JP4611187B2 - Video recording device - Google Patents

Description

The present invention relates to a video recording apparatus for displaying an index screen displaying an plurality of video signals simultaneously.

  In recent years, with the increase in capacity of recording media such as magnetic tapes, optical discs, and hard disks, a plurality of video signals and long-time video signals have been recorded and reproduced.

  For example, a video tape recorder (VTR) is known that records two programs simultaneously on a magnetic tape and displays them on the same screen during playback.

  In addition, in the type that forms an index screen, there is a type that reads a video from a video recorded on an external recording medium such as an optical disk at regular intervals and displays a plurality of video signals simultaneously.

  Incidentally, in recent years, the spread of cable television (CATV) broadcasting and the spread of digital TV satellite broadcasting using communication satellites has increased, and the trend toward full-scale multi-channel broadcasting has increased day by day. Tend to become stronger.

  In addition, since the conventional index screen generation is performed on multiple screens after reading a plurality of video signals, it takes time to create one index image.

  In addition, since only the index screen is displayed and the normal video signal is not displayed, it may be difficult to grasp the context of the currently viewed scene.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a video recording apparatus that can reduce the time spent for displaying an index screen during reproduction.

In order to solve the above problems, the video recording apparatus according to the present invention generates an index screen corresponding to the input video signal and generates an identification signal for identifying the index screen, Recording processing means for adding the identification signal generated by the index screen generating means to the video signal including the index screen and the video signal, and performing recording processing on the video signal including the index screen and the video signal And writing means for writing the recording processing output from the recording processing means to a recording medium, and the index screen generating means generates the index screen and the identification signal and then supplies the index screen and the identification signal to the recording processing means. The means includes the index screen and the identification signal included in the recording processing output. Respectively written to two of the recording medium made.

  According to the present invention, by generating an index screen at the time of recording, the time spent for displaying the index screen at the time of reproduction can be shortened.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of a video recording device, a playback device, and a video recording / playback method according to the present invention will be described below with reference to the drawings.

  In this embodiment, as shown in FIG. 1, a video signal input is written to, for example, a hard disk drive (HDD) 3 serving as a writing / reading means via a recording signal processing and detection control system 2 and read out from the HDD 3. This is a video signal recording / reproducing apparatus 1 that outputs the processed video signal via a reproduction signal processing and detection control system 6.

  Specifically, the video signal recording / reproducing apparatus 1 includes a recording apparatus including a recording signal processing and detection control system 2, an HDD 3, a recording control signal input system 4, and a system controller 5, an HDD 3, a system controller 5, and a reproduction signal processing. And a reproducing apparatus comprising a detection control system 6 and a reproduction control signal input system 7.

  The video signal recording / reproducing apparatus 1 also has a first function for displaying a plurality of videos on the same screen so as to form a so-called multi-screen, and a second function for generating an index screen during recording by the recording apparatus. And a third function for generating an index screen showing the content of the video signal during playback on the playback device and displaying it on the same screen as the normal video signal.

  Hereinafter, the video signal recording / reproducing apparatus 1 realizing the first function is referred to as a first embodiment, the video signal recording / reproducing apparatus 1 realizing the second function is referred to as a second embodiment, and the third function is described. A reproducing apparatus of the video signal recording / reproducing apparatus 1 to be realized will be described as a third embodiment.

  First, the video signal recording apparatus 1 of the first embodiment will be described below. The video signal input supplied to the video signal recording apparatus 1 is subjected to various signal processing by the recording signal processing and detection control system 2 and is written in the HDD 3. Here, as the recording medium, in addition to the HDD, a compact disk drive, a magneto-optical disk drive, a semiconductor memory drive, or the like may be used.

  In the recording signal processing and detection control system 2, after various signal processing is performed, various detection processing and control processing are performed on these signals, and a control signal is supplied to the system controller 5.

  The system controller 5 performs recording control of the HDD 3 based on the recording control signal input system 4 and the control signal supplied from the recording signal processing and detection control system 2, and each signal of the recording signal processing and detection control system 2. Control the process and each control process.

