JP2021082899A - Reception device, compression device, and program - Google Patents

Abstract

To provide a reception device that can efficiently perform compression conversion processing of recorded data, and that unlikely makes a state in which compression conversion of the recorded data is not performed for any length of time.SOLUTION: A reception device 1 has a transcoder 23a that performs data compression, a management unit 41 that manages the operation of the transcoder 23a, an extraction unit 42 that extracts one or more compression candidates from a plurality of pieces of recorded data including at least one of video information and audio information in a predetermined order, and a determination unit 43 that determines whether one or more compression candidates extracted by the operational transcoder 23a can be data compressed.SELECTED DRAWING: Figure 2

Description

Embodiments of the present invention relate to receivers, compressors and programs.

Technology that compresses and records data is widely used. For example, a receiving device such as a television receiver or a BD (Blu-ray Disc) recorder has a long-time recording function of compressing and recording broadcast program data. The program data recorded by the recorder or the like is once recorded in the storage device as recorded program data in a format that is not compressed and converted as it is, and then converted or compressed into a long-time recorded program by the transcoder. A long-time recorded program is a recorded program compressed so that the data capacity is smaller than the data capacity of the original recorded program.

However, the transcoder may stop operating or become unusable after the compression conversion of the recorded program into the long-time recorded program is started. For example, due to the specifications of a semiconductor device having a recording and playback function including a transcoder, there is a receiving device in which the transcoder cannot be used when scheduled recording is started or the like.

When the compression conversion to a long-recorded program is interrupted, the compression conversion to a long-recorded program is executed again when the transcoder is free, but the transcoder is in the middle of the compression conversion. It may be interrupted again. Therefore, the recorded data scheduled to be compressed and converted may not be compressed and converted forever.

That is, the transcoder used for data compression conversion may become unusable due to execution of scheduled recording or the like during compression conversion of recorded data, and if such a case occurs frequently, it will be compressed forever. A state occurs in which conversion is not performed, and compression conversion of recorded data is not executed efficiently.

Japanese Unexamined Patent Publication No. 08-65616 Japanese Unexamined Patent Publication No. 2002-171485

Therefore, the present embodiment provides a receiving device, a compression device, and a program that can efficiently perform the compression conversion processing of the recorded data and are unlikely to be in a state where the compression conversion of the recorded data is not performed forever. The purpose.

The receiving device of the embodiment is a receiving device having a transcoder that compresses data, and is predetermined from a management unit that manages the operation of the transcoder and a plurality of recorded data including at least one of video information and audio information. In this order, it has an extraction unit that extracts one or two or more compression candidates, and a determination unit that determines whether the extracted one or two or more compression candidates can be compressed by the operational transcoder.

It is a block diagram which shows the structure of the receiving apparatus which concerns on 1st Embodiment. It is a flowchart which shows the example of the flow of the compression conversion process for long-time recording which concerns on 1st Embodiment. It is a functional block diagram of the compression conversion control program for long-time recording which concerns on 1st Embodiment. It is a figure for demonstrating the execution example of the compression conversion by the long-time recording process by a transcoder which concerns on 1st Embodiment. It is a block diagram of the data compression system which concerns on 2nd Embodiment.

Hereinafter, embodiments will be described with reference to the drawings.
(First Embodiment)
(Constitution)
FIG. 1 is a block diagram showing a configuration of a receiving device according to the present embodiment. The receiving device 1 of the present embodiment is configured to receive a digital television broadcast and record a program related to the broadcast in a storage device. The receiving device 1 is, for example, a recording device or a television receiver. The recording device is a recorder equipped with a drive device for a recording medium for recording / playback such as a Blu-ray disc. A television receiver is a television device with a built-in recorder function. The receiving device 1 has a transcoder 23a that compresses data, as will be described later.

The receiving device 1 has an input unit 11 into which a broadcast signal from the antenna ANT is input, a playback / recording unit 12, and a storage unit 13. The input unit 11 is connected to the antenna ANT. The input unit 11 has a tuner and receives a broadcast signal. The input unit 11 receives, for example, at least one program of terrestrial digital broadcasting, BS (Broadcasting Satellite) digital broadcasting, CS (Communication Satellite) digital broadcasting, and BS / CS 4K broadcasting. The input unit 11 has a plurality of tuners, and can receive, that is, select a channel of a plurality of digital broadcast programs.

As shown by the alternate long and short dash line, the input unit 11 may receive broadcast signals from a cable for cable television, the Internet, and the like.

The output signal of the input unit 11 is supplied to the playback / recording unit 12. The playback / recording unit 12 processes the broadcast signal from the input unit 11, and when the receiving device 1 is a television receiver, for example, a video signal in the signal format of LVDS (Low Voltage Differential Signaling) is transmitted to a liquid crystal panel or the like. Is output to the image display panel 14 that displays the image of. The audio output signal is in analog signal format and is output to a speaker (not shown). In FIG. 1, only the video signal to the video display panel 14 is shown.

When the receiving device 1 is a recorder, as shown by the alternate long and short dash line, a video signal is transmitted to a separate television receiver 16 or the like via the HDMI (High-definition Digital Media Interface: registered trademark) interface 15. It is output.

