DAV being contained in the register 44
(Fig. 1), the recording management data S28W
constituting the write/read management data S28.
The encoder circuit 54B converts the write
management data S28 into the data control signal S41
which Is supplied to the CTL electromagnetic conversion
circuit SSA via the recording circuit 54C. Then the
control head S4A records the data contr-of signal S41 to
the management signal recording track TCT (Fig. S) on
the video tape Sfi.
In this manner, the management database oontrol
signal track recording field FAVC (Fig. S) is formed at
the tape top part of the video tape S6.
When the control management data processing CPU 8
enters management data reproducing mode, the management
data DAV recorded in the management database control
signal recording field FAVC is reproduced by the
control signal head S4A from the control signal
recording track TCT thereof. The reproduced signal is
supplied as the data control signal S42 to the decoder
circuit 54E through the CTL electromagnetic conversion
circuit 33A and the reproducing circuit 54D. The
decoder circuit 54E writes the data control signal S42
over the bus 8 to the register 44 under control of the
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control management data processing CPU 8, the data
control signal being forwarded as the read management
data S28ft constituting part of the write/read
management data S28.
When management data recording mode or management
data reproducing mode is selected, the recording
ewitchover circuit 54A or the reproducing switchover
circuit 54F is switched to the position corresponding
to the management data recording mode or management
data reproducing mode, respectively, according to the
switchover control signal S45 given by the control
management data processing CPU 8. If recording mode or
reproducing mode is selected, the recording switchover
circuit 54A or the reproducing switchover circuit 54F
is switched to the side of the CTL processing circuit
81. Thus in recording mode, the recording control
signal S48 is recorded onto the video tape S8 through
the recording awltchover circuit 54A, the encoder
circuit 54B, the recording circuits 54C, the CTL
electromagnetic conversion circuit 33A, and the control
signal head 34A. In reproducing mode, the reproducing
control signal S47 is read out to the CTL processing
circuit 81, the control signal being obtained via the
control signal head 34A, the CTL electromagnetic
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conversion circuit 3SA, the reproduction circuit 54D,
the decoder circuit 54E and the reproduction switchover
circuit 54F.
In the setup of Fig. 18, the CTL recording
encoder/decoder 54 gets the encoder circuit 54B to
convert the write management data S28W into the data
control signal S41, the write management data being
transferred from the register 44 when the control
management data processing CPU 8 enters management data
recording mode. As illustrated in Fig. 18C, the data
control signal S41 is recorded to a specific part of
the video tape 36, e.g., to the control signal
recording track TCT at the tape top.
When the write management data S28W is logically
set to 1 or 0, the encoder circuit 54B changes
accordingly the duty factor of the CTL pulses
constituting the control signal. This causes the write
control data S28W to be converted to the data control
signal 541.
Alter the management data control signal CTDAV
(Fig. 19C) has been recorded to the tape top part of
the control signal recording track TCT, programs P1,
P2, P3, etc., are recorded on the video tape 38. This
causes program video signals VDP1, VDP2, VDP3, etc., to
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be recorded to the video recording tracks TA and TB
(Fig. 198) and audio signals ADP1, ADP2, ADP3, etc., to
be recorded to the audio recording tracks CH1 and CH2.
At the same time, management signals CTP1, CTPZ, CTPS,
etc., are recorded to the control signal recording
track TCT (Fig. 1SA).
With the video tape recorded in the manner above,
the tape top thereof contains the management data about
the programs recorded or preset to be recorded thereon.
The management data is subsequently used to have manage
the video tape and/or the programs recorded or preset
to be recorded thereon.
If the user wants to view a program on the video
tape S8, or if the user loads the video cassette SS
into the video tape recorder unit 3 in order to preset
a program for recording onto the video tape 36 (Fig.
1), the control management data processing CPU 8
communicates with the mechanism control CPU 11 using
the -control information S6 so as to put the entire
video tape recorder in management data reading mode.
With the video tape 36 forwarded and indexed to the
position where the management data control signal CTDAV
is recorded, the control management data processing CPU
8 gets the control signal head 34A to reproduce the
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management data control signal CTDAV s° that the read
management data S28R may be output from the decoder
circuit 548. The read management data S288 is supplied
to the register 44 over the bus 9.
Thereafter, the control management data processing
CPU 8 resorts to the management data DAV in the
register 44 to know the control status of the programs
in the video cassette 35 which is set in the video tape
recorder unit S. Thus whenever the user specifies a
desired recorded program for viewing or presets a
program for subsequent unattended recording, the
control management data processing CPU 8 reads the
management data DAV from the register 44 for managing
the video tape recorder unit 3, or overwrites or alters
the management data DAV in the register 44 as needed.
In this way, diverse kinds of management data including
the presetting of programs may be written by the user
when necessary.
-As described, when the user gives operating
instructions to the mechanism control CPU 11 using the
management data, the management data processing CPU 8
automatically controls the video tape recorder unit 3
for recording, presetting and other actions.
In the above-described setup of the CTL recording
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encoder/decoder 54, th.e management data control signal
CTDAV Is recorded to the control signal recording track
TCT. Using the management data in this manner makes
management the programs on the video tape 38
substantially easier than the prior art devices of the
comparable kind.
(2) Distributed Recording of Management Data DAV
(2-1) Recording in Control Signal Format and Video
Slgnal Format
In the embodiment of Fig. 13, the control
management data processing CPU 8 may distributively
record the management data DAV to positions adjaoent
and corresponding to the programs recorded on the video
tape 36. The distributed recording of the management
data is performed using the CTL recording
encoder/decoder 54, the video recording encoder 51 and
the video recording decoder 52.
-In the setup of Fig. 18, the video recording
encoder 51 has the same construction as ernbodirnent as
shown in Fig. 14 has. Therefore as described with
reference to Fig. 14, the tape top part of the video
tape S6 contains the management database video track
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VDDAV is recorded to the management database video
track recording field FAVV, as shown in Fig. 20B.
When the control management data processing CPU 8
enters management data reproducing mode, the management
data video signal VDDAV reproduced by the video head
34B from the management database video track recording
field FAVV is supplied as the reproduced video signal
S2 to the video recording decoder 52, the management
data video signal VDDAV being forwarded through the
video electromagnetic conversion.circuit 33B, the
reproduction circuit S9 and the reproduction switchover
circuit S8.
At this point, the video recording decoder 52 gets
the analog/digital conversion circuit 52A to convert
the reproduced video signal S2 (data video signal) into
the video data S53. The converted data is written to
the video memory 65 via the memory write control
circuit 52B.
The video data written to the video memory 65 in
the manner above is converted by the decoder circuit
52C into the read control data S2fi for output onto the
bus 9.
In this embodiment, the recording switchover
circuit 31 and the reproducing switchover circuit 38
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are switched according to the switchover control signal
S53 given by the control management data processing CPU
8 over the bus 8. In management data writing mode, the
recording switchover circuit 31 is switched to the side
of the video recording encoder 51. In management data
reproduction mode, the reproduction awitchover circuit
S8 is switched to the aide of the reproducing circuit
S7. The switchover allows the reproduced video signal
S2 to reach the video recording decoder 52.
When the control management data processing CPU 8
enters video signal recording mode, the recordinE
switchover circuit 31 is switched to the side of the
video signal processing unit 2. In that case, as shown
in Fig. 20B, the video signals VDP1, VDP2, VDP3, etc.,
of the programs P1, P2, P3, etc., are recorded to the
video tracks TA and TB following the management data
video signal VDDAV' When the control management data
processing CPU 8 enters reproducing mode, the video
signals VDP1, VDP2, VDP3, etc., are supplied
consecutively to the video signal processor 2 via the
reproducing switchover circuit 38 which is switched to
the side of the video signal processing unit 2.
Simultaneously with the video signals VDP1, VDP2'
VDP3, etc., of the programs P1, P2, P3, etc., being
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. recorded to the video recording tracks TA and TB, the
audio signals ADP1, ADP2, ADPS, etc., are recorded to
the audio recording tracks CH1 and CH2, as depicted in
Fig. 20A. At the same time, as illustrated in Fig.
20C, the control signals CTP1, CTP2, CTP3, etc., are
recorded along with the mark signals MKP1, MKP2, MKPS,
etc., to the control signal recording track TCT.
In the above-described setup, with the control
management data processing CPU 8 in management data
recording mode, the management data DAV in the register
44 is given to the video recording encoder 51 as the
write management data S25. This causes the management
data video signal VDDAV (Fig. 14B) to be recorded to
the tape top part of the video recording tracks TA and
TB on the video tape 3B.
Concurrently, the control management data
processing CPU 8 supplies the CTL recording
encoder/decoder 54 with part of the management data in
the register 44 as the write management data S28W.
This in turn causes the mark management signal MKO, as
part of the management data DAV, to be recorded to a
position on the control signal recording track TCT,
that position corresponding to the beginning of the
management data video signal VDDAV'
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Thus, at the same time as the management data
video signal VDDAV 's recorded to the video recording
tracks TA and TB on the video tape 36 via the video
recording encoder 51, the control management data
processing CPU 8 switches the recording switchover
circuit 54A to the side of the bus 9 using the
switchover control signal S45. The switchover allows
the write management data S28W to be written as the
mark management signal MK~ to the control signal
recording track TCT. After this, the recording
switchover circuit 54A is switched to the side of the
CTL processor 61 so that the control (CTL) signal about
each recording track in which the management data video
signal VDDAV is recorded may be recorded onto the
control signal recording track TCT.
When the video cassette S5 containing the recorded
video tape 38 is loaded into the video tape recorder
unit 3, the control management data processing CPU 8
enters management database reproducing mode while
communicating with the mechanism control CPU 11, and
gets the video recording decoder 52 to read out the
management data video signal DVDAV as the read control
data S26 onto the bus 9 through the reproducing
switchover circuit 38. At this point, the mark
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CA 02313826 2000-07-12
management signal MK~ recorded in the control signal
recording track TCT is output to the bus 9 as the read
management data S28R through the reproducing awitchover
circuit 54F. This makes it much easier to extract the
management data video signal VDDAV'
Furthermore, when the video signals VDP1, VDP2'
VDPS, etc., of the programs P1, P2, P3, etc., are
recorded to the video recording tracks TA and TB by the
video signal processor 2, the control management data
processing CPU 8 writes management data to specific
positions on the control signal recording track TCT,
those positions corresponding to the beginning of each
mark control signal, the management data being read
from the register 44 as the mark control signals MKP1'
MKP2, MKP$, etc., and forwarded as the write management
data S28W through the recording switchover circuit 54A
of the CTL recording encoder/decoder 64.
When the program video signals VDP1, VDP2, VDPB,
etc., recorded on the video recording tracks TA and TB
are reproduced illustratively according to the
management data placed in the register 44,Ithe mark
control signals MKP1, MKP2, MKP3, etc., are read from
the CTL recording encoder/decoder 54 as the read
management data S28R representing the recorded

