JP2008079047A - Data reproducing device, data reproduction method and data reproduction program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To attain a data-reproducing device, a data reproduction method and a data reproduction program by which userfriendliness is improved. <P>SOLUTION: A music part section, equivalent to a music part, is specified in program data BD that is being reproduced, while receiving and reproducing the program data BD that includes the music part in the output of a radio program, the specified music part section is stored temporarily as music part section data, when an instruction is input, while the program data BD is reproduced; the temporarily stored music part section data is read, thereby, the read music part section data is reproduced and listened to, by reading the music part section data from a temporary storage part 22, even if the music part section data is already reproduced as a part of the program data BD in the reproduction of the program data BD, or the music part section data is recorded and listened to at a later time and thus, userfriendliness is improved. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a data reproduction apparatus, a data reproduction method, and a data reproduction program, and is applied to, for example, a data reproduction apparatus that reproduces program data of a radio program broadcast by a radio broadcast station (hereinafter referred to as a radio station). Is preferred.

A conventional data reproducing apparatus receives a radio program broadcast from a radio station as program data. In such program data, character information related to the music data is continuously multiplexed from the beginning to the end of the section of the music data as a part of the program data. In addition, a desired keyword is input to the data reproducing apparatus in advance for comparison with character information multiplexed in program data. Further, when the data reproducing apparatus receives the program data, it compares the keyword with the character information multiplexed in the program data, and detects the section in the program data where the character information matching the keyword is multiplexed. At the same time, the section data detected from the program data (hereinafter referred to as section data) is cut out and recorded. The data reproducing apparatus reproduces and provides the recorded section data in response to a request from the outside (see, for example, Patent Document 1).
JP 10-51337 A

  However, even if the data reproducing apparatus having such a configuration includes a section corresponding to a user-desired portion in the program data, if the corresponding keyword is not set in advance, the data in that section can be recorded. Can not. In addition, for example, when the user relies on recording of segment data using keywords, there is a case in which the user's desired part may be heard and the usability is poor.

  The present invention has been made in view of the above points, and realizes a data reproducing apparatus, a data reproducing method, and a data reproducing program that can improve usability.

  In order to solve such a problem, in the present invention, a receiving unit that receives broadcast data including a music part, a reproducing unit that reproduces broadcast data received by the receiving unit, and a reproducing unit that is receiving the receiving unit while receiving the broadcast data. A section specifying unit for specifying a music part section corresponding to a music part in the broadcast data, and a temporary storage for temporarily storing the music part section specified in the broadcast data by the section specifying unit as music part section data A command is input via the input unit when the broadcast data is being reproduced by the reproduction unit, the reading unit for reading out the music partial section data from the temporary storage unit, the input unit used for inputting the command, and the reproduction unit And a control unit for controlling the reading unit so as to read the music partial section data from the temporary storage unit.

  Therefore, according to the present invention, while receiving and reproducing broadcast data including a music portion, the music portion section corresponding to the music portion is specified in the reproduced broadcast data, and the specified music portion section is recorded as music. When a command is input while the broadcast data is being reproduced and temporarily stored as partial section data, the music section section data that has been temporarily stored is read out so that the music portion can be Even if the section data has already been reproduced as part of the broadcast data, by reading the music part section data from the temporary storage unit, the read music part section data can be reproduced and heard, or such music part You can record the section data and listen to it later.

  According to the present invention, while receiving and reproducing broadcast data including a music part, the music part section corresponding to the music part is identified in the reproduced broadcast data, and the identified music part period is Temporary storage as music partial section data, and when a command is input while broadcast data is being played, the music partial section data that has been temporarily stored is read, so that when playing broadcast data, music Even if the partial section data has already been reproduced as part of the broadcast data, by reading the music partial section data from the temporary storage unit, the read music partial section data can be reproduced and heard, or such music A data reproducing apparatus, a data reproducing method, and a data reproducing program capable of recording partial section data and hearing them later, thus improving usability It can be current.

  Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

(1) First Embodiment (1-1) Outline of First Embodiment In FIG. 1, 1 shows an outline of the configuration of a data reproducing apparatus according to the first embodiment as a whole. The receiving unit 2 of the data reproducing apparatus 1 receives broadcast data including a music part. Further, the reproduction unit 3 of the data reproduction device 1 reproduces the broadcast data received by the reception unit 2. Further, the section specifying unit 4 of the data reproducing apparatus 1 specifies a music part section corresponding to the music part in the broadcast data being played back by the playing unit 3 while being received by the receiving unit 2. Furthermore, the temporary storage unit 5 of the data reproducing apparatus 1 temporarily stores the music partial section specified in the broadcast data by the section specifying unit 4 as music partial section data. Further, the reading unit 6 of the data reproducing apparatus 1 reads the music partial section data stored in the temporary storage unit 5. Further, the input unit 7 of the data reproducing apparatus 1 receives an input from the outside. Further, the control unit 8 of the data reproducing device 1 is configured to read out the music partial section data from the temporary storage unit 5, the input unit 7 used for inputting commands, and the reproducing unit 3 when the reproducing data is being reproduced. When the command is input via the input unit 7, the reading unit 6 is controlled so as to read the music partial section data from the temporary storage unit 5. With this configuration, the data reproduction device 1 reads the music partial section data by reading the music partial section data from the temporary storage unit even when the music partial section data has already been reproduced as part of the broadcast data when the broadcast data is reproduced. The music partial section data can be reproduced and listened to, or such music partial section data can be recorded and listened later, thus improving the usability.

(1-2) Detailed Configuration of Data Reproducing Device According to First Embodiment Next, a detailed hardware configuration of the functional circuit block of the data reproducing device 10 will be described with reference to FIG.

