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Claims  |
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What is claimed is:
1. A device for reproducing still pictures together with audio information
from a recording medium, the recording medium having video information and
the audio information stored thereon, the video information including
series of pictures and a frame identification code associated with each
picture for identifying its associated picture, the device comprising;
(a) means for reading the audio information and the video information from
said recording medium;
(b) means for outputting the audio information read from said medium to an
audio reproducing means;
(c) a video memory for selectively storing pictures, one at a time;
(d) means for sequentially designating a plurality of pictures stored in
said recording medium by sequentially designating their associated frame
identification codes;
(e) means for comparing frame identification codes read from the recording
medium with said sequentially designated frame identification codes and
for generating a write command upon coincidence of a read frame
identification code with a designated frame identification code;
(f) writing control means responsive to a write command for writing in said
memory the video signals corresponding to the picture associated with the
frame identification code upon which coincidence was detected; and
(g) means for repeatedly reading out the video signals written in said
memory to produce a still picture of said video information.
2. A device according to claim 1, wherein said means for sequentially
designating comprises mean for entering designated frame identification
codes and storage means for storing the entered designated frame
identification codes.
3. A device according to claim 2, wherein said storing means comprises
means for storing a plurality of said designated frame identification
codes in a sequence corresponding to the sequence in which the designated
pictures are to be produced as still pictures, and for supplying the next
stored designated frame identification codes to said comparing means in
response to the coincidence between a designated frame identification code
a read frame identification code.
4. A device according to claim 2, wherein said writing control means
further comprises means for preventing further writing in said memory
after a predetermined time interval and continuing until the next write
command.
5. A device according to claim 2, wherein said means for entering
designated frame identification codes comprises user acivated means for
entering an input signal as motion video information is displayed on a
display means and means responsive to said input signal for entering the
frame identification code corresponding to the then displayed motion video
information on said storage means.
6. A device according to claim 1, wherein said writing control means
further comprises means for extracting the read frame identification
codes, and supplying the extracted frame identification codes to said
comparing means.
7. A device for reproducing still pictures together with audio information
from a recording medium, the recording medium having video information and
the audio information stored thereon, the video information having a
plurality of programs thereon, each program containing sequential portions
and a portion identification code associated with and identifying each
portion, the device comprising:
(a) means for reading the audio information and video information from said
recording medium.
(b) means for outputting the audio information read from said medium to a
sound reproducing means;
(c) a video memory for selectively storing a particular one of desired
sequential portions of the video information corresponding to a particular
desired picture; and
(d) means for designating a plurality of portions to be sequentially
reproduced according to their respective portion identification code.
(e) means for comparing each of the designated portion identification codes
with the portion identification codes with the portion identification
codes read from the recording medium and for generating a write command
upon coincidence of a read portion identification code with a designated
portion identification code
(d) writing control means responsive to said write command for writing in
said memory the particular one of said designated portions of the video
information read from the recording medium which corresponds to the read
portion identification code coinciding with the designated portion
identification code which produced the write command signal; and
(g) means for repeatedly reproducing the particular one of the desired
sequential portions of the video information stored in said memory to
produce a still picture thereof.
8. A device according to claim 7, further comprising reading control means
for moving said means for reading to a designated position on said
recording medium corresponding to a position in a designated program of
the plurality of programs.
9. A device according to claim 8, further comprising input means for
entering the portion identification codes corresponding to the desired
sequential portions to be reproduced as still pictures, and for entering a
desired program to be read, and means for storing each of the entered
portion identification codes corresponding to the desired sequential
portions with its corresponding program for entering a desired program to
be read.
10. A device according to claim 9, wherein said means for storing stores
the portion identification codes corresponding to desired sequential
portions in prescribed addresses allocated to particular ones of the
plurality of programs.
11. A device according to claim 9, wherein said means for storing stores
the portion identification codes corresponding to desired sequential
portions in correspondence with their respective programs.
12. A device according to claim 9, wherein said writing control means
further comprises means for extracting the portion identification codes
from the video information being read, and supplying the extracted portion
identification codes to said comparing means.
13. A device according to claim 12, wherein said means for entering data
comprises means, responsive to a user applied input signal as a motion
video program is displayed on a display means for extracting the portion
identification codes indicative of the sequential portions from the vide
information being read during the application of said input signals, and
for entering into said means for storing, as the designated portion
identification codes, the sequential portions being read during
application of said input signals.