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positions of the video data signals VDP1, VDP2, VDP3
etc. Because the video data of each program recorded
on the video recording tracks TA and TB is reproduced
easily and reliably in the manner above, management of
the programs in their recording and reproduction is
made considerably easier.
(2-2) Recording in Control Signal Format and Audio
Signal Format
In the setup of Fig. 18, the audio recording
encoder/decoder 53 has the same contraction as
embodiment as shown in Fig. 18 so as to convert the
management data DAV to the data audio signal for
recording onto the video tape 36 in the same format as
that of the audio signal as shown in Fig. 21A. In
addition, the audio recording encoder/decoder 5S
converts t.o the management data DAV the data audio
signal reproduced from the video tape 36 in the same
tormat as that of the audio signal, the management data
being supplied to the control management data
processing CPU 8.
Furthermore, the control management data
processing CPU 8 switches the recording switchover
circuit 54A in the CTL recording encoder/decoder 54 to
the side of the bus 9. The switchover allows part of
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the management data DAV read from the register 44 to be
supplied as the write management data S28W to the CTL
recording encoder/decoder 54. In this way, es depicted
in Fig. 21C, the write management data S28W is written
as the mark signal MK4 to the part corresponding to the
beginning of the management database audio track
recording field FAVA (Fig. S) where the management
database audio signal ADDAV is recorded.
At this point, the mark signal MKp is recorded by
changing the duty factor of the control signal CTS in
accordance with the logic level of the control' data,
the control signal being constituted by the CTL pulses
recorded on the control signal recording track TCT.
As a result, the management data audio signal
ADDAV is recorded to the tape top part of the audio
recording tracks CH1 and CH2 on the video tape 36. At
the same time, the mark signal MK~ is distributively
recorded as part of the management data onto the
control signal recording track TCT which corresponds to
the beginning of the part where the management data
audio signal ADDAV is recorded.
In the manner described, the video signals VDP1'
VDP2, VDPS, etc., of the programs P1, P2, P3, etc., are
recorded by the video signal processing unit 2 onto the
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video recording tracks TA and TB of the video tape 38
which has the management data DAV as its header data.
In addition, when the audio signals ADP1, ADP2, ADP3'
etc., are to be concurrently recorded to the audio
tracks CH1 and CH2 via the audio signal processing
circuit ?1 (Fig. 21B), the control management data
processing CPU 8 switches the recording switchover
circuit 54A in the CTL recording encoder 1 decorder 64
to the side of the bus 9. The switchover allows the
mark signals MKI, MK2,.MK3, etc., to be recorded as
part of the management data to the positions
corresponding to the recording start positions of the
video signals VDP1, VDP2, VDP3, etc., of the programs
P1, P2, P3, etc.
A recorded video tape 36 is created in the manner
described above. When the user wants to view a given
program on the recorded video tape 38, the user first
loads the video cassette 35 into the video tape
recorder unit 3. This causes the control management
data processing CPU 8 to read the management data audio
signal ADDAV from the audio recording tracks CH1 and
CH2 on the video tape 36 through the audio recording
encoder/decoder 5S and to place the signal into the
register 44. Using the management data in the register
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44 about the recorded programs P1, P2, PS, etc., the
control management data processing CPU 8 reproduces,
records or presets the desired program as specified by
the user.
With the mark signals MK~, MK1, MK2, etc., thus
attached to the control signal recording track TCT, the
video tape recorder according to the invention
identifies quickly and precisely the recorded position
of each program on the video tape S8. Thus the video
tape recorder as embodied above allows the user to
record, reproduce or preset programs on the video tape
much more easily than before.
(2-S) Recording in Control Signal Format and Another
Signal Format
Fig. 22 illustrates another embodiment of the
invention whereby control data is distributively
recorded to the audio recording tracks CH1 and CH2 as
well as to the control signal recording track TCT. In
Figs._ 22 as well as Fig. 21, like reference characters
designate like or corresponding parts. The format of
Fig. 22 comprises an addition to that of Fig. 21. That
is, in the format of Fig. 21, when the video signal
VDP1, VDP2, VDPS, etc., of the programs P1, P2, P3,
etc., are recorded onto the video tracks TA and TB, the
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--, . -
corresponding audio signals ADP1, ADP2, ADPS, etc., are
recorded to the audio recording tracks CH1 and CH2. In
addition to the above format, program-wise control data
audio signals ADDAV1' ADDAV2' ADDAVS' etc., are
recorded at the beginning of each of the audio signals
ADP1, ADP2, ADP3, etc., recorded in the format of Fig.
22.
With the format of Fig. 22 in use and with the
control management data processing CPU 8 in management
data recording mode, those items of the management data
DAV which are common to the programs are read from the
register 44 and supplied as the write management data
S2?W to the audio recording encoder/decoder 63. The
write management data S2?W is then recorded as the
management data audio signal ADDAV t° the tape head
part of the audio recording tracks CH1 and CH2 on the
video tape 38.
At this point, when the management data audio
signal ADDAV beings to be recorded, the recording
switchover circuit 54A in the CTL recording
encoder/decoder 54 is switched to the side of the bus
8. The switchover allows the write management data
S28W constituting the mark signal MKD to be transferred
from the register 44 and written to the control signal