  The data reproduction apparatus 10 is provided with a control unit 24, and the control unit 24 controls the entire data reproduction apparatus 10 in an integrated manner. Thus, when the radio station is selected via the input unit 12 and the output of the radio program is requested, the receiving unit 11 of the data reproducing apparatus 10 is selected by the user from among the radio broadcast waves of the plurality of radio stations. The radio broadcast wave corresponding to the radio program of the radio station is extracted, subjected to predetermined reception processing such as demodulation processing, and the program signal of the radio program obtained as a result is sent to the data generation unit 13. The data generation unit 13 generates program data by performing digital processing such as analog-digital conversion processing and equalizing processing on the program signal given from the reception unit 11. At this time, the program data includes, for example, a music portion corresponding to music played in a radio program, a conversation portion corresponding to conversation, and the like. Here, the conversation in the radio program refers to talks between the moderator and guests, words spoken by the news and traffic information and weather usage casters, conversations and lines contained in commercials, rakugo and reading, etc. . Then, the data generation unit 13 sends the generated program data to the reproduction unit 14. The reproducing unit 14 performs analog processing such as digital-analog conversion processing and amplification processing (that is, reproduces) on the program data. As a result, the playback unit 14 obtains a program signal in accordance with the analog processing and sends the program signal to the output unit 15 so that the output unit 15 outputs the radio program sound based on the program signal and listens to the user. Let In this way, the data reproducing apparatus 10 can allow the user to listen to a radio program broadcast on a desired radio station.

  In addition, when a radio station is selected via the input unit 12 and recording of a radio program is requested, the receiving unit 11 extracts a radio broadcast wave and performs predetermined reception processing such as demodulation processing as described above. The program signal of the radio program obtained as a result is sent to the data generator 13. The data generation unit 13 performs digital processing on the program signal given from the reception unit 11, and sends the program data obtained as a result to the recording unit 16. The recording unit 16 records the program data given from the data generation unit 13 as a data file. In this way, the data reproducing apparatus 10 can record a radio program broadcast on a desired radio station.

  Thereafter, when the recording unit 16 of the data reproducing apparatus 10 is requested to reproduce the program data via the input unit 12, the recording unit 16 reads out the program data requested to be reproduced and sends it to the reproducing unit 14. The reproduction unit 14 performs analog processing such as digital-analog conversion processing and amplification processing on the program data given from the recording unit 16. As a result, the playback unit 14 obtains a program signal in accordance with the analog processing and sends the program signal to the output unit 15, thereby outputting a radio program based on the program signal from the output unit 15 to allow the user to listen to the program signal. In this way, the data reproducing apparatus 10 can make the user listen to the recorded radio program.

  Further, the display unit 17 of the data reproducing apparatus 10 displays various screens related to output and recording of radio programs, etc., read from a memory (not shown) and the recording unit 16 according to execution results of various programs such as output and recording of radio programs. Thus, the user can visually recognize it.

  In addition to such a configuration, the data reproducing apparatus 10 is provided with a curvature detection unit 18. The music likeness detection unit 18 detects the music likeness by quantifying how much the program data generated by the data generating unit 13 seems to be music (that is, music) at the time of recording a radio program.

  Here, a method of detecting the bendability by the bendness detection unit 18 will be described. This curvature detection method uses the fact that music and conversation have different energy distributions for each frequency band corresponding to 12 octaves of one octave. In other words, the curiosity detection method uses program data as data in a predetermined processing unit (for example, program data corresponding to about 1 second of a radio program, hereinafter referred to as processing unit data) in each frequency band of each of 12 scales. The energy is extracted, and the curvature is detected based on the extraction result.

  As a result, the curvature detection unit 18 starts a curvature detection process according to a curvature detection program stored in advance in a memory (not shown). When the curvature detection unit 18 starts the curvature detection process, the curvature detection unit 18 extracts energy for each frequency band corresponding to each of the 12 scales of one octave from the processing unit data in the program data supplied from the data generation unit 13. . Then, when the curvature detection unit 18 obtains energy for each processing unit data, the curvature detection unit 18 performs a curvature digitization process based on the energy for each frequency band. As a result, the music likeness detection unit 18 detects the music likeness MS that expresses how much music (that is, music) is expressed for each processing unit data of the program data. This curvature MS is relatively large in a radio program where music is dominant, and relatively small where a human voice is dominant.

  In addition to this, when the curvature digitization process is executed, the curvature detection unit 18 uses instruments, chords, and tempos used for music performance based on the energy for each frequency band over the entire music data. Etc. to detect various information. Then, based on the detection result, the curiosity detection unit 18 corresponds to a characteristic part called “rust” of music based on the music data (hereinafter referred to as a characteristic part) in the music data. Feature section information indicating a section (for example, a section from the beginning to the end of “rust”, hereinafter referred to as a feature section) is also detected.

  Next, the curiosity detection unit 18 cyclically repeats the above-described processing until the curvature MS and the feature section information are detected for the processing unit data of the entire program data. When the detection of the curvature MS and the feature section information for the processing unit data of the entire program data is completed, the curvature likelihood detection unit 18 ends the curvature characteristic detection process.

  In this way, the curiosity detection unit 18 sequentially detects the curiosity MS and the feature section information for each processing unit data of the program data.

  In addition, the data reproduction device 10 is provided with a volume level detector 19. The volume level detection unit 19 detects the volume level of the program data generated by the data generation unit 13 when recording a radio program. Incidentally, the detection of the sound volume level by the sound volume level detection unit 19 is performed every time of about 1/128 seconds of the radio program.

  Further, the data reproducing apparatus 10 is provided with a section specifying unit 20. The section specifying unit 20 generates program data generated by the data generation unit 13 in accordance with the music level detected by the music level detection unit 18 and the volume level detected by the volume level detection unit 19 when the radio program is recorded. Among them, a music part section corresponding to a music part and a conversation part section corresponding to a conversation part are specified.

  Further, the data reproducing apparatus 10 is provided with a dividing unit 21. The dividing unit 21 divides each music partial section and conversation partial section of the program data specified by the section specifying unit 20 during recording of the radio program from the program data as music partial section data and conversation partial section data, respectively. Has been made.