14. A device according to claim 9, wherein said comparing means issues a
write command when the portion identification codes which are being read
coincides with one of the portion identification codes corresponding to
the desired portions, which is supplying from said means for storing, and
wherein said means for storing supplies a next one of the portion
identification codes corresponding to desired portions to said coincidence
detecting means in response to the write command.
15. A device according to claim 14, wherein said reading control means is
responsive to the write command.
16. A device according to claim 9, wherein said means for entering data
comprises means, responsive to user applied input signals as a motion vide
program is displayed on a display means for extracting the portion
identification codes indicative of the sequential portions from the video
information being read during application of said input signals, and for
entering into said means for storing, as the designated identification
codes, the portion identification codes corresponding to the sequential
portions being read during application of said input signals.
17. A device according to claim 8, wherein the designated position is the
beginning of the designated program. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
The present invention relates to a device for reproducing recorded
information, which device is capable of reproducing a still picture with
corresponding audio information.
In a method disclosed in Japanese Patent Application No. 197619/86 filed on
behalf of the present applicant, a video memory capable of storing video
information obtained from a recording medium, for example, a video disk is
disclosed. The quantity of video information stored on the disk
corresponds to at least one video field. Audio information read from the
video disk is sequentially sent out as reproduced audio information, and
video information corresponding to a prescribed picture is written in the
video memory. The video information written in the video memory is
repeatedly read therefrom and sent out as reproduced video information, so
that a still picture having an audio portion is reproduced.
FIG. 1 shows a block diagram of a recorded information reproducer for
implementing such a method. In the recorded information reproducer, a
video disk 1 is rotated by a spindle motor 2 so that information recorded
on the disk is read by an optical pickup (O.P.) 3, the output from which
is amplified by a preamplifier 4. The audio component of the amplified
output is demodulated by an audio demodulation circuit (A.D.C.) 5, and the
output from the audio demodulation circuit is supplied to an audio output
terminal 6. The video component of the amplified output is demodulated by
a video demodulation circuit (V.D.C.) 7. The output of the video
demodulation circuit is supplied to a video output terminal 9 through a
video memory 8 which is a field memory or a frame memory. A writing clock
signal generation circuit (W.C.S.G.C.) 10 generates a writing clock signal
locked to the horizontal synchronizing signal or color burst signal, for
example, included in a video signal which is the demodulated output from
the video demodulation circuit 7, so that the timing of writing of the
video information in the video memory 8 is controlled by the writing clock
signal. The video information written in the video memory 8 is read
therefrom depending on a reading clock signal generated by a reading clock
signal generation circuit (R.C.S.G.C.) 11 synchronously with a reference
signal generated by a reference signal generation circuit (R.S.G.C.) 12.
The video information is written in the video memory 8 only while a
writing command signal is supplied from a control circuit (not shown in
the drawings) through an input terminal A.
While the writing command signal is supplied from the control circuit, the
video information is written in the video memory 8 depending on the
writing clock signal synchronized with the video signal. When the supply
of the writing command signal is stopped, the writing of the video
information in the video memory 8 is ceased. In contrast, the video
information written in the video memory 8 is always read therefrom
depending on the reading clock signal (of fixed frequency), regardless of
whether the supply of the writing command signal is continuing or stopped.
As a result, the video information read from the video memory 8 is
continuously sent out as the reproduced video information to a monitor 13
through the video output terminal 9 so that a picture is displayed on the
monitor.
The recorded information is read from the video disk 1 in a normal
reproduction mode. If a viewer watching the display of the monitor 13
stops giving a writing command, at the time of appearance of a picture
which the viewer wants to watch, the video information is thereafter not
written in the video memory 8. Therefore, the video information last
written in the video memory and corresponding to the picture which the
viewer wants to watch is repeatedly read from the video memory. As a
result, the picture is displayed as a still picture on the monitor 13.
Since the reproduction of the video disk 1 remains in the normal
reproduction mode, the audio information read from the video disk 1 is
demodulated as is, so that the demodulated audio information is supplied
as normal reproduced audio information to a loudspeaker 14 through the
audio output terminal 6 and reproduced normally. If the writing command is
given again, a moving picture is normally reproduced from the time of the
giving of the writing command, thereby replacing the still picture. A
special reproduction effect of switching to a still picture mode midway in
the normal reproduction of the moving picture without interrupting the
audio reproduction can thus be produced.