  During reproduction, the system controller 5 performs reproduction control of the HDD 3 based on the reproduction control signal input system 7 and the control signal supplied from the reproduction signal processing and detection control system 6, and also reproduces the reproduction signal and detection control system 6. Each signal processing and each control processing are controlled.

  The signal read from the HDD 3 is subjected to various signal processing in the reproduction signal processing and detection control system 6 to be a video signal output. Further, the reproduction signal processing and detection control system 6 performs various detection processes based on the signal subjected to the reproduction signal processing, and supplies a control signal to the system controller 5.

  In the video signal recording / reproducing apparatus 1 of the first embodiment, an identification signal corresponding to each video signal is generated and added to the video signal by the recording signal processing and detection control system 2 for a plurality of video signals. After that, the data is supplied to the HDD 3 for writing.

  At the time of reproduction, the identification signal added to each video signal is detected by the reproduction signal processing and detection control system 6, and the system controller 5 is controlled and the memory inside the reproduction signal processing and detection control system 6 is controlled. And display as a multi-screen.

  The detailed configuration and operation of the recording signal processing and detection control system 2 will be described with reference to FIG. FIG. 2 particularly shows the configuration on the recording apparatus side.

  The video signal input includes a video signal input processed by the video signal processing system 9, a camera system input processed by the camera signal processing system 10, and an antenna system input processed by the tuner system (video system) 11. There is also a digital video input system that can be switched by a video signal detection control system 14 described later. Each input subjected to various video processing in each processing system 9, 10 and 11 is switched by a video signal switching system 12.

  The video signal switching system 12 is controlled by the system controller 5 based on information obtained from the recording control signal input system 4, selects a desired video signal, and supplies it to the video signal A / D conversion system 13.

  The digital video signal obtained by A / D conversion by the video signal A / D converter 13 is supplied to the video signal detection control system 14.

  The video signal detection control system 14 switches and selects the digital video signal from the video signal A / D converter 13 and the digital video signal of the digital video input system under the control of the system controller 5, and corresponds to the selected digital video signal. The generated video identification signal is generated. When a plurality of N types of digital video signals are selected for switching, N identification signals for these N types of digital video signals are generated.

  As used herein, N types of digital video signals are, for example, video signals from broadcast A and broadcast B from an antenna system input via a tuner system 11, for example, via a camera signal processing system 10. The video signal from the camera system input by the camera system input is a digital video signal.

  Then, the video signal detection control system 14 has three video identification signals “1” for the above three types of digital video signals “Broadcast A”, “Camera” and “Broadcast B” switched by the video signal switching system 12. , “2” and “3” are generated and supplied as additional information of the video signal to the recording data processing system 16 as indicated by the broken line in the figure, and the digital video signal is supplied to the video signal band compression processing system 15.

  The video signal band compression processing system 15 performs band compression processing such as MPEG or JPEG on the digital video signal to reduce the amount of data, and then supplies the data to the recording data processing system 16.

  In the recording data processing system 16, N video identification signals from the video signal detection control system 14 are added to the N types of digital video signals and supplied to the HDD 3. For example, in the specific example shown in FIG. 3, the three video identification signals [1], “2”, and “3” are converted into three types of compressed digital video signals “Broadcast A”, “Camera”, and “ To “Broadcast B”. Actually, after rearranging the data in accordance with the recording format, for example, various IDs including the video identification signal are added, EFM modulation and the like are performed and sent to the HDD 3.

  The process of adding the video identification signal to the digital video signal performed by the recording data processing system 16 will be described with reference to FIG. The recording data processing system 16 is supplied after the video signals of “Broadcast A”, “Camera” and “Broadcast B” switched by the video signal switching system 12 as described above are converted into digital video signals. In this case, the three kinds of video signals are switched so as to be time-divided in units of one field, for example.

  The three video identification signals [1], “2” and “3” generated by the video signal detection control system 14 are time-divided into the three types of digital video signals “Broadcast A”, “Camera”. ”And“ Broadcast B ”, for example, are added to the head.