(1-3) Divided recording of radio program Hereinafter, a radio program that specifies a music part and a conversation part in the program data, and divides and records each specified conversation part and each conversation part. The divided recording process will be described in detail.

  When a radio station is selected via the input unit 12 and the reception unit 11 is requested to divide and record a radio program for each section, the reception unit 11 starts a radio program division recording process, and performs the radio program as described above. The radio broadcast wave of the station is extracted and subjected to predetermined reception processing such as demodulation processing, and the program signal of the radio program obtained as a result is sent to the data generation unit 13. The data generation unit 13 performs digital processing on the program signal given from the reception unit 11, and the program data generated as a result is sent to the bendness detection unit 18, volume level detection unit 19, and division unit 21 for each processing unit data. Send it out.

  When the processing unit data is given from the data generation unit 13, the curvature likelihood detection unit 18 detects the curvature MS and the feature section information for the entire program data. Then, the bendness detecting unit 18 sends the bendability MS and the feature section information detected in this way to the section specifying unit 20.

  When the processing unit data is given from the data generation unit 13, the volume level detection unit 19 detects the volume level VS in the processing unit data at intervals of about 1/128 seconds. Is detected for the entire program data. Then, the volume level detection unit 19 sends the volume level VS detected in this way to the section identification unit 20.

  The section specifying unit 20 includes the program data generated by the data generating unit 13 in accordance with the music MS sent from the music detecting unit 18 and the volume level VS sent from the volume level specifying unit 19. The mixed music part section and the conversation part section are specified, and the section specifying information DI as a result of specifying the section is generated and sent to the dividing unit 21 together with the feature section information. For example, when the program data corresponding to the radio program is shown along the processing time axis, the section specifying information DI is “a section between the position of 4515 msec and the position of 100657 msec is a music partial section (0 and 1). 1) when binarized, and the section between the position of 100657 msec and the position of 253594 msec is a conversation part section (0 when binarized with 0 and 1). " This is information for specifying a music partial section and a conversation partial section that are mixed together. Here, the position (information) added to the section specifying data DI is specifically a position indicating a boundary (that is, a section boundary) between the music part section and the conversation part section in the program data. That is, the section specifying unit 20 specifies a section boundary in the program data, and determines whether the section boundary is a music section section or a conversation section section, so that a music portion mixed in the program data is included. A section and a conversation part section are specified, section specifying information DI as a specifying result thereof is generated, and sequentially sent to the dividing unit 21 together with the feature section information.

  In accordance with the section specifying information DI sent from the section specifying section 20, the dividing section 21 divides each music partial section and each conversation partial section mixed in the program data sent from the data generating section 13 respectively. At the same time, the feature section in the music partial section of the program data is specified according to the feature section information. When the dividing unit 21 specifies the music partial section of the program data, the dividing unit 21 divides a piece of data forming the music partial section of the program data as music partial section data and sends it to the recording unit 16. On the other hand, when the conversation part section of the program data is specified, the dividing unit 21 divides a group of data forming the conversation part section of the program data as the conversation part section data and sends it to the recording unit 16.

  The recording unit 16 divides and records the program data for each section so as to sequentially record each music partial section data and each conversation partial section data given from the dividing section 21 as separate data files. When the end of recording of the radio program is requested via the input unit 12, the radio program divided recording process is terminated.

  In this way, the data reproducing apparatus 10 divides the program data into the music partial section data and the conversation partial section data and records them in the recording unit 16 during the radio program divided recording process. Accordingly, when the data reproducing apparatus 10 reproduces the recorded program data, the music portion recorded in a divided manner without causing the user to reproduce the program data in order from the top and confirm the contents of the program data. By directly accessing and reproducing the section data and the conversation partial section data, the user can check the contents of the music partial section data and the conversation partial section data.

  Further, when the data reproducing apparatus 10 specifies the music partial section and the conversation partial section in the program data, the data reproducing apparatus 10 further specifies a characteristic section in the music partial section of the program data. Therefore, if a request for reproducing the characteristic section of the music part section of the program data (that is, the section corresponding to the “sabi” of the music part of the radio program) is input, the data reproduction apparatus 10 receives the radio according to the input. Only the “sabi” of the music portion of the program can be output and listened to by the user.

(1-4) Identification of Program Data Section Next, the section specifying unit 20 specifies a music part section and a conversation part section mixed in the program data according to the music MS and the volume level VS. The method to do is explained in full detail.

  First, the functional circuit configuration of the section specifying unit 20 will be described with reference to FIG. In the section specifying unit 20, a section specifying control unit 31 is provided. The section specifying control unit 31 controls and controls the signal and data exchange in the section specifying unit, and also includes a music part in the program data. The section specifying information DI is generated by finally specifying the section and the conversation partial section.

  The section specifying unit 20 is provided with an input processing unit 32. The input processing unit 32 receives the input of the bendness MS sent from the bendness detection unit 18 and the volume level VS sent from the volume level detection unit 19, and the bendability MS and volume that have received the input. The level VS is sent to the section specifying control unit 31 for each predetermined unit processing data.

  Further, the section specifying unit 20 is provided with a bendness analysis processing unit 33. The curvature analysis processing unit 33 changes the curvature MS obtained through the section specifying control unit 31 to be equal to or greater than a predetermined determination threshold (hereinafter, the curvature MS is equal to or greater than the determination threshold). Or that the curvature MS changes to less than that is simply said that the curvature MS exceeds the discrimination threshold), and sends the detection result to the section specifying control unit 31.

  Further, the section specifying unit 20 is provided with a volume level analysis processing unit 34. The volume level analysis processing unit 34 analyzes the volume level of the radio program in the program data according to the volume level VS obtained through the section specifying control unit 31. Specifically, the volume level analysis processing unit 34 detects a position LL having the lowest volume level (hereinafter referred to as the lowest volume level position) LL within a predetermined range of program data under the control of the section specifying control unit 31. Or a section (hereinafter referred to as a silent section) LS in which a volume level VS (that is, silence) lower than a predetermined threshold is continued for a predetermined time (for example, 1.5 seconds) or more is detected. The detection result is sent to the section identification control unit 31. Incidentally, the minimum volume level position LL and the silent section LS are highly likely to be positions (that is, boundaries) where the sections switch in the program data, and serve as specific important clues for the sections.