When the receiving device 1 is a recorder, the storage unit 13 is built-in or externally attached. When the receiving device 1 is a television receiver, the video display panel 14 is integrated with the receiving device 1, but the storage unit 13 may be built in the television receiver or may be externally attached. ..

The storage unit 13 is a storage device having a large storage capacity such as a hard disk drive device.

The user of the receiving device 1 operates a remote controller or the like to display a video of a desired program on the video display panel 14, record the program being viewed, or make a recording reservation using an electronic program guide (EPG) or the like. And the recorded program recorded in the storage unit 13 can be played back.

The playback / recording unit 12 records the program from the input unit 11 in the storage unit 13 according to the user's operation instruction and recording reservation. That is, the recorded data recorded in the storage unit 13 is the recorded program data in which the broadcast signal is recorded. The user can set whether to record the program to be recorded in the storage unit 13 as a long-time recorded program.

The reproduction / recording unit 12 includes a control unit 21, a reproduction unit 22, and a recording unit 23. The control unit 21 has a central processing unit (hereinafter referred to as a CPU) 21a and a memory 21b. The memory 21b includes a ROM, a RAM, and a rewritable non-volatile memory (such as a flash memory). The ROM and the rewritable non-volatile memory store various programs for realizing the overall operation and various functions of the receiving device 1. The CPU 21a reads various programs from the ROM and the rewritable non-volatile memory, expands them into the RAM, and executes the programs.

When a command from a remote controller or the like (not shown) is given to the control unit 21, the control unit 21 reads the program corresponding to the command from the ROM or the rewritable non-volatile memory and executes the program in response to the command. Various functions such as display and recording are realized.

Here, the control unit 21 realizes various functions of the receiving device 1 by having the CPU 21a and executing a program, and the control unit 21 is an electronic device using an FPGA (Field Program Integration Gate Array) or the like. It may be composed of a circuit or a semiconductor device such as an LSI (Field Scale Integration). In that case, each function of the compression conversion control program CCP, which will be described later, is realized by the electronic circuit or the semiconductor device.

The reproduction unit 22 is a reproduction circuit that reproduces a broadcast signal from the input unit 11. The reproduction unit 22 includes a signal detection separation unit 22a and a decoder 22b. The signal detection separation unit 22a separates the broadcast signal of the channel received and selected by the input unit 11 into TS (Transport Stream) (that is, video signal (Video)), audio signal (Audio), and control signal. Under the control of the control unit 21, the decoder 22b decodes the video signal from the signal detection separation unit 22a and outputs it as a digital video signal (video output) to the video display panel 14 in the form of, for example, an LVDS signal. As described above, the audio signal is output to a speaker (not shown).

The recording unit 23 has a transcoder 23a. The transcoder 23a is a signal compressor. The transcoder 23a is used under the control of the control unit 21 to compress program data including video signals and audio signals and convert them into digital signals having a small data capacity.

The recording unit 23 has a recording circuit (not shown), and the recording circuit temporarily records the program data in the storage unit 13 in a format that is not compressed and converted as it is. Under the control of the control unit 21, the transcoder 23a reads out the program data recorded in the storage unit 13, compresses and converts the program data, and records the program data in the storage unit 13 again. The program data of the recorded program of the storage unit 13 is input to the decoder 22b and played back.

In the present embodiment, the reproduction / recording unit 12 is formed as one semiconductor chip of SoC (System-on-a-Chip), that is, a semiconductor device. The transcoder 23a executes the compression conversion process using the compressed work memory 17 connected to the playback / recording unit 12. The compressed work memory 17 is, for example, a DRAM. Therefore, under the control of the control unit 21, the transcoder 23a reads the recorded program designated for long-term recording from the storage unit 13, executes the compression conversion process using the compressed work memory 17, and performs the compressed recording. The program data is recorded in the storage unit 13.

The transcoder 23a is used for compression conversion processing. For example, when the reproduction / recording unit 12 is formed as one semiconductor chip, the reproduction unit 22 is operating depending on the function or specification of the reproduction / recording unit 12. , During the execution of scheduled recording, there may be operational restrictions such as the transcoder 23a not being usable. In that case, due to such operational restrictions of the transcoder 23a, when scheduled recording is executed while the transcoder 23a is being used for long-time recording, compression conversion processing for long-time recording is performed. Will be discontinued. The transcoder 23a of the present embodiment has a restriction that the compression conversion process for long-time recording cannot be performed while the playback unit 22 is operating and the scheduled recording is being executed.

As described above, the user can make a recording reservation for a broadcast program by using a remote controller or the like, and can specify or set whether or not to record the recorded program for a long time, including the case of recording reservation. it can. The recording reservation information is stored in the rewritable non-volatile memory of the memory 21b, and the control unit 21 records the program based on the recording reservation information stored in the memory 21b. The recording reservation information including the setting information for long-time recording is stored in the rewritable non-volatile memory of the memory 21b.