  FIG. 4 shows a format of a digital video signal for one field to which a video identification signal is added. The video identification signal constitutes a control signal together with “Field No”, “Next”, and “Prev”. This control signal and video signal (main part) make up one pack (= field).

  Four bits are assigned to the video identification signal, and up to 15 bits from “0000” to “1110” can be represented, and 15 types of video signals can be handled. In addition, 3 bytes are assigned to “Field No”, and the number of the current field is written.

  2 bytes are assigned to “Next”, an address number in which the next field exists is written, and used for normal reproduction. Also, 2 bytes are assigned to “Prev”, the address where the previous field exists is written, and is used during reverse playback.

  The recording data processing system 16 adds the video identification signal to the digital video signal and records the digital video signal by including it in the digital video signal, recording the digital video signal in a different area, digital video A method of recording on a recording medium different from the signal may be used.

  In addition, for only a digital video signal, a method of continuously recording the output of the video signal detection control system 14, a method of recording in a separate area for each type of video, a method of recording on a separate recording medium for each type of video, etc. There is.

  Next, the detailed configuration and operation of the reproduction signal processing and detection control system 6 will be described with reference to FIG. FIG. 5 particularly shows the configuration of the reproducing apparatus side.

  The video identification signal and digital video signal in the format shown in FIG. 4 recorded in the HDD 3 are read out under the control of the system controller 5. The read data is supplied to the reproduction data processing system 17.

  The reproduction data processing system 17 separates the N video identification signals from the data and supplies the video identification signals to the video signal detection control system 19 as indicated by broken lines in the figure, and also converts the digital video signal into the video signal. This is supplied to the band extension processing system 18. Actually, processing such as EFM demodulation, error correction, and data rearrangement is performed according to the reproduction format.

  In the video signal band expansion processing system 18, the digital video signal is subjected to expansion processing such as MPEG, JPEG, etc., and the compressed data is expanded on the recording apparatus side before being supplied to the video signal detection control system 19.

  The video signal detection control system 19 controls the internal memory based on the video identification signal supplied from the reproduction data processing system 17 and divides the video to divide and display the N types of video signals on one screen. A signal, that is, a digital video output for generating a multi-screen is obtained and supplied to the video signal D / A conversion system 20.

  The video signal for multi-screen subjected to D / A conversion by the video signal D / A converter 20 is supplied to the video signal output system 21 and subjected to video processing such as chroma encoding, and then as video signal output. Derived.

  An outline of the process of generating the multi-screen video signal by the video signal detection control system 19 will be described below with reference to FIG.

  In FIG. 6, the video signal band expansion system output is an output from the video signal band expansion processing system 18, and the video identification signal indicates the video identification signal supplied from the reproduction data processing system 17 through a path indicated by a broken line. . Further, the memory 1, the memory 2, and the memory 3 are field memories existing in the video signal detection control system 19, and the field memories will be described later.

  As shown in the figure, the video signal band expansion system output is output by switching “Broadcast A”, “Camera”, and “Broadcast B”, for example, by time division in units of one field.

  The reproduction data processing system 17 supplies video identification signals [1], “2” and “3” corresponding to the digital video signals to the video signal detection control system 19.

  The memory 1 controls the write enable WE according to the video identification signal “1”. Here, the write enable WE is Low, and a write process is commanded. That is, when the video identification signal “1” is detected, the video signal of the broadcast A1 is frozen in the memory 1 as shown in the memory 1 write by setting the memory 1WE to Low for one field. Similarly, only the video with the video identification signal “1” is frozen, such as broadcast A2, broadcast A3. As a result, the output of the memory 1 is only broadcast A as shown in the memory 1 read.

  The memory 2 controls the write enable WE according to the video identification signal “2”. That is, when the video identification signal “2” is detected, the video signal of the camera is frozen in the memory 2 as shown in the memory 2 write by setting the memory 2WE to Low for one field. Similarly, only the video having the video identification signal “2”, such as the camera 2, the camera 3. As a result, the output of the memory 2 is only the camera as shown in the memory 2 read.