  Further, the section specifying unit 20 is provided with an output processing unit 35. The output processing unit 35 acquires the section specifying information DI as a section specifying result generated by the section specifying control unit 31 and sends it to the dividing unit 21.

  As a result, when the bend MS and the volume level VS are input to the input processing unit 32, the section specifying control unit 31 in the section specifying unit 20 sends the bend MS to the bend analysis processing unit 33. The volume level VS is also sent to the volume level analysis processing unit 34. The curvature analysis processing unit 33 detects that the curvature MS exceeds the discrimination threshold under the control of the section identification control unit 31, and sends the detection result to the section identification control unit 31. The volume level analysis processing unit 34 detects the lowest volume level position LL and the silent period LS under the control of the section specifying control unit 31, and sends the detection result to the section specifying control unit 31. In this way, the section identifying control unit 31 obtains the curvature MS and the volume level VS that change along the processing time axis AX1, for example, as shown in FIG.

  Here, there are, for example, four types of section specifying methods in the program data by the section specifying control unit 31, and any section specifying method can be executed by selecting. Hereinafter, the first to fourth section specifying methods will be described in order.

  In the case of the first section specifying method, the section specifying control unit 31 starts from the first state corresponding to the curvature MS when specifying the music partial section and the conversation partial section as shown in FIG. Four processing states up to four states are taken, and transition is made between the four processing states in accordance with the curvature MS sent from the curvature analysis processing unit 33. In the first state, the current curvature MS is less than a determination threshold (for example, in such a configuration, the curvature MS is represented by a numerical value from 0 to 1 and the determination threshold is 0.5, for example). Depending on the situation, it is determined that the part corresponding to the music likelihood MS in the program data is the conversation part section (that is, the conversation in the radio program) (hereinafter referred to as the conversation confirmed state). Called TD). The second state is that the portion corresponding to the curiosity MS in the program data is switched from the conversation part section to the music part section when the curiosity MS is equal to or greater than the discrimination threshold in the conversation confirmation state TD. Transition from the confirmed conversation state TD to determine whether or not there is a boundary between sections, assuming that there is a possibility that the conversation has once ended in the radio program and music may have started to be played. (Hereinafter, this is referred to as a music assumed state MK). In the third state, when the current music likelihood MS is equal to or greater than the discrimination threshold, the portion corresponding to the music MS in the program data is a music partial section (that is, music in a radio program). (Hereinafter, this is referred to as a music confirmation state MD). In the fourth state, when the music MS is less than the discrimination threshold in the music confirmation state MD, the part corresponding to the music MS in the program data may be switched from the music part section to the conversation part section. Transition from the music confirmation state MD to determine whether or not there is a boundary between sections, assuming that there is a possibility that music has ended in the radio program and that conversation may have started to flow. Processing state (hereinafter referred to as a conversation assumed state TK).

  As a result, the section specifying control unit 31 transitions the processing state starting from the fact that the curvature MS exceeds the discrimination threshold in the conversation confirmed state TD and the music confirmed state MD, so that the music part section and the conversation part section of the program data are changed. Has been made to identify. Hereinafter, the description will be divided into a case in which the curvature MS changes in the conversation determination state TD to be equal to or greater than the determination threshold and a case in which the curvature MS in the music determination state MD changes below the determination threshold.

(1-4-1) In the case where the bend is changed to be greater than or equal to the determination threshold in the conversation finalized state First, as shown in FIG. 4, for example, the section identification control unit 31 has a bend MS less than the determination threshold. When it is transmitted from the computer 33, it is determined that the conversation is a radio program conversation, and the processing state is changed to the conversation confirmed state TD. As long as there is, the conversation confirmed state TD is continued. In addition, the section specifying control unit 31 ends the conversation in the radio program when the bendness MS newly sent from the bendiness analysis processing unit 33 becomes equal to or greater than the discrimination threshold in the conversation confirmation state TD. Conversation in program data, starting from detecting the range of the conversation part section switched to the music part section in the program data by the melody MS according to the possibility that music has started to be played A first range detection section specifying process for specifying a partial section and a music partial section is started.

  When the section identification control unit 31 starts the first range detection section identification process, the section position is changed to a reference position (hereinafter referred to as a reference position) that changes the processing state in response to the change in the curvature MS on the program data exceeding the determination threshold value. There is a possibility that a range having a width of several seconds around the processing time axis AX1 centered on the SP is called a state transition position, and is a boundary that is switched from the conversation part section to the music part section in the program data. It is detected as a high range (hereinafter referred to as a section boundary candidate range) SA. Then, the section specifying control unit 31 detects the lowest volume level position LL in the detected section boundary candidate range SA by the volume level analysis processing unit 34, and the detected lowest volume level position LL in the program data. Stored in a memory (not shown) as a position KP (hereinafter referred to as a section boundary candidate position) that is likely to be a boundary where the section is switched from the conversation partial section to the music partial section. Then, the section identifying control unit 31 transitions the processing state from the conversation confirmed state TD to the music assumed state MK.

  In the music assumed state MK, the section specifying control unit 31 determines that the numerical value of the curvature MS transmitted from the curvature analysis processing unit 33 during a predetermined determination time (hereinafter referred to as a music assumption determination time) is a determination threshold value. It is monitored whether it is above. This music assumption determination time is set to a time length that does not specify, for example, a bell sound or a part of music inserted during a radio program conversation for a short time as a music partial section of program data (in this case) For example 30 seconds).