A program for which long-term recording is set is temporarily recorded in the storage unit 13 as a recorded program in the DR (Direct Recording) format, for example, as program data having an image quality as broadcast without compression conversion. For example, the recorded program data recorded in the storage unit 13 in the DR format includes compression conversion schedule information indicating that long-time recording is set. As will be described later, when the transcoder 23a is free, the program data of the recorded program having the compression conversion schedule information is compressed and converted by the transcoder 23a under the control of the control unit 21. That is, the program data recorded in the storage unit 13 is read out by the transcoder 23a, subjected to compression conversion processing, and then re-recorded in the storage unit 13 as long-time recording data.

Since the recorded program for which long-time recording is not set does not include the compression conversion schedule information, it is recorded in the storage unit 13 as the program data of the broadcast image quality that has not been compressed and converted.

The control unit 21 records a program in the storage unit 13 and outputs a video signal to the video display panel 14 while controlling the state of each circuit in the playback / recording unit 12 based on an instruction from the user. It controls processing such as display or playback of programs, compression conversion for long-term recording of recorded programs, and the like. The compression conversion for long-term recording of the recorded program is performed when the transcoder 23a is operational.

Whether or not the transcoder 23a is operable, that is, whether or not it is free, is determined by the control unit 21 based on the operating state of the receiving device 1, the operation schedule information, and the recording reservation information.
(Action)
Next, the compression conversion process for long-time recording executed in the receiving device 1 will be described. FIG. 2 is a flowchart showing an example of the flow of compression conversion processing for long-time recording. FIG. 3 is a functional block diagram of the compression conversion control program CCP for long-time recording. FIG. 4 is a diagram for explaining an execution example of compression conversion by a long-time recording process by the transcoder 23a. The long-time recording process of FIG. 2 is a process of the compression conversion control program CCP stored in the ROM of the memory 21b or the non-volatile memory, and is executed by the CPU 21a of the control unit 21.

As shown in FIG. 3, the compression conversion control program CCP has a management unit 41, an extraction unit 42, a determination unit 43, and a compression conversion unit 44 as functional units.

FIG. 2 shows a process including the functions of the extraction unit 42, the determination unit 43, and the compression conversion unit 44. The process of FIG. 2 is executed in the receiving device 1 when the transcoder 23a is in an operable state but is not in use, that is, when the transcoder 23a is free.

The management unit 41 manages the operation of the transcoder. Whether or not the transcoder 23a is free, in other words, whether or not it can be operated, is determined by the management unit 41 based on the current operating state of the receiving device 1 and the future operating schedule. That is, the management unit 41 can manage the operation of the transcoder and confirm that the transcoder 23a can operate. The time when the transcoder 23a is free is, for example, when the power of the receiving device 1 is off and the recording reservation is not executed, or when the receiving device 1 is in the sleep state and the recording reservation is not executed. Generally, the transcoder 23a can operate when the power of the receiving device 1 is turned off and the recording reservation is not executed, and when the receiving device 1 is in the sleep state and the recording reservation is not executed. Therefore, when the power of the receiving device 1 is off, the management unit 41 confirms whether the transcoder 23a can operate.

As described above, in the present embodiment, due to the specifications of the playback / recording unit 12, the transcoder 23a cannot be operated when the playback unit 22 is operating and when scheduled recording is being executed. Although it cannot be used, the transcoder 23a can operate, that is, it is free when the power of the receiving device 1 is turned off and the recording reservation is not executed, when the receiving device 1 is in the sleep state and the recording reservation is not executed, and the like. There is.

The control unit 21 confirms the state of each part of the receiving device 1, and based on the confirmed state, the transcoder 23a determines whether the transcoder 23a is operable, that is, is free. The management unit 41 determines whether or not the transcoder 23a is free. When it is determined that the transcoder 23a is free, the control unit 21 executes the process shown in FIG.

Hereinafter, the processes of the extraction unit 42, the determination unit 43, and the compression conversion unit 44 will be described with reference to FIG.

First, the control unit 21 determines whether or not there is a recorded program (hereinafter, referred to as a program to be converted) scheduled for compression conversion for long-term recording (step (hereinafter abbreviated as S) 1). The presence / absence of the program to be converted is determined based on the presence / absence of the compression conversion schedule information included in the recorded data of each recorded program recorded in the storage unit 13.

The compression conversion schedule information may be stored in the memory 21b of the control unit 21, and the control unit 21 determines the presence or absence of the conversion scheduled program by referring to the compression conversion schedule information of the memory 21b. May be good.

In FIG. 4, SS shows the waiting queue of the program to be converted at the present time and the availability of the transcoder. SS1 in SS is a list of recorded programs already recorded in the storage unit 13 at the present time, a list of recorded programs in order of recorded time, and from program data of a plurality of recorded programs recorded in the storage unit 13. , Generated by the control unit 21.

As shown in the recorded program list SS1, the program A is a one-hour program and is a program to be converted. Program B is a 30-minute program and is a program to be converted. Program C is a one-hour program and is a recorded program that is not scheduled for compression conversion. Program D is a two-hour program and is a program to be converted. Program E is a one-hour program and is a recorded program that is not scheduled for compression conversion. Program F is a 10-minute program and is a program to be converted.