Although the still picture is reproduced by the reproducer when the writing
command is stopped, the reproduction of the video disk continues
throughout the reproduction of the still picture so that a next still
picture which the viewer wants to watch cannot be displayed on the
monitor. In order to reproduce the next still picture, the viewer needs to
repeat the same procedure in which he gives the writing command to
normally reproduce a moving picture and then stops giving the writing
command while watching the moving picture, to replace the moving picture
with the next still picture. For that reason, the still pictures and the
moving pictures can only be alternately reproduced. Sequential
reproduction of still pictures cannot be achieved. It is also difficult to
reproduce a still picture of the exact frame of the video signal that is
desired.
SUMMARY OF THE INVENTION
The present invention was achieved to overcome the above-mentioned
problems.
It is an object of the present invention to provide an audio still picture
reproducer capable of sequentially reproducing an optional number of
desired still pictures with an audio portion.
It is another object of the present invention to provide an audio still
picture reproducer in which picture numbers respectively corresponding to
desired pictures, which are to be reproduced from a recording medium, are
sequentially stored, before reproduction, in a memory means in accordance
with the sequence of the reproduction of the pictures. Video information
read from the recording medium and corresponding to the picture numbers
stored in the memory means is written in a video memory in accordance with
the sequence of the storage of the picture numbers in the memory means.
The video information written in the video memory is sequentially and
repeatedly read therefrom and used as reproduced video information, and
audio information read from the recording medium is used as reproduced
audio information as is.
It is still another object of the present invention to provide an audio
still picture reproducer in which picture numbers corresponding to desired
ones of pictures which are to be reproduced from a recording medium are
stored, before reproduction, in a memory in correspondence with programs
to which the desired pictures belong, respectively. When a desired program
is selected, reproduced video information corresponding to the picture
number stored in the memory and belonging to the selected program is
written in a video memory. The reproduction of the selected program is
thereafter started from a prescribed position, preferably from the
beginning of the program. Video information written in the video memory is
sequentially and repeatedly read therefrom and used as reproduced video
information, and audio information read from the recording medium is used
as reproduced audio information as is.
BRIEF DESCRIPTION OF THE DRAWINGS
In the drawings:
FIG. 1 shows a block diagram of a type of information reproducer to which
the present invention is applicable;
FIG. 2 shows a block diagram of an audio still picture reproducer according
to a first embodiment of the present invention;
FIG. 3 shows a block diagram of an audio still picture reproducer according
to a second embodiment of the present invention;
FIG. 4 shows a block diagram of an audio still picture reproducer according
to a third embodiment of the present invention; and
FIG. 5 shows a block diagram of an audio still picture reproducer according
to a fourth embodiment of the present invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
Preferred embodiments of the present invention are hereafter described in
detail with reference to the drawings attached hereto.
FIG. 2 shows a block diagram of an audio still picture reproducer according
to a first embodiment of the invention. Elements which are shown in FIG. 2
that are also shown in FIG. 1 are denoted by the same reference symbols.
A video signal read from a video disk 1 includes data indicative of picture
numbers such as frame numbers, which are on the reproduced pictures,
respectively. The picture numbers serve as addresses for searching out and
reproducing a desired picture. It should be noted that the picture numbers
will correspond to different points of the continuously elapsing time
during the reproduction of the video information.
A data memory 15 capable of storing an optional or desired cardinal number
of the picture numbers is provided. Desired picture numbers, which
correspond to desired pictures out of a series of pictures to be
reproduced from the video disk 1, are entered as target picture numbers
into the data memory 15 through an input section 16 (made of ten digit
keys or the like), in accordance with the sequence of reproduction of the
desired pictures. The entered picture numbers are stored at the first and
the next following addresses in the data memory 15, in the sequence in
which they are entered.
A video signal which is the demodulated output from a video demodulation
circuit 7 is supplied to a data separation circuit 17 as well as to the
video memory 8. In the data separation circuit (D.S.C.) 17, data
corresponding to the picture numbers is extracted out of the video signal.