  In the music assumed state MK, the section identifying control unit 31 measures a time Tm during which the music assumed state MK is continued (hereinafter referred to as a music assumed duration) Tm until it changes beyond the music assumed determination time. If the numerical value of the new curvature MS sent from the curvature analysis processing unit 33 changes below the discrimination threshold during this period, for example, a bell sound or a part of music is inserted into the conversation part of the radio program for a short time. In response to this, it is determined that the bend MS has only exceeded the determination threshold for a short time, and the processing state is changed to return from the assumed music state MK to the conversation confirmed state TD. In addition, in the music assumption state MK, the section identification control unit 31 continues the curvature MS that is equal to or greater than the determination threshold from the curvature analysis processing unit 33 until the music assumption duration Tm changes to the music assumption determination time or more. If it is given, the judgment is suspended and the music assumed state MK is continued. Further, in the music assumption state MK, the section identification control unit 31 determines that the music assumption duration time Tm is equal to or longer than the music assumption determination time while the numerical value of the music likeness MS continues to exceed the determination threshold value. It is determined that the conversation has ended and music has started to be played, the section boundary candidate position KP is identified as the section boundary, and the front side of the program data is identified as the conversation partial section in time series from the section boundary. At the same time, the part behind the section boundary is specified as the music partial section in time series. Then, the section specifying control unit 31 transitions the processing state from the music assumed state MK to the music confirmed state MD, ends the first range detection section specifying process, and generates section specifying information DI as a section specifying result. To the dividing unit 21 via the output processing unit 35.

  In this way, the section specifying control unit 31 specifies the conversation part section and the music part section of the program data in accordance with the curiosity MS and the volume level VS during the first range detection section specifying process. That is, the section specifying control unit 31 can detect that the conversation part section and the music part section are switched in the program data, but sets a specific boundary between the conversation part section and the music part section of the program data. Although it is possible to specify a specific boundary between the difficult-to-identify tune MS and the conversation part and the music part of the program data, it is detected that the conversation part and the music part of the program data are switched. By specifying the conversation part section and the music part section of the program data according to the difficult volume level VS, the conversation part section and the music part section of the program data can be specified with high accuracy.

  In addition, during the first range detection section specifying process, the section specifying control unit 31 detects the section boundary candidate range SA in response to the curvature MS changing to be greater than or equal to the determination threshold, and includes the section boundary candidate range SA. Then, the section boundary candidate position KP is detected in response to the volume level VS being lowered, and the position of the program data switched from the conversation part section to the music part section is specified. Therefore, the section specifying control unit 31 can switch only the music when the radio program conversation and the music are switched without sandwiching the silent section LS, or when the radio program conversation and the music are partially switched. If there is a change in the volume level VS at the position where the flow starts, a range of continuous switching from conversation to music in the radio program is detected in accordance with the change in the curvature MS beyond the discrimination threshold. In the detected range, the position where only the music starts to be played in the radio program is detected according to the decrease in the volume level VS, and the conversation part section and the music part section of the program data are detected. Can be identified. In that case, the section specifying control unit 31 can avoid the tail of the conversation part section from being included at the head of the finally specified music part section of the program data.

  Further, during the first range detection section specifying process, the section specifying control unit 31 changes the processing state from the conversation confirmed state TD to the music assumed state MK in response to the change of the curvature MS beyond the determination threshold. If the curvature MS changes below the discrimination threshold before the assumed discrimination time elapses, it is determined that the conversation is continuing in the radio program, and the processing state is changed from the music assumed state MK to the conversation confirmed state TD. Return to. Therefore, when a bell sound or a part of music is inserted for a short time during the conversation of the radio program, the section specifying control unit 31 plays the program data section corresponding to the inserted short time music. It can be part of a conversation partial section without being specified as a partial section. Instead of simply specifying the music partial section and the conversation partial section of the program data by music or conversation, the conversation in the radio program It is possible to specify the music partial section and the conversation partial section of the program data so as to form a group that makes sense as music.

(1-4-2) When the curvature changes below the determination threshold in the music determination state Next, for example, as illustrated in FIG. 6, the section identification control unit 31 performs a curvature analysis process for a curvature MS that is equal to or greater than the determination threshold. When it is transmitted from the unit 33, it is determined that the program is music of a radio program, the processing state is changed to the music confirmation state MD, and the music likelihood MS newly transmitted from the curvature analysis processing unit 33 is equal to or greater than the determination threshold. As long as it is, the music confirmation state MD is maintained. In addition, in the music determination state MD, the section specifying control unit 31 ends the music in the radio program when the music likelihood MS newly sent from the music analysis processing unit 33 becomes less than the discrimination threshold. The music partial section of the program data starting from detecting the range in which the music partial section is switched to the conversation partial section in the program data according to the possibility that the conversation has started to flow And a second range detection section specifying process for specifying the conversation partial section.

  When the section specifying control unit 31 starts the second range detection section specifying process, the section boundary candidate range SA having a width of about several seconds around the processing time axis AX1 around the state transition position SP on the program data. Is detected. Further, the section specifying control unit 31 detects the lowest volume level position LL in the detected section boundary candidate range SA by the volume level analysis processing unit 34, and uses the detected lowest volume level position LL as the section boundary candidate position KP. Store in a memory (not shown). Then, the section identification control unit 31 transitions the processing state from the music confirmation state MD to the conversation assumed state TK.

  The section specifying control unit 31 determines that the numerical value of the bendness MS transmitted from the bendiness analysis processing unit 33 during a predetermined determination time (hereinafter, referred to as the assumed conversation determination time) in the assumed conversation state TK is a determination threshold value. It is monitored whether it is less than. This conversation assumption determination time is set to a time length that does not specify, for example, a singer's speech inserted in a genre of music such as hip-hop for a short time as a conversation part section of program data (this (For example, 20 seconds).