SS2 in SS is a conversion scheduled recording program list indicating a waiting queue of the recording program list of the conversion scheduled program among the recorded recorded programs. The control unit 21 extracts the conversion scheduled program from the recorded program list SS1 and generates the conversion scheduled recording program list (hereinafter referred to as conversion schedule list) SS2 which is a waiting queue. The conversion schedule list SS2 is arranged in the order of recording time. Here, the programs A, B, D, and F to be converted are shown.

Therefore, in the case of the example of FIG. 4, in S1, it is determined whether or not there is a conversion scheduled program in the conversion schedule list SS2 generated from the recorded program list SS1.

When there is no program to be converted for long-time recording (S1: NO), the process ends.

When there is a program to be converted for long-time recording (S1: YES), the control unit 21 acquires the information of the program to be converted (S2). Here, information on the conversion schedule list SS2, for example, information on the recording time, is acquired.

After S2, the control unit 21 determines whether or not there is a recording reservation (S3). Since the recording reservation information is stored in the memory 21b, the control unit 21 determines whether or not there is a recording reservation based on the presence or absence of the program reservation information set by the user.

When there is a recording reservation (S3: YES), the control unit 21 executes n = n + 1 (S4). Note that n is an integer, and n is set to 0 when the execution of the process of FIG. 2 is started.

After S4, the control unit 21 selects the nth compression conversion scheduled recorded program selected from the conversion schedule list SS2 (S5). Initially, the recorded program with n = 1, that is, the oldest recorded recorded program in the conversion schedule list SS2 is selected. The processing of S1 to S5 corresponds to the extraction unit 42, and from a plurality of recorded data (recorded programs) including at least one of video information and audio information, in a predetermined order, here, the recorded time of each recorded data is old. In order, the compression schedule recording data (conversion schedule program) to be compressed is extracted as compression candidates.

The control unit 21 determines whether the recorded program is selected from the conversion schedule list SS2, that is, whether there is a selected recorded program (S6). In the case of the conversion schedule list SS2 of FIG. 2, when n = 1, the program A is selected, and it is determined that there is a selected recorded program (S6: YES).

After selecting the last (latest) recorded program in the conversion schedule list SS2, it is determined that there is no recorded program to be selected from the conversion schedule list SS2 (S6: NO), and the process ends.

When there is a recorded program to be selected from the conversion schedule list SS2 (S6: YES), the control unit 21 determines whether the compression conversion of the nth conversion schedule program is completed by the time of the next recording start of the recording reservation. (S7). The process of S7 constitutes the determination unit 43. Therefore, the determination unit 43 determines whether the extracted compressed scheduled recording data (conversion scheduled program) can be compressed by the operable transcoder 23a. That is, the determination unit 43 determines whether the extracted compression candidates can be data-compressed by the transcoder 23a.

When the compression conversion of the nth conversion scheduled program is not completed by the time of the next recording start (S7: NO), the process returns to S4. In S4, n is incremented by 1. In S5, the second oldest recorded recorded program is selected, and the control unit 21 determines whether the compression conversion of the second scheduled conversion program is completed by the time of the next recording start (S7). Similarly, the control unit 21 selects the recorded programs in the order of the oldest recorded time, and determines whether the compression conversion of the selected conversion scheduled program is completed by the time of the next recording start.

When the compression conversion of the nth conversion scheduled program is completed by the time of the next recording start (S7: YES), the control unit 21 acquires the remaining capacity of the storage unit 13, that is, the recordable capacity (S8). ). The remaining capacity of the storage unit 13 is acquired by reading from a storage area such as the memory 21b stored by a program that monitors the remaining amount of the storage unit 13.

Further, when it is determined in S3 that there is no recording reservation (S3: NO), the process skips to S8.

The control unit 21 determines whether the storage unit 13 has a remaining capacity equal to or greater than the converted data capacity of the nth conversion scheduled program (S9). The determination in S9 is performed by comparing the data capacity of the nth conversion scheduled program with the remaining capacity of the storage unit 13.

When the storage unit 13 has a remaining capacity equal to or greater than the data capacity after conversion of the nth program to be converted (S9: YES), the control unit performs long-time recording conversion processing for the 21st and nth programs to be converted, that is, a transformer. The compression conversion process using the coder 23a is executed (S10).

When there is no recording reservation in S3, the oldest recorded program at the recorded time is compressed and converted from the conversion schedule list SS2 (S10). As described above, when the transcoder 23a becomes operable based on the operation of the transcoder 23a whose operation is managed by the management unit 41, the extraction unit 42 of S1 to S5 sets the compression schedule recording data (compression schedule recording data) as a compression candidate. The conversion schedule program) is extracted, and the determination unit 43 of S7 determines whether the extracted compression schedule recording data (conversion schedule program) can be data-compressed (compression conversion) by the transcoder 23a.

In the above-described embodiment, when the transcoder 23a becomes operable based on the operation of the transcoder 23a managed by the management unit 41, the determination unit 43 determines the next recording reservation after the transcoder becomes operable. It is determined whether the extracted compression candidates can be data-compressed by the transcoder 23a within the time zone until the execution is started. Then, when the compression candidate can be data-compressed (compressed and converted) by the transcoder 23a, the compression conversion for the compression candidate is executed (S10).