In a decoder 18, the extracted data is decoded into the picture numbers,
and the picture numbers are then supplied to a coincidence detection
circuit (C.D.C.) 19. The coincidence detection circuit 19 comprises a
register for storing the target picture numbers supplied from the data
memory 15, another register for storing the reproduced picture numbers
obtained from the disk 1, and a coincidence circuit for monitoring the
coincidence of the values of both the registers. The coincidence circuit
also compares the target picture numbers and the reproduced picture
numbers with each other so that when both the compared numbers have
coincided with each other, the coincidence detection circuit 19 generates
a writing command signal for a time corresponding to one field or one
frame depending on whether a video memory 8 is a field memory or a frame
memory. The writing command signal is supplied to the video memory 8
through a mode switch 20 when the switch is set to contact S, and the
command signal is also feed back to the data memory 15. The feed back of
the command signal controls the data memory 15 so that the data memory
shifts from a data storage address to the next data storage address of
larger number, after the completion of writing in the video memory.
Because of this control, the next picture number is automatically sent out
from the data memory 15 to the coincidence detection circuit 19. When the
mode switch 20 is shifted to contact N, the audio still picture reproducer
is put in the same reproduction mode as the audio still picture reproducer
of FIG. 1. When the mode switch 20 is shifted to contact S, the audio
still picture reproducer is put in a special reproduction mode in
accordance with the present invention.
Next, the reproduction operation of the audio still picture reproducer will
be described in detail. An optional number of picture numbers
corresponding to desired pictures are first entered through the input
section 16 in accordance with the sequence of reproduction of the desired
pictures. The desired pictures are selected out of the series of picture
numbers (which are attached to the video disk 1) to be reproduced, so that
the selected picture numbers are stored in the data memory 15 before
reproduction. The mode switch 20 is then shifted to the contact S and the
reproduction of the video disk 1 is started. The audio information read
from the video disk 1 is demodulated by the audio demodulation circuit 5
and sequentially supplied as reproduced audio information to loudspeaker
14 so that the audio information is normally reproduced. The video
information read from the disk 1 is demodulated by the video demodulation
circuit 7 and sequentially supplied to the video memory 8. Until the
coincidence detection circuit 19 detects that the reproduced picture
number obtained from the video signal coincides with the target picture
number supplied from the data memory 15, the writing command signal is not
supplied to the video memory 8. Therefore, the video information is not
written in the video memory. When it is detected by the coincidence
detection circuit 19 along with the progress of the reproduction that the
reproduced picture number has coincided with the target picture number
stored at the first address in the data memory 15, the writing command
signal is sent out from the coincidence detection circuit to the video
memory 8 so that the video information (having a quantity of one field or
one frame) corresponding to the target picture number is written in the
video memory. The video information written in the video memory is
thereafter repeatedly read therefrom and sent out as reproduced video
information so that a still picture is continuously displayed on the
monitor 13. When the writing command signal is no longer being sent out
from the coincidence detection circuit 19, namely, when the writing of the
video information in the video memory 8 is completed, processing is
shifted from the data storage address in the data memory 15 to the next
data storage address of larger number therein. Due to this shift, the next
target picture number is sent out to the coincidence detection circuit 19
to wait for the next (second) desired picture to appear on the monitor 13.
When a reproduced picture number coincides with the second target picture
number, the coincidence detection circuit 19 sends out the writing command
signal again so that video information corresponding to the second desired
picture is written in the video memory 8. When the writing of the video
information in the video memory 8 is completed, the supply of the writing
command signal is stopped so that processing is shifted from the data
storage address in the data memory 15 to the (third) data storage address
(of larger number) following the second address. In the meantime, the
second desired picture is continuously displayed as a still picture on the
monitor 13. With such a system, if the first picture number attached to
the disk 1 is stored as the first address in the data memory 15
beforehand, still pictures can be sequentially displayed from the first
one to the last one on the monitor 13.
The above-described cycle of the reproduction operation is thus repeated a
number of times which is equal to the number of the target picture numbers
stored in the data memory 15, so that the number of the desired still
pictures are sequentially displayed on the monitor 13. Since the
reproduction of the video disk 1 is normally performed from the beginning
to the end, the audio information is continuously reproduced, as normal,
by the loudspeaker 14.
Although the target picture numbers corresponding to the desired pictures
are entered through the input section 16 in accordance with the sequence
of the reproduction of the desired pictures, and are thus stored in the
data memory 15 in the above-described embodiment, the most preferable
procedure of storing the desired picture numbers in the data memory is
that a viewer gives a storage command for each desired picture during a
preview reproduction of a moving picture on the monitor 13 as the video
disk 1 is reproduced before the viewing in which the desired pictures are
to be reproduced. When the viewer gives the storage command, the displayed
picture will be stored by its picture number included in the corresponding
video information.