  In the assumed conversation state TK, the section identifying control unit 31 measures a time Tn during which the assumed conversation state TK is continued (hereinafter referred to as a assumed conversation duration) Tn and changes to a conversation assumption determination time or longer. If the numerical value of the new mellowness MS sent from the melody analysis processing unit 33 changes beyond the discrimination threshold, this is because, for example, a singer's speech is inserted into the music of the radio program for a short time. In response to this, it is determined that the curvature MS has only become less than the determination threshold value for a short time, and the processing state is changed to return from the conversation assumed state TK to the music determination state MD. Further, in the conversation assumption state TK, the section identification control unit 31 continues the bend MS less than the discrimination threshold from the bend analysis processing unit 33 until the conversation assumed duration Tn changes to be equal to or greater than the conversation assumption determination time. If so, the determination is suspended and the conversation assumed state TK is continued. Further, in the assumed conversation state TK, the section identifying control unit 31 determines that the conversation assumed duration time Tn is equal to or longer than the assumed conversation determination time while maintaining the numerical value of the curvature MS below the determination threshold value. It is determined that the music has ended once and the conversation has started to be played, the section boundary candidate position KP is specified as the section boundary, and the front side of the program data in time series from the section boundary is specified as the music partial section At the same time, the back side of the interval boundary is specified as the conversation partial interval. Then, the section specifying control unit 31 changes the processing state from the conversation assumed state TK to the conversation confirmed state TD, ends the second range detection section specifying process, and generates section specifying information DI as a section specifying result. To the dividing unit 21 via the output processing unit 35.

  In this way, the section specifying control unit 31 specifies the music part section and the conversation part section of the program data according to the curiosity MS and the volume level VS during the second range detection section specifying process. That is, the section specifying control unit 31 can detect that the music part section and the conversation part section are switched in the program data, but sets a specific boundary between the music part section and the conversation part section of the program data. Although it is possible to identify the specificity between the music difficulty section MS that is difficult to identify and the music part section and the conversation part section of the program data, it is detected that the music part section and the conversation part section of the program data are switched. By specifying the music part section and the conversation part section of the program data according to the difficult volume level VS, the music part section and the conversation part section of the program data can be specified with high accuracy.

  In addition, during the second range detection section specifying process, the section specifying control unit 31 detects the section boundary candidate range SA in response to the curvature MS changing to be less than the determination threshold, and includes the section boundary candidate range SA. Then, the boundary boundary candidate position KP is detected in response to the volume level VS being lowered, and the boundary where the music data section of the program data is switched to the conversation part section is specified. Therefore, the section identification control unit 31 plays the conversation when the radio program music and the conversation are switched without sandwiching the silent section LS, or when the radio program music and the conversation are switched with only a part of the overlap. If there is a fluctuation in the volume level VS at the position where the music is started, the range of continuous switching from music of the radio program to conversation is detected according to the change in the curvature MS below the discrimination threshold, and the detection In response to the volume level VS being lowered, the position where the conversation starts to flow in the radio program (that is, the position where the section where only music is played in the radio program ends) is reduced. And the music partial section and the conversation partial section of the program data can be specified. In that case, the section specifying control unit 31 can avoid the beginning of the conversation partial section from being included in the tail of the finally specified music partial section of the program data.

  Furthermore, during the second range detection section specifying process, the section specifying control unit 31 changes the processing state from the music confirmation state MD to the conversation assumed state TK in response to the change in the curvature MS below the discrimination threshold. If the curvature MS changes to a determination threshold value or more before the assumption determination time elapses, it is determined that music is continuing in the radio program, and the processing state is changed from the conversation assumption state TK to the music determination state MD. Return to. Therefore, when the singer's speech or the like is inserted in the music of the radio program for a short time, the section identification control unit 31 sets the section of the program data corresponding to the inserted short time speech as the conversation partial section. It can be part of a music segment without specifying it, and instead of simply specifying the conversation segment and the music segment in the program data by conversation or music, It is possible to specify the conversation partial section and the music partial section of the program data so as to form a meaningful group.

(1-5) Identification of each section of program data starting from detection of silent section Next, in the case of the second section specifying method, the section specifying control unit 31 is as shown in FIG. 7 and FIG. In addition to the four processing states (conversation confirmed state TD, conversation assumed state TK, music confirmed state MD, and music assumed state MK) of the first section specifying method described above, two new processing states can be taken. Has been made. In one state, when a silent section LS is detected in the conversation finalized state TD, the curving degree MS may be changed to a determination threshold value or more (that is, the conversation ends in the radio program and music starts). Is a state (hereinafter referred to as a music assumption standby state) MKT that temporarily transits as a previous stage of transition from the conversation confirmed state TD to the music assumption state MK (see FIG. 7). The other state is that when the silent section LS is detected in the music confirmation state MD, the curving degree MS may change below the discrimination threshold (that is, the music of the radio program may end and the conversation may start). Is a state that temporarily transits as the previous stage of transition from the music confirmation state MD to the conversation assumption state TK (hereinafter referred to as a conversation assumption standby state) TKT (FIG. 8). .

  Thereby, the section specifying control unit 31 detects the silent section LS in the conversation confirmed state TD, or changes the processing state starting from detecting the silent section LS in the music confirmed state MD, so that the music portion of the program data The section and the conversation part section can be specified. Hereinafter, the description will be divided into a case where a silent section LS is detected in the conversation confirmed state TD (FIG. 7) and a case where the silent section LS is detected in the music confirmed state MD (FIG. 8).

(1-5-1) When Silent Section is Detected in Conversation Confirmation State First, the section specifying control unit 31 sends a curvature MS less than the discrimination threshold from the curvature analysis processing unit 33, for example, as shown in FIG. As long as it is determined that the conversation is a radio program conversation, the processing state is changed to the conversation finalization state TD, and as long as the curvature MS newly transmitted from the curvature analysis processing unit 33 is less than the determination threshold, Maintain the conversation confirmed state TD. Then, the section specifying control unit 31 responds to the possibility that the conversation of the radio program ends and the music starts when the volume level analysis processing unit 34 detects the silent section LS in the conversation finalized state TD. Then, the first silence detection section specifying process for specifying the conversation part section and the music part section of the program data is started with the detection of the silence section LS as a starting point.