When the long-time recording conversion is completed, the process returns to S1. The processing of S10 constitutes the compression conversion unit 44. The compression conversion unit 44 constitutes a compression conversion control unit that controls the transcoder 23a so as to perform compression conversion of the program to be converted.

The above processing will be described with reference to the example of FIG. As described above, SS1 is a list of recorded programs already recorded in the storage unit 13 at the present time. When the process of FIG. 2 is executed in the state of the recorded program list SS1 of FIG. 4, the conversion schedule list SS2 is generated, and the program A of the conversion schedule program is selected at time t0.

At this time, the control unit 21 can generate the transcoder availability information SS3 from the recording reservation information. The transcoder availability information SS3 indicates a time schedule from the current time t0 to a predetermined period T (here, 6 hours and 20 minutes). According to the transcoder availability information SS3, the recording of the recording reservation a of the program of 1 hour and 30 minutes is scheduled to start at the time t1 30 minutes after the current time t0. Therefore, the transcoder 23a is not used and is vacant for 30 minutes from the current time t0. In other words, from the current time t0 to 30 minutes, the transcoder 23a can be used for the compression conversion process for long-time recording.

Further, according to the transcoder availability information SS3, the recording of the recording reservation b of the one-hour program is scheduled to start at the time t3 20 minutes after the execution end time t2 of the recording reservation a. Therefore, the transcoder 23a can be used for the compression conversion process for long-time recording for 20 minutes from the time t2 to t3.

Further, according to the transcoder availability information SS3, the recording of the recording reservation c of the one-hour program is scheduled to start at the time t5 two hours after the execution end time t4 of the recording reservation b. Therefore, the transcoder 23a can be used for the compression conversion process for long-time recording for 2 hours from the time t4 to t5.

In FIG. 4, since there is the next recording reservation a (S3: YES), the control unit 21 determines whether the compression conversion process of the program A of the program to be converted is completed by the start of recording of the next recording reservation a. (S7). The time from the current time t0 to the start time t1 of the scheduled recording of the next recording reservation a is 30 minutes, and the compression conversion process of the program A of the program to be converted takes one hour. It is determined that the recording is not completed by the time of the next recording start (S7: NO). Then, n = n + 1 is executed in S4, and it is determined whether the compression conversion process for the program B of the next program to be converted is completed because the next recording reservation a is started (S7).

Since the time between time t0 and t1 is 30 minutes and the compression conversion process of the program B of the program to be converted takes 30 minutes, it is determined that the conversion of the program B to be converted is completed by the time of the next recording start (S7 :). YES).

Then, after checking the remaining amount of the storage unit 13, the long-time recording conversion for the program B is executed (S10).

After the compression conversion for the long-time recording of the program B is completed, the recording of the recording reservation a is executed. When the execution of the recording of the recording reservation a is completed, the transcoder 23a is free, so the compression conversion process of FIG. 2 is executed again at the end time t2.

If no other program to be converted is added at time t2 and no recording reservation is added, when the process of FIG. 2 is executed at time t2, first, between 20 minutes from time t2 to t3. , It is determined whether or not the compression conversion of the program A is possible (S6). Since the program A is a one-hour program, it is determined that the conversion of the program A scheduled to be converted is not completed by the time t3 of the next recording start (S7: NO). Then, n = n + 1 is executed in S4, and it is determined whether the compression conversion process for the program D of the next program to be converted is completed by the time the next recording reservation b is started (S7).

Since the time between time t2 and t3 is 20 minutes and the compression conversion process of the program D of the program to be converted takes 2 hours, it is determined that the conversion of the program D to be converted is not completed by the time t3 of the next recording start ( S7: NO). Then, n = n + 1 is executed in S4, and it is determined whether the compression conversion process for the program F of the next program to be converted is completed by the time the next recording reservation b is started (S7).

Since the time between time t2 and t3 is 20 minutes and the compression conversion process of the program F of the program to be converted takes 10 minutes, it is determined that the conversion of the program F to be converted is completed by the time of the next recording start (S7). : YES).

Then, after checking the remaining amount of the storage unit 13, long-time recording conversion is executed for the program F (S10).

After the completion of the compression conversion for long-time recording of the program F, the transcoder 23a becomes empty if no other program to be converted is added and no recording reservation is added. In this case, 10 minutes after the time t2, the transcoder 23a becomes empty, and the compression conversion process of FIG. 2 is executed again.

At this time, the compressed and converted recorded programs (programs B and F) are deleted in the conversion schedule list SS2, and the conversion schedule list SS2 includes the programs A and D.

However, there is only 10 minutes from 10 minutes after the time t2 until the recording of the next recording reservation b is started, and since the conversion schedule list SS2 includes the programs A and D, until the time t3. , The compression conversion process is not executed.