FIG. 3 shows an audio still picture reproducer according to a second
embodiment of the present invention. In the second embodiment, the
above-mentioned most preferable procedure is applied. The audio still
picture reproducer includes another data separation circuit (D.S.C.) 21 in
which data corresponding to picture numbers is extracted out of a video
signal sent out from a video memory 8, another decoder 22 for decoding the
extracted data into the picture numbers, and a gate circuit 23. The gate
circuit 23 functions so that each of the picture numbers from the decoder
are supplied to a data memory 15 in response to a storage command. These
components are provided in addition to the same components as those of the
audio still picture reproducer shown in FIG. 2. The data separation
circuit 21 and the decoder 22 may be replaced by the data separation
circuit 17 and decoder 18, respectively, by additionally coupling the
output from the decoder 18 into the gate circuit 23.
The reproduction operation of the audio still picture reproducer shown in
FIG. 3 will now be described. Mode switch 20 is first shifted to contact N
so that normal reproduction is started. A moving picture is thus displayed
on a monitor 13 and the viewer watches the moving picture. When a desired
picture is displayed on the monitor 13, the storage command is given (by
the viewer) through an input section 16A. As a result, the gate circuit 23
is turned on so that the picture number corresponding to the desired
picture is stored as a target picture number in the data memory 15. When
another desired picture is displayed on the monitor 13, the viewer issues
another storage command. An optional number of target picture numbers are
thus sequentially stored in the data memory 15 in accordance with the
sequence of the reproduction of the desired pictures. At that time, either
undesired pictures may be skipped by a quick motion or the like to search
out each desired picture, or a step-by-step reproduction mode or a still
picture reproduction mode may be set to precisely search out each desired
picture, to store each target picture number.
If the mode switch 20 is shifted to contact S after the storage of the
target picture numbers in the data memory 15 to normally reproduce a video
disk 1 from the beginning thereof, the special reproduction mode in which
audio still pictures are sequentially reproduced in the same manner as in
the first embodiment is performed.
Although the writing of the video information in the video memory 8 is
performed by use of hardware (the data memory 15 and the coincidence
detection circuit 19) in each of the above-described embodiments, the
writing may be performed using software by using a microcomputer.
FIG. 4 shows a block diagram of an audio still picture reproducer according
to a third embodiment of the present invention. The mutually corresponding
portions shown in FIGS. 1, 2 and 4 are denoted by the same reference
symbols therein.
In the audio still picture reproducer, as described above, a video signal
read from a video disk 1 has portions indicative of picture numbers such
as frame numbers, which are attached to reproduced pictures, respectively.
The picture numbers serve as addresses so that a selected picture can be
searched out and reproduced. A data memory 115 capable of storing an
optional number of the picture numbers is provided. A program number such
as the number of a chapter desired to be reproduced in still picture
reproduction is entered through an input section 116 and supplied to a
system control circuit 117 such as a microcomputer. When a program search
command is given through the input section 116, the system control circuit
117 supplies the entered program number to yet another decoder 118 and
performs a control function described hereinafter. The decoder 118
deciphers an address present in the data memory 115 and corresponding to
the program number so that a target picture number stored at that address
in the data memory is read therefrom and supplied to the system control
circuit 117 and coincidence detection circuit 19. The system control
circuit 117 then controls a servo mechanism 120 (for controlling the
position of pickup 3) to move the information reading point (light spot)
of the pickup 3 to the position corresponding to that address and
thereafter start the reproduction of the video disk 1 therefrom.