  As a result, when the section specifying control unit 31 starts the first silence detection section specifying process, the volume level VS is a sound in the silent section LS detected by the volume level analysis processing unit 34 according to the volume level VS. The position rising to the level is stored as a section boundary candidate position KP in a memory (not shown). Then, the section identifying control unit 31 transitions the processing state from the conversation confirmed state TD to the music assumption standby state MKT.

  In the music assumption standby state MKT, the section specifying control unit 31 is a numerical value of the curvature MS sent from the curvature analysis processing unit 33 during a predetermined determination time (hereinafter referred to as a first standby determination time). Whether or not changes to a threshold value or higher is monitored. Since this first standby determination time is a standby time until the transition to the music assumed state MK, the first standby determination time is set shorter than the music assumed determination time (30 seconds) in the music assumed state MK (in this case, for example, 20 seconds).

  In the music assumption standby state MKT, the section specifying control unit 31 measures the time (hereinafter, referred to as a music assumption standby time) Tr in which the music assumption standby state MKT is continued to be equal to or longer than the first standby determination time. However, if the numerical value of the new curvature MS sent from the curvature analysis processing unit 33 remains below the discrimination threshold, this means, for example, that there was simply silence during a radio program conversation. Accordingly, it is determined that only the silent section LS has been detected, and the processing state is changed from the music assumption standby state MKT to the conversation confirmed state TD. In addition, in the music assumption standby state MKT, the section identification control unit 31 determines that the curvature assumption MS is less than the determination threshold value from the curvature analysis processing unit 33 until the music assumption standby time Tr changes to be equal to or longer than the first standby determination time. Is continuously given, the determination is suspended and the music assumption standby state MKT is continued. Furthermore, in the music assumption standby state MKT, the section specifying control unit 31 determines that the value of the curvature MS changes to a determination threshold value or more before the music assumption standby time Tr changes to the first standby determination time or more. Determines that there is a possibility that the conversation has once ended in the radio program and music has started to be played, and the processing state transitions from the music assumption standby state MKT to the music assumption state MK.

  Then, when the processing state is changed to the assumed music state MK during the first silence detection zone identification process, the zone identification control unit 31 performs the same process as that during the first range detection zone identification process described above, thereby The conversation part and the music part of the data are specified. Then, the section specifying control unit 31 transitions the processing state from the music assumed state MK to the music confirmed state MD, ends the first silence detection section specifying process, and generates section specifying information DI as a section specifying result. To the dividing unit 21 via the output processing unit 35.

  In this way, the section specifying control unit 31 detects the section boundary candidate position KP in response to detecting the silence section LS based on the volume level VS during the first silence detection section specifying process, and then the bendness MS is calculated. A position (that is, a section boundary) at which the conversation part section is switched to the music part section is specified in the program data in accordance with the change beyond the determination threshold. Accordingly, when the silent section LS is inserted between the radio program conversation and the music, the section specifying control unit 31 detects the silent section LS and then checks the value of the curvature MS. It is possible to accurately identify the conversation partial section and the music partial section of the program data.

  Further, in this case, the section specifying control unit 31 may, for example, play music that causes the music quality MS to rise slowly only when the start of the song is very quiet or only a low scale is used. Even if it is included in the program, if the silent section LS is included at the beginning of the music, the conversation part section and the music part section of the program data can be specified.

  Furthermore, the section specifying control unit 31 finally detects the rising position of the silent section LS detected by the volume level analysis processing unit 34 as the section boundary candidate position KP during the first silence detection section specifying process. It is possible to improve the listening comfort when playing back later by minimizing the silent part included at the beginning of the music part section specified in the above.

  Furthermore, the section specifying control unit 31 changes the processing state from the conversation confirmed state TD to the music assumed standby state MKT in response to the detection of the silence section LS during the first silence detection section specifying process, but the music assumed standby time If the curvature MS does not change beyond the determination threshold before Tr elapses, it is determined that the radio program conversation is continuing, and the processing state is returned from the music assumption standby state MKT to the conversation confirmed state TD. To make a transition. That is, when the silent part is inserted for a short time during a radio program conversation, the section specifying control unit 31 determines that the conversation partial section continues without being confused by the inserted silent part. It is possible not to specify the music part section and the conversation part section of the program data simply by the presence or absence of the silent section LS, but to make a meaning as a conversation or music in the radio program. In addition, it is possible to specify the conversation partial section and the music partial section of the program data.

(1-5-2) When Silent Section is Detected in the Music Confirmation State Next, the section specifying control unit 31 determines that the curvature MS greater than the determination threshold is from the curvature analysis processing unit 33 as shown in FIG. When it is transmitted, it is determined that the program is music of a radio program, the processing state is changed to the music confirmation state MD, and as long as the music MS newly transmitted from the music analysis processor 33 is equal to or greater than the determination threshold. The music confirmation state MD is maintained. Then, in the music determination state MD, when the volume level analysis processing unit 34 detects the silent section LS, the section specifying control unit 31 may end the music and start the conversation in the radio program. In response, the second silence detection section specifying process for specifying the music part section and the conversation part section of the program data is started with the detection of the silence section LS as a starting point.

  Thus, when the section specifying control unit 31 starts the second silence detection section specifying process, the volume level VS is sounded in the silence section LS detected according to the volume level VS by the volume level analysis processing unit 34. The position rising to the level is stored as a section boundary candidate position KP in a memory (not shown). Then, the section identification control unit 31 transitions the processing state from the music confirmation state MD to the conversation assumption standby state TKT.

  The section identifying control unit 31 is a numerical value of the bendness MS sent from the bendiness analysis processing unit 33 during a predetermined determination time (hereinafter referred to as a second wait determination time) in the assumed conversation waiting state TKT. Whether or not changes below the discrimination threshold. Since this second waiting determination time is the waiting time until the transition to the assumed conversation state TK, it is set shorter than the assumed conversation determination time (20 seconds) in the assumed conversation state TK (in this case, for example, 10 Seconds).