CA 02313826 2000-07-12
recording track TCT.
Thereafter, when the video signals VDP1, VDP2'
VDPS, etc., of the programs P1, P2, PS, etc., are to be
recorded to the video recording tracks TA and TB, the
control management data processing CPU 8 switches the
recording switchover circuit 5SB in the audio recording
encoder/decoder 5S to the side of the encoder circuit
5SA. The swltchover causes the management data on each
program to be transferred from the register 44 as the
write management data S27W. This in turn causes the
program-wise management data audio signals ADDAV1'
ADDAV2' ADDAV3~ etc., to be recorded to the audio
recording tracks CH1 and CH2 of the video tape S6.
When the recorded video cassette Sb is loaded into
the video tape recorder unit S, the control management
data processing CPU 8 indexes the video tape S6 to the
management data audio signal ADDAV1 using the mark
signal MK~, and then switches the reproduction
switchover circuit 53E of the audio recording
encoder/decoder 63 to the side of the decoder circuit
SSF. This causes the management data audio signal
ADDAV t° be read as the read management data S27R into
the register 44.
Thereafter, when the video signals VDP1, VDP2'
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VDP3, etc., of the programs P1, P2, P3, etc., are to be
reproduced from the video recording tracks TA and TB,
the control management data processing CPU 8 indexes
the video tape 38 using the mark signals MKI, MK2, MK3,
etc., corresponding to the programs, and then switches
the reproduction switchover circuit 53E to the side of
the decoder circuit b3F. This causes the program-wise
management data audio signals ADDAV1' ADDAV2' ADDAVS'
etc., to be reproduced from the audio recording tracks
CH1 and CH2 and written as the read management data
S2?B to the register 44. The individual programs are
controlled in accordance with the program-wise
management data.
In the alternative embodiment described above, the
program-wise management data audio signals ADDAV1'
ADDAV2' ADDAVS' etc., of the individual programs are
recorded to the audio recording tracks CH1 and CH2.
Because the management data specific to each program is
recorded to the position where that program is
recorded, management of the individual programs is made
much more reliable and precise than before.
(3) Other Embodiments of the Fourth Embodiment
(3-1) In the embodiments of Figs. 18 to 22, the video
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recording encoder 51 and the video recording decoder 52
convert the write management data S25 to the data video
signal; the audio recording encoder/decoder 53 converts
the write management data S27 to the data audio signal;
and the CTL recording encoder/decoder 54 converts the
write management data S28W to the data control signal.
All write management data are transferred from the
register 44. The data video signal, data audio signal
and data control signal are recorded onto the video
tape 88. When reproduced, the data video signal, data
audio signal and data control signal are converted by
hardware to the read management data 526, S27R. and
S28It, respectively, for writing to the register 44.
Alternatively, the above conversion may be carried out
on a software basis by the control management data
processing CPU 8.
(3-2) In the embodiments of Figs. 18 to 22, the
management data DAV comprises the volume data block DVM
and program data block DPR written in that order from
the beginning of the recording tracks. Alternatively,
the blocks may be switched between their positions,
subdivided into further blocks for different
arrangements, or otherwise allocated on the tape.
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[5] Fiith Embodiment
(1) Recording of the Program Start Address and Program
End Address
In fifth embodiment as shown in Fig. 23, when
recording one or a plurality of programs P1, P2, PS,
etc., onto the video tape S6, the control data
processing CPU 8 also records address-related data into
the start address item B1 and end address item B2 of
the address data DPRR (Fig. 8), the data representing
the recording start point and the recording end point
of each program as the program start address value and
the program end address value, respectively, relative
to the tape top. Thereafter, whenever a program on the
recorded video tape S8 is to be reproduced, overwritten
or otherwise accessed, the system may recognize the
recorded position of that program without actually
running the tap until the program is reached.
When the user inputs each item of the management
data-DAV (Fig. 4) as the I/0 data S4 through the remote
control transceiver 7 by operating the remote
controller 6, the control management data processing
CPU 8 places the data into the register 44.
Thereafter, in management data recording mode for
example, with the video cassette 35 ejected, the
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' control management data processing CPU 8 transfers the
management data DAV from the register 44 to the video
recording encoder 51 in the form of write management
data S26. In turn, the video recording encoder 51
converts the write management data S25 into the data
video signal S42 and supplies the signal to the
recording circuit S2 through the recording awitchover
circuit S1.
At this point, the recording circuit S2 handles
the data video signal S42 in the same manner as the
recording video signal S1, i.e., writes the signal as
one corresponding to a one-field video signal onto the
video recording track TA and TB (Fig. 8) of the video
tape S6. The writing of the data video signal S42 is
carried out via the video electromagnetic conversion
circuit, part of the electromagnetic conversion circuit
33 and via the video head, part of the magnetic head
34.
_In this manner, the management database video
track recording field FAVV (F~g. 3) i.s formed
illustratively at the tape top part of the video tape.
As depicted in Fig. 23B, the management data video
signal VDDAV Is recorded to the management database
video track recording field FAVV'
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While the write operatfon above is under way, the
control management data processing CPU 8 transfers the
mark recording data as the control signal recording
data S44 to the CTL recording encoder/decoder 54. The
CTL recording encoder/decoder 54 converts the control
signal recording data S44 into the data control signal
S4B. In turn, the data control signal S46 Is written
as a recording start point mark signal MK~S (Fig. 12C)
to the control signal recording track TCT on the video
tape 36 through the control signal electromagnetic
conversion circuit, part of the electromagnetic
conversion circuit S$ and through the control signal
head, part of the magnetic head S4.
Thereafter, the control management data processing
CPU 8 transfers the control signal as the control
signal recording data S44. This causes the control
signal CTS to be recorded to the control signal
recording track TCT. At the same time, the recording
end point mark signal MK~E is recorded by once again
supplying the control signal recording data S44 the
moment that recording of the management data video
signal VDDAV (F~g~ 12B) has ended.
In program recording mode, the control management
data processing CPU 8 records the program video signals
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VDP1, VDP2, VDP3, etc., of the programs P1, P2, P3,
etc., (Fig. 12B) consecutively to the video recording
tracks TA and TB in the video signal recording field
FVD (Fig. S) following the management database video
track recording field FAVV. Concurrently, the control
management data processing CPU 8 records the
corresponding program audio signals ADP1, ADP2, ADP3,
etc., to the audio recording tracks CH1 and CH2 (Fig.
23A) while recording the control signals CTP1, CTP2'
CTP3, etc., to the control signal recording track TCT
(FIg. 23C).
In the above program recording mode, the control
management data processing CPU 8 supplies the CTL
recording encoder/decoder 64 with the mark signal data
as the control signal recording data S94 both at the
recording start point and at the recording end point of
each of the video signals VDP1, VDP2, VDP3, etc. This
permits recording of the recording start point mark
signals MKP1S, MKP2S, MKP3S, etc., as well as the
recording end point mark signals MKP1E' MKP2E' MKP3E'
etc. (Fig. 23C)
In this embodiment, each of the mark signals MKaS
and MK~E, MKP1S and MKP1E' MKPZS and MKP2E' MKP3S and
MKP3E, etc., is constituted by a tape position address
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value relative to the reference point at the tape top
on the video tape S8. The tape position address value
is obtained illustratively by transferring to the
control management data processing CPU 8 the value of
the tape counter in the video tape recorder unit S, the
value being forwarded via the mechanism control CPU 11.
When the recorded video cassette S5 is loaded into
the video tape recorder unit 3 in the above-described
setup, the control management data processing CPU 8
enters management database reproducing mode through
communication with the mechanism control CPU 11. Once
in management database reproducing mode, the control
management data processing CPU 8 picks up the data
video signal from the management database video track
recording field FAVV on the video tape S6 and writes
the signal into the register 44, the signal being
forwarded through the magnetic head 34, the video
electromagnetic conversion circuit 33, the reproducing
circpit S7, the reproducing switchover circuit 38 and
the video recording decoder 52.
Thus the register 44 retains the management data
DAV (Fig. 4) as the management data specific to the
current video tape 38. The program data block DPR
retains the program data DPRX (rig. 6) about the
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programs P1, P2, P8, etc., recorded on the video tape
38.
In the manner described, the register 44
constitutes an arrangement of concentrated management
of program positions on a video tape, with the start
address item B1 and the end address item B2 of the
program data DpRX containing positional data
representing the recording start points and recording
end points MKpis and MKplE, MKp2s and MKpZE, MKpss and
MKp$E, etc., of the programs P1, P2, P3, etc., each
point being an address indicating the starting or
ending position of a given program on the video tape S6
relative to the reference point at the tape top.
Using the above arrangement, the user verifies the
contents of the start address item B1 and the end
address item 82 of the program data DPRX on each
program. This allows the user to know easily where the
desired program is located on the video tape S8 without
undergoing the chores of actually forwarding fast and
reproducing the video tape. Access to any of the
programs on the video tape is thus made much easier
than before.
For example, assume that the user wishes to
reproduce programs recorded on the video tape 38 in a
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predetermined order. In that case, all that needs to
be done is to get the control management data
processing CPU 8 to rearrange the start and end
addresses of the programs involved into the desired
order. This simplified process readily implements
reproduction of recorded programs in a predetermined
order.
It may also be desired to record a new program
onto the video tape S6 or to overwrite a new program
onto a previously recorded program. In such cases, the
new recording position is determined beforehand by
resorting to the register 44 which retains the start
and end addresses of the recorded programs in a
concentrated manner.
When the user wants to get to the beginning of a
certain program so that the program may be manipulated
as desired, the control management data processing CPU
8 reads the start and end addresses of that program
from-the register 44 according to the specification
data entered through the remote controller 6.
Thereafter, while communicating with the mechanism
control CPU 11, the control management data processing
CPU 8 forwards fast the video tape 36 and consecutively
picks up the mark signals MKP1S and MKP1E' MKP2S and
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MKp2E, MKp3s aad MKp3E, etc., of the programs P1, P2,
P3, etc., from the control signal head which is part of
the magnetic head 34. A check is then made to see if
the picked-up mark signals coincide with the addresses
entered through the CTL recording encoder/decoder b4.
When a matched recording start point mark signal is
obtained, access to the beginning of the desired
program on the video tape 38 is completed.
Where a new program is recorded onto the video
tape 36, the following takes place. When the new
program is recorded, the recording start point mark
signal and the recording end point mark signal of that
program are recorded to the control signal recording
track TCT. At the end of recording operation mode, the
addresses represented by these mark signals are
respectively written to the start address item B1 and
the end address item B2 constituting the program data