A video signal which is the demodulated output from video demodulation
circuit 7 is supplied to data separation circuit 17 as well. In the data
separation circuit 17, data corresponding to the picture numbers is
extracted out of the video signal. In the decoder 18, the data is decoded
into the picture numbers. The picture numbers are supplied to the
coincidence detection circuit 19. The coincidence detection circuit 19
includes a register for storing target picture numbers supplied from the
data memory 115, a register for storing reproduced picture numbers
obtained from the video disk 1, and a coincidence circuit. The coincidence
circuit monitors the coincidence of the values of both the registers, and
compares the target picture numbers and the reproduced picture numbers
with each other so that when both the compared numbers coincide, the
coincidence detection circuit 19 sends out a writing command signal for a
time corresponding to one field or one frame (depending on whether a video
memory 8 is a field memory or a frame memory). When the writing command
signal is no longer being issued, the value of the register for storing
the target picture numbers is cleared. The writing command signal is
supplied to the video memory 8 and the system control circuit 117 through
a mode switch 123 when the switch is set to contact S. Video information
is written in the video memory 8 while the writing command signal is
supplied thereto. When the writing command signal has ceased being issued,
the system control circuit 117 controls the servo mechanism 120 to newly
search out a prescribed position, preferably the position of the beginning
of a program corresponding to the previously entered program number, and
to thereafter start the normal reproduction of the program from the
beginning thereof. When the mode switch 123 is shifted to contact N, the
audio still picture reproducer is put in the same reproduction mode as the
audio still picture reproducer shown in FIG. 1. When the mode switch 123
is shifted to the contact S, the audio still picture reproducer is put in
a special reproduction mode based on the present invention.
Next, the reproduction operation of the audio still picture reproducer of
FIG. 4 will be described. An optional number of picture numbers
corresponding to desired pictures are first entered through the input
section 116. In the data memory 115, the entered picture numbers are
stored at positions allocated to programs to which the desired pictures
belong, respectively. The mode switch 123 is then shifted to the contact S
and reproduction of the disk 1 is started. With the switch 123 in this
position, the number of each program desired to be reproduced is entered
through the input section 116. When a program search command is thereafter
given through the input section 116, the storage address present in the
data memory 115 and corresponding to the number of the program desired to
be reproduced is deciphered by the decoder 118 so that a target picture
number stored at the storage address is supplied to the system control
circuit 117 and the coincidence detection circuit 19. The system control
circuit 117 then controls the servo mechanism 120 to search out the
recorded position of video information corresponding to the target picture
number and thereafter start the reproduction from the recorded position.
At that time, a reproduced picture number (obtained from video information
that has been read) is coincident with the target picture number supplied
from the data memory 115. When the coincidence is detected by the
coincidence detection circuit 19, the writing command signal is sent out
from the coincidence detection circuit so that video information whose
contents (one field or one frame) correspond to the target picture number
is written in the video memory 8. After that, the video information
written in the video memory 8, is repeatedly read therefrom and sent out
as reproduced video information so that a still picture is continuously
displayed on monitor 13. Before the video information is written in the
video memory 8, it is inhibited by a squelch circuit (not shown in the
drawings) to perform displaying on the monitor 13.
When the writing command signal ceases to be sent out from the coincidence
detection circuit 19, namely, when the writing of the video information in
the video memory 8 is completed, the system control circuit 117 controls
the servo mechanism 120 to search out the position of the beginning of
another program corresponding to another program number which has been
previously entered, and to start the normal reproduction of the program
from the beginning thereof. As a result, audio information read from the
video disk 1 is demodulated by an audio demodulation circuit 5 and
sequentially supplied as reproduced audio information to a loudspeaker 14
so that the audio information is normally reproduced. From the beginning
of the program to the start of the reproduction, it is inhibited by a
squelch circuit (not shown in the drawings) to supply the audio
information to the loudspeaker 14. On the other hand, the video
information read from the video disk 1 is demodulated by the video
demodulation circuit 7 and sequentially supplied to the video memory 8.
Since the writing command signal is not supplied to the video memory 8,
the video information is not written therein, so that reproduction of the
still picture is continued. Since the value of the target picture number
stored in the register of the coincidence detection circuit 19 is cleared
when the writing command signal ceases to be sent out from the coincidence
detection circuit, the above-described processing operation is not
repeated even if the information reading point of the pickup 3 comes to a
still picture reproduction position again during the reproduction of the
information on the video disk 1.
The above-described series of operations is repeated at each time of a
search of a desired program so that if the program corresponds to a tune,
for example, the tune can be normally listened to from the beginning to
the end thereof with a desired picture continuously displayed as a still
picture during the period of the reproduction of the program.