After that, the scheduled recording of the program b is executed at time t3, and ends at time t4. If no other program to be converted is added at time t4 and no recording reservation is added, when the process of FIG. 2 is executed at time t4, first, between the two hours from time t4 to t5. , It is determined whether or not the compression conversion of the program A is possible (S7). Since the program A is a one-hour program, it is determined that the conversion of the program A to be converted is completed by the time t5 of the next recording start (S7: YES).

Then, after checking the remaining amount of the storage unit 13, long-time recording conversion is executed for the program A (S10).

After the completion of the compression conversion for long-time recording of the program A, the transcoder 23a is in a vacant state unless another program to be converted is added and a recording reservation is not added. Therefore, at time t41, which is one hour after time t4, the transcoder 23a becomes empty, and the process of FIG. 2 is executed again.

At this time, in the conversion schedule list SS2, the compressed and converted recorded programs (programs A, B, F) are deleted, and the conversion schedule list SS2 includes the program D.

However, since there is only one hour from the time t41, which is one hour after the time t4, until the recording of the next recording reservation c is started, the compression conversion process for the program D is not executed at this time.

The TS of FIG. 4 shows the conversion schedule list SS2 of the program to be converted at time t41 after the long-time recording conversion process of the program A, the execution status of the compression conversion by the transcoder 23a, and the transcoder availability status after that. Includes information SS3. The TS of FIG. 4 shows that at time t41, only the recorded program D is waiting for the compression conversion process for long-time recording.

When the process of FIG. 2 is executed, a time schedule is generated every time for a predetermined period T from the current time, and the compression conversion process for long-time recording of the program D is performed after the transcoder 23a is free after the time t41. It is executed when the time until the recording of the next recording reservation is started is 2 hours or more.

As described above, according to the compression conversion control program CCP, when the transcoder 23a is free, the transcoder 23a can be used next to the older recorded program from the recorded programs scheduled for compression conversion. A recorded program that can be compressed and converted by the time when it disappears is selected and compressed and converted.

In the above example, for the sake of simplicity, only the start time of the recording reservation is confirmed, and the transcoder 23a performs the compression conversion of the program scheduled for compression conversion between the current time and the recording reservation start time. Although it is determined whether or not it can be performed, it is determined whether or not the program to be compressed and converted can be compressed and converted in consideration of the so-called system maintenance time zone predetermined in the television receiver, recorder, and the like.

Further, a process of confirming whether the number of recorded programs currently recorded in the storage unit 13 has reached the maximum number of recorded programs set in the receiving device 1 (the maximum number of programs that can be recorded by the receiving device 1) is performed. When the number of recorded programs currently being recorded reaches the maximum number of recorded programs set in the receiving device 1, a predetermined message is generated and displayed on the video display panel 14, and the recorded program is recorded. The user may be notified that the number has exceeded the maximum number of recordings.

As described above, according to the above-described embodiment, it is possible to provide a receiving device capable of efficiently performing the compression conversion processing of the recorded data and hardly causing a state in which the compression conversion of the recorded data is not performed forever. it can.
In the above-described embodiment, a long-time recording program is mentioned as an example of the target of compression conversion, but the target of compression conversion does not necessarily have to be a long-time recording program. May be a recorded program specified independently, for example, a recorded program having attributes such as a specified genre or series name.
Furthermore, the target of compression conversion is not only the recorded data of the broadcasted program, but also the recorded data saved in the specified storage area, the recorded data saved when the recordable area falls below the threshold, and the designation. Various forms of recorded data, such as recorded data by the user, may be targeted for compression conversion.

Next, a modified example of the above-described embodiment will be described.
(Modification example 1)
In the above-described embodiment, when the transcoder 23a is free, the conversion scheduled programs are selected from the recorded programs scheduled for compression conversion in the order of the oldest recording time, and the selected conversion scheduled programs can operate the transcoder. If there is a conversion scheduled program that can be compressed and converted during the free time of the transcoder from that time until the start of the next recording reservation, the conversion scheduled program is immediately compressed and converted, but the conversion schedule list SS2 It is determined whether there are a plurality of conversion scheduled programs that can be compressed and converted in the free time, and if there are a plurality of conversion scheduled programs that can be compressed and converted in the free time, a predetermined priority is given. One compression candidate may be selected according to the order (here, priority is given to the program to be converted having a long recording time), and the compression conversion may be performed.

For example, if the free time is 30 minutes and there are two programs scheduled to be converted, a program scheduled to be converted for 10 minutes and a program scheduled to be converted for 20 minutes in the conversion schedule list in chronological order of recording time, the free time of 30 minutes is 10 minutes. The 20-minute scheduled conversion program recorded after the scheduled conversion program is preferentially selected and compressed and converted. After the 20-minute compression conversion, if the transcoder 23a can perform compression conversion of the 10-minute conversion scheduled program, the compression conversion of the 10-minute conversion scheduled program is executed.

Further, for example, when the free time is 30 minutes and the conversion schedule list contains three programs, a 10-minute conversion schedule program, a 20-minute conversion schedule program, and a 30-minute conversion schedule program, in the order of oldest recording time. In the 30-minute free time, the program scheduled to be converted for 30 minutes, which has the longest recording time, is preferentially selected and compressed and converted. In S3 to S7 of FIG. 2 above, a plurality of conversion scheduled programs are extracted, and in S10, the conversion scheduled program having a long recording time is preferentially selected, and the compression conversion process is performed. Also in this case, when there are a plurality of programs to be converted having a long recording time, the programs to be converted are selected in the order of the oldest recording time.