DpRX for the program, the program data being part of
the management data DAV in the register 44.
In this manner, every time a new program is
recorded, the start address data and end address data
thereabout are retained in the register 44 for
concentrated control.
With the processing of the video tape 36 completed
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CA 02313826 2000-07-12
and with the user about to eject the video cassette Sb,
specification data supplied to the control management
data processing CPU 8 through the remote controller 6
causes the mechanism control CPU 11 to rewind the video
tape S6 back to its tape top position. The supplied
data is then recorded as the management data video
signal VDDAV to the management database video track
recording field FAVV of the video tracks TA and TB.
Finally the video cassette Sb is ejected.
As a result, the tape top part of the video tape
S8 retains the address data representing the recorded
position of each program on the tape, the address data
being specific to the current video tape S8. Whenever
the video cassette Sb is loaded into the video tape
recorder unit S, the address data is read out easily
for control purposes.
(2) Another Embodiment
-Fig. 24 schematically describes the recording
format for use with another embodiment of the
invention. In Figs. 23 and 24, like reference
characters designate like or corresponding parts. As
shown in Fig. 24, the recording start point mark
signals MK~S, MKplS, MKp2S' MKp3S' etc., are recorded
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CA 02313826 2000-07-12
to the positions of the control signals CTP~, CTPI'
CTP2, CTPg, etc., on the control signal recording track.
TCT. At certain distances from each of these recording
start point mark signals, count mark signals MKX are
recorded. Each of the count mark signals is
constituted by numerical data representing a
predetermined value. In this format, the recording end
point mark signals MK~E, MKP1E' MKP2E' MKP$$, etc.,
(Fig. 28C) are not included.
When the format of Fig. 24 is in use and the
control management data processing CPU 8 records the
management data DAV to the management database video
track recording field FAVV (Fig. 24A), the recording
start point mark signal MKOS and the count mark signal
MKX are recorded in synchronization with each recording
start point of the video recording tracks TA and TB.
Likewise, when the program video signals VDP1'
VDP2, VDPS, etc., of the programs P1, P2, P3, etc., are
recorded to the video tracks TA and TB, the control
management data processing CPU 8 records the recording
start point mark signals MKP1S' MKP2s, MKPSS, etc., in
synchronization with the recording start points of
these program video signals, each recording start point
mark signal being followed by a count mark signal MKX.
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CA 02313826 2000-07-12 ,
Assume that with the format of Fig. 24 in use, the
' program video signals VDPi, VDP2, VDP3, etc., of the
programs P1, P2, P3, etc., are recorded to the video
tracks TA and TB. At the end of the recording, the
control management data processing CPU 8 writes the
addresses of the recording start point mark signals
~P1S' MKP2S' MKP3S' etc., to the start address item B1
of the program data DPBR for the current program, the
addresses being retained in the register 44 as the
management data DAV. Concurrently, the number of the
count mark signals MKx up to the recording end point of
the current program Is written to the end address item
B2 of the program data DPaX.
The start and end addresses thus written to the
management data DAV are recorded as the management data
video signal VDDAV to the management database video
track recording field FAVV when the video cassette 35
is ejected.
-It the user wants to specify and reproduce one of
the programs from the recorded video tape 36, the
management data video signal VDDAV 's read irom the
video recording tracks TA and TB and written to the
register 44. Concurrently, the control management data
processing CPU 8 gains access to the beginning of the
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CA 02313826 2000-07-12 ,.,
desired program on the tape according to the start
address of the program, and starts reproducing the
program once it is reached on the tape.
The amount of feed of the video tape S8 in
reproducing mode is monitored by the control management
data processing CPU 8 counting the number of count mark
signals MKX picked up from the control signal recording
track TCT. When the count value coincides with the end
address data stored in the end address item B2 of the
register 44, the control management data processing CPU
8 judges the program to have been reproduced up to the
record,tng end point thereof, and discontinues the
reproduction.
It may be desired to overwrite a new program onto
a previously recorded program on the tape. In that
case, the control management data processing CPU 8
receives a command signal from the remote controller 8
and reads accordingly the start and end addresses of
the old program to be overwritten from the program data
DPRX in the register 44. With the video tape 36
forwarded up to the start address and stopped there,
the video signal processing unit 2 records the new
program as the video input signal S1 onto the video
tape 3fi through the recording circuit 32, the
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CA 02313826 2000-07-12
electromagnetic conversion circuit 33 and the magnetic
head S4.
The amount of teed of the video tape 36 in
recording mode is monitored by the control management
data processing CPU 8 counting the number of the count
mark signals MKX read from the control signal recording
track TCT. When the count value coincides with the end
address, the overwriting of the new program is
terminated.
In the manner described, a new program is
overwritten onto a precisely specified location of a
recorded video tape S6 (i.e., onto the area between
recording start point and recording end point).
With the format of Ftg. 24 in use, the recording
of programs on the video tape 36 is controlled as
easily and reliably as with the format of Fig. 23.
(3) Other Embodiments of the Fifth Embodiment
(3-la In the embodiments comprising the formats of
Figs. 23 and 34, the management data DAV is recorded to
the video recording tracks TA and TB while the mark
signals representing the recording start point and
recording end point of each program are recorded to the
control signal recording track TCT on the tape.
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CA 02313826 2000-07-12
Alternatively, the same effect is obtained by recording
the management data DAV to the tape top part of the
audio recording tracks CH1 and CH2 or of the control
signal recording track TCT.
The mark signals may also be recorded to the audio
recording tracks CH1 and,CH2 or to the video recording
tracks TA and TB, and not to the control signal
recording track TCT.
(8-2) In the embodiment of Fig. 24, the recording start
point mark signals MKpis; MKp2S, MKpss, etc., of the
programs P1, P2, PS, etc., and the count mark signals
MKX are recorded to the same recording track, i.e., to
the control signal recording track TCT. Alternatively,
the recording start point mark signals MKpis, MKp2S'
MKp$S, etc., may be recorded to a recording track
different from the one to which the count mark signals
MKx are recorded.
(3-S) In the embodiment of Fig. 24, the mark signals of
a predetermined code (i.e., of a fixed value) each are
recorded as count mark signals MKX on the tape at
intervals of the unit tape feed amount (or feed time).
In reproduction mode, the count mark signals MKX are
picked up and counted so that the current tape feed
position or the recording end point is determined.
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CA 02313826 2000-07-19
Atternativel;~, the count mark signals MKX stay be
represersted by numerical data which sire incremented in
I
keeping with the tat~e feed amount (or feed time) and
i watch are germ rated illustratively b9 the control
i
tnanagernent de,ta processing CPU 8. Then the numerical
data may be recorda~d as the count mark signals MKx.
In the above <sese, the consecutively recorded
' count mark signals :,"iKx represent the tape feed amount
(or feed time) relative to the recordinE start point.
In this way, the recording end point is expressed in
terms of the tape fend amount (or teed time} relative
to the recording start point. ,
G
(9-~) In the embodiments of Fies. 23 and 24, the data
written to the start address item B2 and the end
address item H2 of the program data DP~X (Fi,g. e} are
address values relative to the reference address
position at the tape top, i.e., the absolute address '.
values. Alternatively. in the embodiment of Fig. 24 in
which the count mark signals MKK are a fixed value ,
each, the number of the count mark signals MKx reletlve ,
to the recording start point may be used instead.
Secondly, where an incrcmentai value is used as
the count mark signal MKX representing the tape feed
amount (or feed tune}, the end address may be
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CA 02313826 2000-07-12
represented by the tape feed amount (or feed time) as
It is given by the count mark signal MKX at the
recording end point.
Thirdly, where the count mark signal MKX is
represented by an incremental value recorded in keeping
with the tape feed amount (or teed time), it is
possible to utilise the difference in tape teed amount
(or feed time) between the recording start point of the
program end the recording end point thereof.
Fourthly, where the count mark signal MKX is
represented by a fixed value, it is possible to use the
number of the mark signals from the first mark signal
at the tape top (i.e., the count mark signal MKX,
sometimes including the recording start point mark
signal and the recordtng end point mark signal)up to
the mark signal of the recording end point of the
program.
(3-6) In the above embodiments, the start and end
addresses are each represented by the data indicating a
certain position on the video tape 36 relative to the
reference address position at the tape top.
Alternatively, the time at which each program was
recorded may be used as the reference point relative to
which the start and end addresses are determined.
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CA 02313826 2000-07-12
When the preceding alternative is in use and the
programs P1, P2, P3, etc., are recorded, the control
data processing CPU 8 (Fig. 1) records to the control
signal recording track TCT the recording start point
mark signals MKpls, MKp2s, MKp3s, etc., in terms of the
times of day at which the programs were recorded.
Concurrently, in the embodiment of Fig. 23, the control
management data processing CPU 8 records the recording
end times as the recording end point mark signals
MKpIE, MKp2E' MKp3E, etc., at each recording end point;
In the embodiment of Fig. 24, the control management
data processing CPU 8 records a count mark signal MKX
every time a certain period of time has elapsed
relative to the recording time.
After the programs P1, P2, P3, etc., have been
recorded in the above manner, the recording start point
mark signals MKpis, MKp2s, MKp3s, etc., and the
recording end point mark signals MKplE' MKP2E' MKP3E'
etc.~ are read from the control signal recording track
TCT by the control management data processing CPU 8 and
written to the start address item B1 and end address
item B2 in the register 44 as the program data DpRX
(Fig. 4). Thereafter, whenever the video cassette 36
is ejected, the program data is recorded onto the video
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w CA 02313826 2000-07-12
tape S8 as the management data video signal VDDAV
specific to that tape.
Where any of the programs recorded in the above-
described manner in the video cassette Sb is
reproduced, the following takes place: Loading the
video cassette into the video tape recorder unit S
causes the control management data processing CPU 8 to
read the management data video signal VDDAV into the
register 44. Thereafter, the user apecities one
program to be reproduced. When the specified program
starts being reproduced on the display screen 4A of the
monitor 4, the control management data processing CPU 8
displays a recording time-of-day indication RECTIME for
the program in, say, the bottom right corner of the
display screen 4A.
Where a program starts to be reproduced in the
embodiment of Fig. 25, the control management data
processing CPU 8 presets the recording start time on a
repr-oducing time counter and counts up the reproducing
time while displaying the count value as the recording
indication RECT1ME on the screen.
Where a program is being reproduced in the
embodiment of Fig. 24, the control management data
processing CPU 8 reproduces the count mark signals MKX
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CA 02313826 2000-07-12
and displays the recording time indication RECTIME on
the screen.
tn the above embodiments, a recording time
indication ftECTIMEX whose contents are the same as
those of the recording time indication RECTIME is