  The memory 3 controls the write enable WE in accordance with the video identification signal “3”. That is, when the video identification signal “3” is detected, the video signal of broadcast B is frozen in the memory 3 as shown in the memory 3 write by setting the memory 3WE to Low for one field. Similarly, only the video with the video identification signal “3” is frozen, such as broadcast B2, broadcast B3. As a result, the output of the memory 3 is only the broadcast B as shown in the memory 3 read.

  In this way, the video signal divided into three can be reduced by a reduction circuit to be described later, whereby multi-screen display can be performed on the same screen as shown in FIG. Here, the multi-screen display for three types of video signals is shown, but it is needless to say that any number N of video signals can be supported.

  An example of the internal configuration of the video signal detection control system 19 that realizes the multi-screen display shown in FIG. 7 is shown in FIG.

  In FIG. 8, the video signal input is input to the field memory 22, the field memory 23, and the field memory 24.

  On the other hand, the memory controller 25 performs freeze control of the field memory 22, the field memory 23, and the field memory 24 based on the video identification signal.

  The output of the field memory 22 is supplied to the reduction circuit 26, the output of the field memory 23 is supplied to the reduction circuit 27, and the output of the field memory 24 is supplied to the reduction circuit 28, and reduction processing is performed. The respective reduction sizes and display positions here are given from the system controller 5 to the respective reduction circuits based on the reproduction control signal input system 7.

  Each reduced video signal is subjected to synthesis processing by the synthesis circuit 29 and is output as a single video signal. Since this one-line video signal is displayed on the same screen, the user can enjoy, for example, three videos at the same time and can check the contents of the three videos at the same time.

  Although three video signals have been described here, an arbitrary number N of video signals can be handled by changing the number of field memories and reduction circuits.

  In the first embodiment, a case where a plurality of video signals are recorded and reproduced has been described. However, the present invention is also applicable to a video signal reproducing apparatus that reproduces a medium in which a plurality of video signals and identification signals of the respective video signals are recorded in advance. Is possible.

  Next, a second embodiment for realizing the second function for generating an index screen during recording by the recording apparatus will be described below.

  As in the first embodiment, the second embodiment is the video signal recording / reproducing apparatus 1 shown in FIG. 1. However, the recording signal processing and detection control system 2 on the recording apparatus side generates an index screen. In addition, a video identification signal for identifying the index screen is added to the video signal and written to the HDD 3.

  Further, at the time of reproduction, the reproduction signal processing and detection control system 6 detects a video identification signal for identifying the index screen and controls the system controller 5 and also stores the internal memory of the reproduction signal processing and detection control system 6. Control and display the index screen.

  A detailed configuration of the recording signal processing and detection control system 2 is shown in FIG. FIG. 2 shows a configuration on the recording apparatus side. That is, the configuration is the same as that of the recording apparatus side of the video signal recording / reproducing apparatus 1 of the first embodiment. The difference is the operation of the video signal detection control system 14.

  The video signal detection control system 14 generates an index screen from the video signal and supplies it to the video signal band compression processing system 15 together with the video signal. Further, the video signal detection control system 14 generates a video identification signal for identifying the index screen and supplies it to the recording data processing system 16 as indicated by a broken line in the figure.

  In the video signal band compression processing system 15, the video signal including the index screen signal is subjected to band compression processing such as MPEG or JPEG to reduce the data amount, and then supplied to the recording data processing system 16.

  In the recording data processing system 16, the video identification signal from the video signal detection control system 14 is added to the video signal including the index screen and subjected to recording processing and supplied to the HDD 3.

  FIG. 9 shows a format of a digital video signal for one field to which an identification signal for identifying the index screen (herein referred to as index identification information) is added. The index identification information constitutes a control signal together with “Field No”, “Next”, and “Prev”. This control signal and video signal (main part) make up one pack (= field).

  “1111” tail is assigned to the index identification information as a flag indicating an index screen.

  In addition, 3 bytes are assigned to “Field No”, and the number of the current field is written.