Although the picture numbers corresponding to the desired pictures are
entered by number through the input section 116 out of the series of
picture numbers attached to the video disk 1 to be reproduced and are
stored in the data memory 15 in the audio still picture reproducer shown
in FIG. 4, the most preferable procedure of storing the target picture
numbers in the data memory is that a viewer gives a storage command at the
time of reproduction of every desired picture while watching a moving
picture displayed on the monitor 13 as the video disk is reproduced before
reproducing the information in still picture format, to sequentially store
the picture numbers included in corresponding video information.
FIG. 5 shows a block diagram of an audio still picture reproducer according
to a fifth embodiment of the present invention. In the fifth embodiment,
the above-mentioned most preferable procedure is applied. The mutually
corresponding portions shown in FIGS. 3 and 5 are denoted by the same
reference symbols therein.
The audio still picture reproducer includes a data separation circuit 21 in
which data corresponding to a program number and a picture number are
extracted out of a video signal sent out from video memory 8, decoder 22
for decoding the extracted data into the program number and the picture
number, and gate circuit 23 which functions so that the program number and
the picture number from the decoder 22 are supplied to data memory 115 in
response to a storage command from input section 16A, in addition to the
same components as those of the picture reproducer shown in FIG. 4. The
data separation circuit 21 and the decoder 22 may be replaced (i.e. have
their functions performed) by data separation circuit 17 and decoder 18,
respectively, by additionally coupling the output from the decoder 18 into
the gate circuit 23.
Next, the reproduction operation of this audio still picture reproducer
will be described. Mode switch 123 is first shifted to contact N and
normal reproduction is started. A moving picture is displayed on monitor
13. When a desired picture is displayed, the storage command is given
through the input section 16A. As a result, the gate circuit 23 is turned
on so that the number of the desired picture is supplied as a target
picture number to the data memory 115. At the same time, the number of a
program to which the desired picture belongs is also supplied to the data
memory 115 so that in the data memory, the picture number is stored at a
storage position allocated for that program. When another desired picture
is displayed on the monitor 13, another storage command is given. An
optional number of target picture numbers are thus stored at allocated
storage positions in the data memory 115. At that time, either undesired
pictures may be skipped by quick motion or the like to search out a
desired picture, or a step-by-step reproduction mode or a still picture
reproduction mode may be set to precisely search out a desired picture, to
store a target picture number.
When the mode switch 123 is shifted to contact S after the storage of the
target picture numbers so that the disk 1 is normally reproduced from the
beginning thereof, special reproduction in which audio still pictures are
sequentially displayed is performed.
In each of the audio still picture reproducers shown in FIGS. 4 and 5,
although the picture numbers are stored in the data memory at the storage
places allocated for their programs, the present invention is not confined
thereto. The present invention may be otherwise constructed so that the
program numbers and the picture numbers are collectively and randomly
stored without allocation of storage positions such that in reproduction,
collective data including a selected program number are supplied to the
coincidence detection circuit and compared with reproduced collective data
sent out from the decoder 18.
Although the data memory, the decoder 18, the coincidence detection circuit
19 and so forth are formed using hardware in the audio still picture
reproducers shown in FIGS. 4 and 5, the data memory, the decoder, the
coincidence detection circuit and so forth may be formed using a
microcomputer together with the system control circuit to perform
processing in a software manner.
Although the above-described embodiments are made as video disk players,
the invention may be made as a video tape recorder.
As described above, in the audio still picture reproducer of the present
invention, picture numbers corresponding to desired ones of pictures which
are to be reproduced from a recording medium are sequentially stored
beforehand in a memory in accordance with the sequence of the reproduction
of the desired pictures, and video information (read from the recording
medium and corresponding to the picture numbers stored in the memory) is
written in a video memory in accordance with the sequence of the storage
of the picture numbers in the memory. Otherwise, the picture numbers
corresponding to the desired ones of the pictures which are to be
reproduced from the recording medium are stored beforehand in the memory
in correspondence with programs to which the desired pictures belong,
respectively, reproduced video information, corresponding to the picture
number for the desired picture belonging to the selected program stored in
the memory, is written in the video memory at the time of the selection of
the program, and the reproduction is thereafter started from a prescribed
position, preferably from the beginning of the program. The video
information written in the video memory is sequentially and repeatedly
read therefrom and supplied as reproduced video information. Audio
information read from the recording medium is supplied as reproduced audio
information as is. As a result, each desired picture can be continuously
reproduced as a still picture along with sound and the desired still
pictures can be sequentially reproduced with sound. A novel audio and
video effect can thus be achieved.
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