That is, when the transcoder 23a becomes operable based on the operation of the transcoder 23a managed by the management unit 41, the determination unit 43 executes the next recording reservation of the broadcast signal after the transcoder becomes operable. When it is determined that there are a plurality of compression candidates capable of data compression within the time zone until the start of the data, the compression conversion unit 44 sets the priority order (here, in the order of the longest recording time). The transcoder 23a is controlled so as to specify one compression candidate and perform compression conversion.

According to the first modification, the compression candidates specified according to a predetermined priority (here, the recorded program having the longer recording time is prioritized) are compressed and converted, so that the compressed conversion of the recorded program is performed forever. It becomes difficult for a state that is not done to occur.
(Modification 2)
In the above-described embodiment, the transcoder 23a performs compression conversion of the program to be converted by taking a time equal to the recording time for recording the recorded program in the storage unit 13, that is, at the same speed, but the transcoder 23a Depending on the performance, the transcoder 23a may be able to perform compression conversion at a speed faster than the same magnification speed. In such a case, the determination of S7 described above may be performed based on the compression conversion processing time, which is not the recording time and the time at the same speed.
(Modification example 3)
In the above-described embodiment, when the transcoder 23a is free, the programs to be converted are selected in the order of the oldest recording time from the recorded programs scheduled for compression conversion, and the selected programs to be converted are selected. If there is a program to be converted that can be compressed and converted during the free time from the time when the transcoder becomes operational to the start of the next recording reservation, the program to be converted is immediately compressed and converted. That is, the compression candidates are selected in the order of oldest recording time in a predetermined order.
However, as a modification 3, the predetermined order of selection of compression candidates may be the newest order of the recording time, the data size order of the recorded program (larger size or smaller size), and the like. It may be in the order of.
(Second embodiment)
The first embodiment relates to a receiving device that compresses a recorded program recorded from a broadcast signal, while the second embodiment relates to a compression device that compresses data recorded in an external device or the like. The compression device of this embodiment has a transcoder that compresses data.

In the present embodiment, in the compression device having a transcoder for compressing data, the data recorded in the external device or the like is efficiently compressed when the transcoder is free, as in the first embodiment described above. To.

FIG. 5 is a configuration diagram of a data compression system according to the second embodiment. In the present embodiment, the compression device 51 of the data compression system is installed in the building H. A router 52 is installed in the building H, and the compression device 51, the television receiver 53, the recorder 54, and the music server 55 are connected to each other so as to be able to communicate with each other via a network including the router 52.

The router 52 has a wireless LAN function and can communicate with a smartphone 56 or the like. The router 52 is also connected to a network device 57 that is connected to a network 61 such as the Internet.

The compression device 51 includes a control unit 51a, a transcoder 51b, a storage unit 51c, and a communication unit 51d. The control unit 51a, the transcoder 51b, and the storage unit 51c correspond to the control unit 21, the transcoder 23a, and the storage unit 13 of the first embodiment, respectively.

The communication unit 51d is a circuit for communication with the router 52. The control unit 51a transmits recorded data such as a plurality of recorded programs recorded on the television receiver 53, the recorder 54, the music server 55, the smartphone 56, and the like, and a plurality of songs recorded on the music server 55 via the router 52. Then, when the transcoder 51b is free, it is compressed and stored in the storage unit 51c, or transmitted to the television receiver 53, the recorder 54, or the like.

The control unit 51a includes a CPU, a ROM, and the like, and the ROM stores the same compression conversion control program CCP as in FIG. 2. As shown in FIG. 3, the compression conversion control program CCP included in the control unit 51a includes a management unit 41, an extraction unit 42, a determination unit 43, and a compression conversion unit 44.

The management unit 41 of the present embodiment manages the operation of the transcoder 51b. The extraction unit 42 of the present embodiment extracts one or two or more compression candidates in a predetermined order from a plurality of recorded data including video information or audio information. The determination unit 43 of the present embodiment determines whether the extracted one or more compression candidates can be data-compressed by the operable transcoder 51b. The compression conversion unit 44 as the compression conversion control unit performs compression conversion of the recorded data determined by the determination unit 43 to be able to compress the data.

Therefore, the control unit 51a compresses and converts the recorded program data, music data, etc. specified by the user by using the transcoder 51b when the transcoder 51b is free, and stores it in the storage unit 51c. Can be done.

In the compression device 51, the management unit 41 confirms the free state of the transcoder 51b, and the extraction unit 42 communicates with the television receiver 53, the recorder 54, and the music server 55 to extract the recorded data scheduled to be compressed and converted, and determines. The unit 43 determines whether the transcoder 51b can be used for the compression conversion process, and the compression conversion unit 44 compresses and converts the recorded data of the compression change schedule extracted when the transcoder 51b can be used for the compression conversion process. Is stored in the storage unit 51c.