displayed on the display device SA of the video tape
recorder unit 3. Concurrently, the current time
indication PHTIME is displayed in the top right corner
of the display screen 4A of the monitor 4.
Thus the setup of Fig. 25 makes it possible to
display the time of day at which the currently~viewed
program was recorded while the program is being
reproduced. This is yet another feature that may be
implemented by the video tape recorder according to the
invention.
[8] Sixth Embodiment
(1) Recording of Index Data
Where one or a plurality of programs P1, P2, P3,
etc., are recorded on the video tape 36, the control
management data processing CPU 8 records data to the
start address item Bl and end address item B2 of the
program data DPRX (Fig. 6), the recorded data
representing the recording start point and recording
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CA 02313826 2000-07-12
end point of each program in terms of a program start
address value and a program end address value,
respectively. Thereafter, if any program on the
recorded video tape 38 is to be reproduced, overwritten
or otherwise manipulated, the system recognises the
recorded position~oi the program without actually
running the tape until that program Is located.
The management data DAV that the user enters as
needed is used to alter the contents of the volume data
block D~ and to update the reproducing order data.
When the user operates the remote controller ? to
input each item of the management data DAV (Fig. 4) as
the I/O data S4 through the remote control transceiver
?, the control management data processing CPU B places
the Input data into the register 44. Thereafter, when
for example the video cassette S5 is ejected,
management data recording mode is selected. In this
mode, the control management data processing CPU 8
retajns the management data DAV in the register 44
while transferring the data therefrom to the video
recording encoder 51 as the write management data 525.
In turn, the video recording encoder 51 converts the
write management data S25 Into the data video signal
S42 which is supplied to the recording circuit 32 via
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CA 02313826 2000-07-12
the recording switchover circuit S1.
' At this point, the recording circuit S2 handles
the data video signal S42 in the same way as the
recording video signal S1, and writes the management
data DAV as a one-field video signal to the video
recording tracks TA and TB (Fig. S) on the video tape
S8 through the video electromagnetic conversion
circuit, part of the electromagnetic conversion circuit
S3 as well as the video head, part of the magnetic head
S4.
In this manner, the management database video
track recording field FAVV (Fig. S) is formed
illustratively at the tape top part of the video tape
S8. As shown in Fig. 26B, the management data video
signal VDDAV is recorded to the management database
video track recording field FAVV'
In addition, the control management data
processing CPU 8 transfers the mark recording data as
control signal recording data S44 to the CTL recording
encoder/decoder 54. In turn, the CTL recording
encoder/decoder 54 converts the management signal
recording data S44 into the data control signal S46.
The data control signal S4B is recorded as the
recording start point marlf signal MK~S (Fig. 26C) to
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CA 02313826 2000-07-12 w
the control signal recording track TCT of the video
tape 36 through the control signal electromagnetic
conversion circuit, part of the electromagnetic
conversion circuit 33 as well as the control signal
head, part of the magnetic head 34.
Thereafter, the control management data processing
CPU 8 records the control signal CTS to the control
signal recording track TCT by transferring the control
signal as the management signal recording data 544. At
the recording end point of the management data video
signal VDDAV (Fig~ 26B), the control management data
processing CPU 8 once again supplies the control signal
recording data S44 in order to record the recording end
point mark signal MKpE'
Before management data recording mode is selected,
the control management data processing CPU 8 records,
in program recording mode, the program video signals
VDP1, VDP2, VDP3, etc., of the programs P1, P2, P3,
etc., to the video recording tracks TA and TB of the
video signal recording field FVD (Fig. S) which follows
the management database video track recording field
FAVV' Concurrently, the control management data
processing CPU 8 records the corresponding program
audio signals ADP1, ADP2, ADP3, etc., as well as the
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CA 02313826 2000-07-12
~ control signals CTpl, CTp2, CTp3, etc., to the audio
' recording tracks CH1 and CH2 (Fig. 26A) as well as to
the control signal recording track TCT (Fig. 26C),
respectively.
In the above program recording mode, the control
management data processing CPU 8 supplies the mark
signal data as the control signal recording data S44 to
the CTL recording encoder/decoder b4 in synchronization
with the recording start points and recording end pints
of the program video signals VDpI, VDp2, VDp3, etc.
This permits recording of the recording start point
mark signals MKpiS' MKp2S' ~PSS' etc., and the
recording end point mark signals MKplE' ~P2E' APSE'
etc., (Fig. 28C).
In this embodiment, the mark signals MK~S and
MK~E' MKplS and MKP1E' ~P2S and MKp2E, MKp3S and
MKp3E, etc., are each constituted by a tape position
address value relative to the reference point at the
tap top of the video tape 36. The tape position
address value is obtained illustratively by
transferring the count value of the tape counter
circuit in the video tape recorder unit 3 to the
control management data processing CPU 8 via the
mechanism control CPU 11.
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' Thus the mark signals MKplS, MKplE, MKp2S and
~P2E may be used as index data representing the start
positions of the programs P1, P2, etc., the positions
corresponding to the system program number B4 recorded
in the management database video track recording field
FAVV' When the mark signals MKplS' MKplE' MKP2S and
~P2E are each counted from the reference point at the
tape top, the system program numbers of the programs
Pl, P2, etc., recorded relative to the same reference
point are detected.
In terms of reproduction order data, the system
program numbers (Fig. 6) for consecutive reproduction
are recorded from byte 1 to byte S2. When the user
specifies and inputs a reproducing order, the system
program numbers of the programs recorded in the current
video cassette are recorded in the specified order from
byte 1 onward in management data recording mode.
If the user does not input any reproducing order,
the system program numbers of the programs recorded in
the current video cassette are recorded in the
originally recorded order from byte 1 on in management
data recording mode.
Where it is desired to record a plurality of
programs continuously and the user specifies the order
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CA 02313826 2000-07-12
~ in which to reproduce these programs later, management
' data recording mode is selected and the system program
numbers from byte 1 are replaced by those of the
programs to be recorded to the current video ceasette
in the specified order. Ii the user does not specify
and reproducing order, the system program numbers
following the last reproducing order data in effect
before the update are recorded as the reproducing order
data for the newly recorded programs.
Concurrently, where a plurality of programs are
recorded continuously, the control management data
processing CPU 8 enters management data recording mode
and alters the repeat recording count item A2, date of
update item A6, etc.
As described, it is possible to determine the
reproducing order based on the reproducing order data
specified beforehand upon recording of programs. For
example, if a plurality of programs constituting a
serial drama are recorded in a random order on one
tape, the order in which to reproduce these programs
later may be specified in advance.
Thus, recorded programs are easily reproduced in a
predetermined order using the start address data item
B1 for each program and the mark signals MKpis, MKpiE'
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' MKP2S and MKP2E in addition to the reproducing order
data. This feature boosts the level of convenience
which the video tape recorder 1 provides.
(2) Program Reproducing Mode
As described with reference to rig. 8, when the
user selects "auto reproducing" item in the management
data list on the display screen in step SP21, the
control management data processing CPU 8 enters program
reproducing mode and executes auto reproducing
processing in step SP31.
That is, when the recorded video cassette 35 is
loaded into the video tape recorder unit 3, the control
management data processing CPU 8 enters management
database reproducing mode while maintaining
communication with the mechanism control CPU 11. In
management database reproducing mode, the control
management data processing CPU 8 picks up the data
video signal from the management database video track
recording field FAVV of the video tape 36, and writes
the signal to the register 44, the picked-up signal
being forwarded through the magnetic head 34, the video
electromagnetic conversion circuit 33, the reproducing
circuit 37, the reproducing switchover circuit 38 and
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CA 02313826 2000-07-12
the video recording decoder 52.
In this manner, the register 44 retains the
management data DAF (Fig. 4) as the data specific to
the current video tape 36. Thus both the reproducing
order data and the. program data DpRX (Fig. 8) about the
programs Pl, P2, PS, etc., are retained.
In the manner described, the register 44
constitutes an arrangement of concentrated control over
program positions on a video tape, with the start
address item B1 and the end address item B2 of the
program data DpRx containing positional data
representing the recording start points and recording
end points MKplS and MKplE, MKp2S and MKp2E' MKpSS and
MKpSE, etc., of the programs P1, P2, PS, etc., each
point being an address indicating the start or end
position of a given program on the video tape 38
relative to the reference point at the tape top.
As illustrated in Fig. 27, the CPU 8 in program
repro-ducing mode moves from step SP911 to step SP81.
After detecting the system program numbers using the
reproducing order data in the register 44, the CPU B
detects the start address of the specified system
program number.
Upon start of program reproducing, the CPU 8
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CA 02313826 2000-07-12
detects the system program number recorded In byte 1 of
the reproducing order~data.
The CPU 8 then goes to step SP92 in which a check
is made to see if the system program number is
specified in the reproducing order data.
Because the system program number is detected in
byte I of the reproducing order data upon start of
program reproducing, the CPU 8 goes to step SP9S. In
step SP93, the CPU 8 outputs the control data S6 to the
mechanism control CPU 11 over the bus 10, whereby the
video tape recorder 1 is switched to reproducing mode.
When the mark signal MKP1S is detected, the CPU 8
checks to see if the program recorded following the
mark signal MKP1S is the program represented by the
system program number recorded In byte 1. Ii the
result of the check is affirmative, step SP94 is
reached.
Thereafter, the CPU 8 remains in reproducing mode
unti_1 the next mark signal MKP1S is detected. At that
point, the CPU goes to step SP92.
Where a program recorded on the tape top side is
specified to be reproduced first, the CPU 8 carries out
steps SP92, SP93 and SP94. These steps cause the video
tape recorder 1 to reproduce the program.
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- CA 02313826 2000-07-12
After detecting the system program number recorded
in the reproducing order data that follows, the CPU B
goes to step SP9S via step SP82.
If the system program number of the program
located on the tape top side is not recorded in byte 1
of the reproducing order data, or if a program recorded
on the tape top side is specified to be reproduced
first, followed by another program whose system program
number is specified in the reproducing order data that
follows, the result of the check by the CPU B in step
SPBS is negative. In that case, the CPU 8 goes to step
SP95.
In step SP96, the CPU 8 checks to see if the
system program number of the program to be reproduced
next is on the tape end side. If the result of the
check is affirmative, the CPU 8 goes to step SP86. In
step SP86, the CPU 8 forwards fast the video tape S6
until the mark signal MKP2S is detected. The CPU 8
then_goes to step SP97.
In step SP97, the CPU 8 checks to see if the tape
end is reached. It the result of the check is
negative, the CPU 8 goes to step SP93. In step SP83,
the CPU 8 checks to see if the current number is the
system program number specified in the reproducing
127