  In addition, 2 bytes are assigned to “Next”, and an address where an index screen ahead of +1 to +65536 screen exists is written. For example, when an index screen showing the contents of six different programs is generated every field at the time of recording, read control is performed so as to always jump to an address of +1 in the 1 × index playback mode. In the 30 × index playback mode, an index screen at a desired interval can be displayed immediately by always skipping an address of +30.

  Also, 2 bytes are assigned to “Prev”, and an address where an index screen ahead of −1 to −65536 screen exists is written. For example, when an index screen showing the contents of six different programs is generated every field during recording, the index screen at the desired interval is displayed immediately by always jumping to the address of −1 in the reverse 1 × index playback mode. can do.

  The internal structure of the video signal detection control system 14 is shown in FIG. The video signal input is supplied to the reduction circuit 30 and the commercial (CM) detection circuit 32 and directly becomes a video signal output.

  The reduction circuit 30 performs a reduction process on the video signal to generate an index screen and supplies it to the field memory 31.

  Based on the information of the recording control signal input system 4, the system controller 5 supplies index screen interval information to the memory controller 25.

  Based on this information, the memory controller 25 performs address control and freeze control of the field memory 31.

  Here, the index screen interval information will be described. For example, it is information for using one image as an index screen every 10 minutes, and the memory controller 25 freezes the video signal once every 10 minutes according to the interval information. However, in order to prevent a video such as a commercial that is not suitable for a search application from being frozen, when a CM is detected by the CM detection circuit 32, the memory controller 25 is controlled to freeze the video after the CM. In this way, an index screen output is obtained as the output of the field memory 31.

  The memory controller 25 outputs a video identification signal for identifying the index screen in accordance with the timing at which the index screen is output from the field memory 31, that is, the index identification information. Then, on the playback device side that has received the index screen output and the video identification signal, for example, an index screen as shown in FIG. 11 is displayed.

  In the index screen shown in FIG. 11, six different video signals, broadcast A, broadcast B, broadcast C, broadcast D, broadcast E, and broadcast F are reduced and displayed on the same screen.

  As for the recording area of the index screen, there are a method of recording in a different area from the video signal recorded in the same area as the video signal, a method of recording in a recording medium different from the video signal, and the like.

  As for the recording area of the video identification signal indicating the index screen, the recording method includes recording in the index screen signal, the recording method in a different area from the index screen signal, and the recording medium different from the index screen signal. There are recording methods.

  FIG. 12 is a diagram for explaining index screen generation processing performed by the video signal detection control system 14. In FIG. 12, the video signal input includes, for example, six different video signals of broadcast A, broadcast B, broadcast C, broadcast D, broadcast E, and broadcast F in units of one field.

  First, from the broadcast A1, the broadcast B1, the broadcast C1, the broadcast D1, the broadcast E1, and the broadcast F1, an index screen as shown in the index 1 is generated and output as the index 1, and the video identification signal “1” for identifying the index screen. Is output.

  Next, for example, when the interval of the index screen is 10 minutes and the video signal 10 minutes after the broadcast A1 is the broadcast An, the broadcast n, the broadcast Bn, the broadcast Cn, the broadcast Dn, the broadcast En, and the broadcast Fn are index n. An index screen as shown in FIG. 6 is generated and output as an index n, and a video identification signal [n] for index screen identification is output.

  By repeating such an operation, it is possible to generate an index screen for searching for a video and a video identification signal for the index screen.

  Next, reproduction of the index screen will be described. There are two methods for reproducing the index screen. One is a method for displaying only the index screen, and the other is a method for displaying the index screen and each video signal on the same screen.

  When only the index screen is displayed, after the reproduction data processing system 17 performs reproduction processing on the video signal read out by the HDD 3 shown in FIG. 5, the video signal detection control system 19 is based on the video identification signal indicating the index screen. Only the index screen is read from the video signal via the video signal band expansion processing system 18. Then, a video signal for an index screen is output via the video signal D / A conversion system 20 and the video signal output processing system 21.