Further, the compression device 51 acquires video data and audio data recorded in the device 63 mounted on the automobile 62 via the network 61, and transmits the compression-converted video data and the like to the device 63 via the network 61. You can also do it.

Furthermore, the compression device 51 downloads the video information data and the like recorded on the server 64a on the cloud 64 of the Internet, executes the compression conversion process described above, and stores the video information data and the like in the storage unit 51c or the server 64a. You may.

The compression-converted video data and the like are transmitted from the communication unit 51d to external devices such as the recorder 54, the device 63, and the server 64a. That is, the compression device 51 has a communication unit 51d for transmitting the recorded data compressed and converted by the compression conversion unit 44 to an external device via the networks 52 and 61.

As described above, according to the above-described embodiment, it is possible to provide a compression device capable of efficiently performing the compression conversion processing of the recorded data and hardly causing a state in which the compression conversion of the recorded data is not performed forever. it can.

Modifications 1, 2 and 3 of the first embodiment can also be applied to the second embodiment.

As described above, according to the above-described embodiments and modifications, the receiving device can efficiently perform the compression conversion processing of the recorded data, and is unlikely to be in a state where the compression conversion of the recorded data is not performed forever. , Compressors and programs can be provided.

As a computer program product, the compression conversion control program CCP that executes the operations described above is recorded in whole or in part on a portable medium such as a flexible disk or a CD-ROM or a storage medium such as a hard disk. Or it is remembered. The program is read by a computer and all or part of its operation is performed. Alternatively, the program in whole or in part can be distributed or provided via a communication network. The user can easily realize the receiving device and the compression device of the present invention by downloading the program via a communication network and installing the program on the computer, or installing the program on the computer from a recording medium.

Although some embodiments of the present invention have been described, these embodiments are exemplary by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof.

1 Receiver, 11 Input, 12 Recording, 13 Storage, 14 Video Display Panel, 15 Interface, 16 Television Receiver, 17 Compressed Work Memory, 21 Control, 21b Memory, 22 Playback, 22a Signal Detection Separation Unit, 22b decoder, 23 recording unit, 23a transcoder, 41 management unit, 42 extraction unit, 43 judgment unit, 44 compression conversion unit, 51 compression device, 51a control unit, 51b transcoder, 51c storage unit, 51d communication unit, 52 routers, 53 television receivers, 54 recorders, 55 music servers, 56 smartphones, 57 network devices, 61 networks, 62 automobiles, 63 devices, 64 clouds, 64a servers.

Claims (9)

A receiver that has a transcoder that compresses data.
A management unit that manages the operation of the transcoder,
An extraction unit that extracts one or two or more compression candidates in a predetermined order from a plurality of recorded data including at least one of video information and audio information.
A determination unit for determining whether the extracted one or more compression candidates can be compressed with the data by the operable transcoder.
Has a receiving device. When the transcoder becomes operable based on the operation of the transcoder managed by the management unit, the extraction unit extracts the one or two or more compression candidates, and the determination unit extracts the extracted compression candidates. The receiving device according to claim 1, wherein it is determined whether or not one or two or more compression candidates can be compressed by the transcoder. The recorded data is recorded program data in which a broadcast signal is recorded, and is
When the transcoder becomes operable based on the operation of the transcoder managed by the management unit, the determination unit starts executing the next recording reservation after the transcoder becomes operable. The receiving device according to claim 1 or 2, wherein it is determined whether or not the extracted compression candidates of 1 or 2 or more can be compressed by the transcoder within the time period up to. It has a compression conversion control unit that controls the transcoder, and has a compression conversion control unit.
When the transcoder becomes operable based on the operation of the transcoder managed by the management unit, the determination unit starts executing the next recording reservation after the transcoder becomes operable. When it is determined that there are a plurality of compression candidates capable of compressing the data within the time period until the data is compressed, the compression conversion control unit identifies one compression candidate according to a predetermined priority and performs the compression conversion. The receiving device according to claim 3, wherein the transcoder is controlled as described above. The receiving device according to any one of claims 1 to 4, wherein the management unit enables the transcoder to operate when the power of the receiving device is off. The receiving device according to any one of claims 3 to 5, wherein the receiving device is a television receiver or a recorder. A compression device that has a transcoder that compresses data.
A management unit that manages the operation of the transcoder,
An extraction unit that extracts one or two or more compression candidates to be compressed in a predetermined order from a plurality of recorded data including video information or audio information.
A determination unit for determining whether the extracted one or more compression candidates can be compressed with the data by the operable transcoder.
A compression conversion control unit that performs compression conversion of the recorded data of the compression candidate determined by the determination unit to be able to compress the data, and a compression conversion control unit.
Has a compression device. The compression device according to claim 7, further comprising a communication unit for transmitting the recorded data compressed and converted by the compression conversion control unit to an external device via the network. A function to manage the operation of the transcoder that compresses data, and
A function to extract one or two or more compression candidates in a predetermined order from a plurality of recorded data including video information or audio information, and
A function of determining whether or not the extracted one or more compression candidates can be compressed by the operable transcoder.
A program that lets a computer run.

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