CA 02313826 2000-07-12 __
order data.
As described, where a program on the tape top side
is reproduced first, followed by another program
reached by skipping the program or programs immediately
following the first, or where a program or programs on
the tape top side are skipped for reproduction of a
subsequent program, the CPU 8 goes through the steps
SP98, SP9b, SPBS, SP9? and back to SP93, repeatedly.
When the check in step SP9S reveals that the current
number is the system program number specified in the
reproducing order data, the programs are reproduced one
after another in the order specified beforehand.
If the result of the check in step SP85 is
negative, the CPU 8 goes to step SP9B. In step SP98,
contrary to what took place in step SP97, the video
tape S6 is rewound until the mark MKP2S is detected.
Then the CPU 8 checks in step SP99 to see if the tape
top is reached.
_If the result of the check in step SP99 is
negative, the CPU 8 goes to step SP93 and again checks
to see if the number is the system program number
specified in the reproducing order data.
If the check in step SP93 reveals that the system
program number of the already reproduced program is
128

-- CA 02313826 2000-07-12
again specified for reproduction, the system goes to
step SP94. In step SP84, the CPU 8 again reproduces
the program.
It the system program number of a program recorded
on the tape top side is specified following the already
reproduced program, the result of the check in step
SP93 is negative. The CPU 8 then goes to step SP95.
As described, where the system program number of a
program recorded on the tape top side is specified
following an already reproduced program, the CPU goes
through steps SP93, SP95, SP98, SP99 and back to SP9S,
repeatedly. When the result of the check in step SPBS
is positive for the system program number specified in
the reproducing order data, the video tape S6 is
rewound for reproduction of each program in the order
specified In advance.
With the above steps repeated as needed, it is
possible to reproduce one program repeatedly or to
reproduce a plurality of randomly recorded programs in
the correct broadcast order according to the order
specified in the reproducing order data.
If the system program number of any program not
recorded in the current video cassette 35 is specified
inadvertently, the CPU 8 goes to step SPI00 following
129