  When the index screen and each video signal are displayed on the same screen, the index screen output and each video signal are alternately read from the HDD 3 to obtain a video signal output in which the index screen and each video signal become one system.

  In the second embodiment, the case of recording / reproducing the index screen has been described. However, the present invention can also be applied to a video signal reproducing apparatus that reproduces a recording medium in which an identification signal with respect to the index screen is recorded in advance.

  Next, a description will be given of a third embodiment for realizing a third function for generating an index screen during playback on the playback device and displaying it on the same screen as a normal video signal.

  The third embodiment is a video signal playback apparatus similar to the configuration on the playback apparatus side of the video signal recording / playback apparatus 1 of the first and second embodiments shown in FIG. The detection control system 6 controls the internal memory, generates an index screen, and synthesizes it with a normal video signal to obtain a digital video output.

  A detailed configuration of the reproduction signal processing and detection control system 6 will be described with reference to FIG.

  In FIG. 5, the playback control signal input system 7 supplies the system controller 5 with mode information for normal playback or index screen playback.

  The system controller 5 performs read control on the HDD 3 according to the mode. As a result, the video signal based on the mode is read from the HDD 3. This video signal output is supplied to the reproduction data processing system 17.

  The reproduction data processing system 17 separates the video identification signal relating to the index screen from the video signal output, and supplies the video identification signal to the video signal detection control system 19 as indicated by the broken line in the figure, and the video signal is sent to the video signal. This is supplied to the band extension processing system 18. Actually, processing such as EFM demodulation, error correction, and data rearrangement is performed according to the reproduction format.

  In the video signal band expansion system 18, the video signal is subjected to expansion processing such as MPEG, JPEG, etc., and the compressed signal is expanded on the recording apparatus side before being supplied to the video signal detection control system 19.

  The video signal detection control system 19 controls an internal memory based on the video identification signal for the index screen supplied from the reproduction data processing system 17, generates an index screen, and combines it with a normal video signal. In addition, it is derived as a digital video signal output and supplied to the video signal D / A converter 20.

  The video signal that has been D / A converted by the video signal D / A converter 20 is subjected to processing such as chroma encoding in the video signal output processing system 21, and is then derived as a video signal output.

  The internal configuration of the video signal detection control system 19 is shown in FIG. In FIG. 13, the video signal input is input to the synthesis circuit 29 via the field memory 22 and the reduction circuit 26.

  The field memory 22 is controlled by the memory controller 25 so as to freeze only the normal video signal from the video signal input in which the index screen generation and the normal video are alternated.

  After freezing only a normal video signal in the field memory 22, the reduction circuit 26 performs reduction processing and supplies it to the synthesis circuit 29.

  The reduction circuit 27 performs a video signal reduction process to generate an index screen and supplies it to the field memory 23.

  On the other hand, based on the information supplied from the reproduction control signal input system 7, the system controller 5 supplies the address information of the index screen to the memory controller 25.

  Based on this information, the memory controller 25 performs address control of the field memory 23, freeze address control, and freeze control to generate an index screen. After the index screen is generated in the field memory 23, it is supplied to the synthesis circuit 29.

  In the synthesizing circuit 29, the system controller 5 synthesizes the normal video signal supplied from the field memory 22 via the reduction circuit 26 and the index screen supplied from the field memory 23 to obtain a video signal output.

  The synthesis process of normal video signal and index screen generation will be described with reference to FIG.

  Here, when the broadcast A5 is the current normal video signal, for example, when the front and rear four-field video is used for the index screen, the broadcast A5, the broadcast A1, and the broadcast A9 become the index screen signals. Generate the video shown.

  Subsequently, when the broadcast A6 is the current normal video signal, the broadcast A6, the broadcast A2, and the broadcast A10 are signals for the index screen, and the video shown in the screen 2 is generated.

  Subsequently, when the broadcast A7 is the current normal video signal, the broadcast A7, the broadcast A3, and the broadcast A11 are signals for the index screen, and the video shown in the screen 3 is generated.