- CA 02313826 2000-07-12
' the affirmative result obtained in step CP9? or SP99.
At this point, the CPU 8 displays an error message
on the monitor 4 as well as on the display screen 6A of
the remote control 6. The CPU 8 then goes to step
SP101 and terminates the processing.
From then on, the CPU 8 waits for an input by the
user from the remote controller 8 or from the keyboard
12.
When the programs of the system program numbers
specified In the reproducing order data have all been
reproduced, the result of the check in step SP82 causes
the CPU 8 to go to step SP102.
In step SP102~, the CPU 8 outputs the control data
S6 to the mechanism control CPU 11 over the bus 10,
rewinds or forwards fast the video tape 36 to the
program reproducing start position, and goes to step
SP103 where the processing is terminated.
The setup described above records to the tape top
the reproducing order data of the programs recorded in
the video cassette. Because the programs are
reproduced without user intervention in a predetermined
order according to the reproducing order data, the
video tape recorder according to the invention is more
convenient to use.
130

il~
CA 02313826 2000-07-12 _.
(S) Other Embodiments of the Sixth Embodiment
(3-1) In the above embodiment of Figs. 2? and 28, the
output management data DAV is recorded to the
management database video track recording field FAVV'
the management database audio track recording field
FAVA and the management signal recording track on the
video tape S8. Alternatively, the same effect is
obtained by recording the management data to one of
these recording portions on the tape.
(S-2) In the above embodiment of Figs. 27 and 28, the
beginnings of the programs are detected with reference
to the mark eignalls MKP1S, MKplE, MKP2S and MK2E'
Alternatively, the beginnings of the programs may be
detected by referring to the start address Item Bl of
the program data.
(S-S) In the above embodiment of Figs. 27 and 28, the
recording-related data is input from the remote
controller 6 by use of the language-based input item
table TBL shown in Fig. 11. Alternatively, the data
may be input by many other methods.
(3-4) In the embodiment of Figs. 2? and 28, the
invention is applied to a video tape recorder.
Alternatively, the invention rnay be applied likewise to
131

,. CA 02313826 2000-07-12
radio-equipped tape cassette recorder which is preset
to record audio signals.
(3-5) In the embodiment of Figs. 2? and 28, the
management data DAV comprises the volume data block DVM
and program data block DPI written in that order from
the beginning of the recording tracks. Alternatively,
the blocks may be switched between their positions,
subdivided into further blocks for different
arrangements, or otherwise allocated on the tape.
[7] Seventh Embodiments
(1) In the above-described embodiment, the management
data DAV when output is recorded into both the
management database video track recording fielield FAVV
and the management database audio track recording field
FAVA on the video tape 36. Alternatively, the same
effect is obtained by recording the management data
into either of these two fields.
(2) In the above embodiment, the language-based input
item table TBL of Fig. 11 is used to input recording
data from the remote controller 6. Alternatively, the
display screen 6A of the remote controller 6 may carry
an LCD panel capable of displaying three lines of data
in each item field, as shown in Fig. 28. The normal
132

- CA 02313826 2000-07-12
operation mode setting key 6D, the management database
mode setting key 6F, the first preset operation mode
setting key 8G and the second preset operation mode
setting key 6H are operated to have, respectively, the
displays in Figs. 28, S0, S1 and S2. In this
arrangement, common fields may be used to input
presetting data of different operation modes.
(S) In the above embodiment, the invention is applied
to a video tape recorder. Alternatively, the invention
may also be applied to appliances such as radio
cassette recorders designed to preset the recording of
audio signals.
(4) In the above embodiment, the management data DAV
comprises the volume data block DVM and program data
block DPR written in that order from the beginning of
the recording track. Alternatively, the blocks may be
switched between their positions, subdivided into
further blocks for different arrangements, or otherwise
allocated on the tape.
While there has been described in connection with
the preferred embodiments of the invention., it will be
obvious to those skilled in the art that various
changes and modifications may be made therein without
departing from the invention, and it is aimed,
133

-. CA 02313826 2000-07-12
' therefore, to cover in the appended claims all such
changes and modifications as fall within the true
spirit and scope of the invention.
134

Representative Drawing
A single figure which represents the drawing illustrating the invention.
Administrative Status

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Event History

Description Date
Time Limit for Reversal Expired 2009-01-19
Letter Sent 2008-01-18
Inactive: Cover page published 2001-07-03
Grant by Issuance 2001-07-03
Inactive: Final fee received 2001-03-30
Pre-grant 2001-03-30
Notice of Allowance is Issued 2000-10-13
Letter Sent 2000-10-13
Notice of Allowance is Issued 2000-10-13
Inactive: Cover page published 2000-09-27
Inactive: Approved for allowance (AFA) 2000-09-22
Inactive: First IPC assigned 2000-08-30
Inactive: Office letter 2000-08-25
Letter sent 2000-08-16
Divisional Requirements Determined Compliant 2000-08-16
Application Received - Regular National 2000-08-15
Amendment Received - Voluntary Amendment 2000-07-19
Application Received - Divisional 2000-07-12
Request for Examination Requirements Determined Compliant 2000-07-12
Amendment Received - Voluntary Amendment 2000-07-12
All Requirements for Examination Determined Compliant 2000-07-12
Application Published (Open to Public Inspection) 1991-07-22

Abandonment History

There is no abandonment history.

Maintenance Fee

The last payment was received on 2001-01-16

Note : If the full payment has not been received on or before the date indicated, a further fee may be required which may be one of the following

  • the reinstatement fee;
  • the late payment fee; or
  • additional fee to reverse deemed expiry.

Please refer to the CIPO Patent Fees web page to see all current fee amounts.

Owners on Record

Note: Records showing the ownership history in alphabetical order.

Current Owners on Record
SONY CORPORATION
Past Owners on Record
JOJI FUKUDA
KIYOSHI OTA
KOUSUKE MISONO
SEIICHI MISAWA
TETSUO NISHIGAKI
TOSHIYUKI ISHII
Past Owners that do not appear in the "Owners on Record" listing will appear in other documentation within the application.
Documents

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Document
Description 
Date
(yyyy-mm-dd) 
Number of pages   Size of Image (KB) 
Description 2000-07-12 133 3,256
Description 2000-07-19 134 3,279
Cover Page 2001-06-27 1 35
Abstract 2000-07-12 1 17
Claims 2000-07-12 1 29
Drawings 2000-07-12 31 562
Claims 2000-07-19 2 62
Cover Page 2000-09-21 1 36
Representative drawing 2000-09-21 1 6
Representative drawing 2001-06-27 1 6
Commissioner's Notice - Application Found Allowable 2000-10-13 1 163
Maintenance Fee Notice 2008-03-03 1 174
Correspondence 2000-08-25 1 7
Correspondence 2000-10-13 1 106
Correspondence 2001-03-30 1 28