  Here, when the broadcast A11 in the index screen is selected by operating the down key (DOWN) and the enter key of a remote controller (hereinafter referred to as a remote controller) as shown in FIG. A video like the screen 4 in FIG. 14 can be generated with A11 as a normal video signal.

  The operation at this time is as follows. The system controller 5 that has learned through the playback control signal input system 7 that the broadcast A11 in the index screen has been selected by the remote controller controls the HDD 3, for example, the head drive, and broadcasts the main screen This is realized by setting A11. At this time, discontinuity of the video signal occurs due to head seek or the like, and a continuous video signal is obtained by controlling the buffer memory inside the reproduction data processing system 17.

  When the down key of the remote controller is pressed, a frame is added around the screen of the broadcast A11 on the screen 3 to inform the user that it has been selected. If it is desired to jump to the broadcast A11, the information is transmitted to the reproduction control signal input system 7 by pressing the determination button on the remote controller in this state. Similarly, when selecting the broadcast A3, the frame can be moved to the broadcast A3 using the up (UP) key of the remote controller and the enter key can be pressed.

  As described above, in the third embodiment, by continuously displaying the current video signal, the context of the current video becomes clear and the searchability is improved.

  In the third embodiment, the index screen is composed of a total of three images, one for the current and one before and after that, but may be a total of five for the current and two before and after that.

  Further, the current screen image may not be used for the index screen, and the index screen may be generated using only the previous and next images.

1 is a block diagram of a video signal recording / reproducing apparatus according to an embodiment of a video recording apparatus, a reproducing apparatus, and a video recording / reproducing method according to the present invention. It is a block diagram by the side of the recording device of the video signal recording / reproducing apparatus which becomes 1st Example of the said embodiment. 3 is a timing chart for explaining the operation on the recording apparatus side shown in FIG. It is a format diagram of a digital video signal to which a video identification signal used in the first embodiment is added. It is a block diagram by the side of the reproducing | regenerating apparatus of the video signal recording / reproducing apparatus which becomes the said 1st Example. It is a timing chart for demonstrating the operation | movement by the side of the reproducing | regenerating apparatus of the said 1st Example. It is a figure which shows the multiscreen display by the said 1st Example. It is a block diagram which shows the internal structure of the video signal detection control system by the side of the reproducing | regenerating apparatus of the said 1st Example. It is a format figure of the digital video signal to which the index identification information used with the video signal recording / reproducing apparatus which becomes 2nd Example of the said embodiment was added. It is a block diagram which shows the internal structure of the video signal detection control system by the side of the recording apparatus of the video signal recording / reproducing apparatus which becomes the said 2nd Example. It is a figure which shows the index screen display by the said 2nd Example. It is a figure for demonstrating the method of the index screen production | generation used in the said 2nd Example. It is a block diagram which shows the internal structure of the video signal detection control system by the side of the reproducing | regenerating apparatus of the video signal recording / reproducing apparatus which becomes 3rd Example of the said embodiment. It is a figure for demonstrating operation | movement of the said 3rd Example. It is a figure for demonstrating the screen selection performed in the said 3rd Example.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Video signal recording / reproducing apparatus, 3 HDD, 4 Recording control signal input system, 5 System controller, 7 Reproduction control signal input system, 14 Video signal detection control system, 16 Recording data processing system, 17 Reproduction data processing system, 19 Video signal Detection control system

Claims (2)

Index screen generation means for generating an index screen corresponding to the input video signal and generating an identification signal for identifying the index screen;
Recording processing means for adding the identification signal generated by the index screen generating means to the video signal including the index screen and the video signal, and performing recording processing on the video signal including the index screen and the video signal When,
Writing means for writing the recording processing output from the recording processing means to a recording medium,
The index screen generation means generates the index screen and the identification signal, and then supplies them to the recording processing means.
The video recording apparatus, wherein the writing means writes the index screen and the identification signal included in the recording processing output into two different recording media, respectively .   2. The video recording apparatus according to claim 1, wherein the index screen generated by the index screen generating means is a screen for simultaneously displaying a plurality of video signals.

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