  In the conversation assumed standby state TKT, the section identifying control unit 31 measures a time Ts during which the conversation assumed standby state TKT is continued (hereinafter referred to as a conversation assumed standby time) Ts and exceeds the second standby determination time. In the case where the curvature MS that is equal to or greater than the determination threshold is continuously given from the curvature analysis processing unit 33 until the change to, the determination is suspended and the music assumption standby state MKT is continued. Further, the section specifying control unit 31 determines that the value of the curvature MS is less than the determination threshold in the conversation assumed standby state TKT until the conversation assumed standby time Ts changes to the second standby determination time or longer. Determines that there is a possibility that the music has ended in the radio program and the conversation has started to flow, and the processing state transitions from the conversation assumption standby state TKT to the conversation assumption state TK.

  And the section specific control part 31 will perform a process similar to the time of the 2nd range detection area specific process mentioned above, if a process state is changed to the conversation assumption state TK at the time of a 2nd silence detection area specific process, and a program will be performed. The music part section and the conversation part section of the data are specified, and the processing state is changed from the conversation assumed state TK to the conversation confirmed state TD.

  On the other hand, as shown in FIG. 11, for example, when the section specifying control unit 31 detects the silent section LS and transitions to the conversation assumed standby state TKT, the conversation assumed standby time Ts changes to be equal to or longer than the second standby determination time. If the numerical value of the new music likeness MS sent from the music likeness analysis processing unit 33 does not change below the discrimination threshold, the music of the radio program (that is, the music) becomes the next music in the silent section LS. The section boundary candidate position KP is identified as the section boundary, and the near side and the rear side of the program data in time series with respect to the section boundary are identified as separate music partial sections. Then, the section specifying control unit 31 makes a transition so as to return from the conversation assumed standby state TKT to the music confirmed state MD, ends the first silence detection section specifying process, and generates section specifying information DI as a section specifying result. Then, the data is sent to the dividing unit 21 via the output processing unit 35.

  In this way, the section specifying control unit 31 detects the section boundary candidate position KP in response to detecting the silence section LS based on the volume level VS during the second silence detection section specifying process, and then the curvature MS is determined. The position (that is, the section boundary) at which the program data is switched from the music partial section to the conversation partial section in accordance with the change below the determination threshold is specified. Therefore, when the silent section LS is inserted between the music of the radio program and the conversation, the section specifying control unit 31 detects the silent section LS and then checks the value of the curvature MS. The music part section and the conversation part section of the program data can be specified with high accuracy.

  Further, in this case, the section specifying control unit 31 also performs such a conversation even if the radio program includes a conversation in which the music quality MS decreases only slowly, for example, because background music is overlapped. If the silent section LS is included at the beginning, it is possible to specify the music partial section and the conversation partial section of the program data.

  Furthermore, the section specifying control unit 31 finally detects the rising position of the silent section LS detected by the volume level analysis processing unit 34 as the section boundary candidate position KP during the second silence detection section specifying process. It is possible to improve the listening comfort when playing back later by minimizing the silent part included at the beginning of the conversation part section specified by.

  Furthermore, the section specifying control unit 31 changes the processing state from the conversation confirmed state TD to the conversation assumed standby state TKT in response to the detection of the silence section LS during the second silence detection section specifying process, but the conversation assumed standby time Ts. If the curvature MS does not change below the discrimination threshold before the time elapses, it is determined that the music of the radio program has switched to the next music in the silent section LS, and the section switching candidate position KP is identified as the section boundary. Then, the front side and the rear side of the program data are specified as separate music partial sections in time series from the section boundary. That is, the section specifying control unit 31 can detect one piece of music without erroneously detecting the plurality of pieces of continuous music as one piece of music when a plurality of pieces of music are continuously inserted with a silent part in the radio program. It is possible to detect each music as a meaningful unit.

(1-6) Preventing Misdetection of Silent Section Next, in the case of the third section specifying method, the inside of the section specifying control unit 31 is the above-described first section specifying as shown in FIGS. In addition to the four processing states (conversation confirmed state TD, conversation assumed state TK, music confirmed state MD, and music assumed state MK) of the above method, two new processing states can be taken. One state is that when a silent section LS is detected in the assumed music state MK, there is a possibility that the curvature MS will return below the discrimination threshold (that is, a silent part inserted in the middle of a conversation in a radio program). TDT that temporarily transits as a stage before returning from the music assumed state MK to the conversation confirmed state TD (hereinafter referred to as a conversation confirmed standby state) TDT (FIG. 12). The other state is that, when a silent section LS is detected in the assumed speech state TK, there is a possibility that the curvature MS will return to the discrimination threshold or higher (that is, a silent part inserted in the middle of music in a radio program) MDT that transitions temporarily as a stage before returning from the conversation assumption state TK to the music confirmation state MD (hereinafter referred to as a music confirmation standby state) MDT (FIG. 13).

  Thus, when the section identifying control unit 31 detects the silence section LS in the music assumed state MK or detects the silence section LS in the conversation assumed state TK, the detected silence section LS is detected as the music partial section of the program data or It is possible to determine whether or not it is only inserted as a part of the conversation partial section. Hereinafter, the description will be divided into a case where the silent section LS is detected in the music assumed state MK (FIG. 12) and a case where the silent section LS is detected in the conversation assumed state TK (FIG. 13).

(1-6-1) When Silent Section is Detected in the Music Assumed State First, the section specifying control unit 31 is given the above-described first when the bend MS and the silent section LS as shown in FIG. 14 are given, for example. The range detection section identification process is started. When the processing state is the assumed music state MK in the first range detection section specifying process, the section specifying control section 31 detects the silent section LS by the volume level analysis processing section 34, and in the middle of the radio program conversation. First silence section discrimination for discriminating whether or not the detected silence section LS is part of the conversation part section of the program data in response to the possibility that the inserted silence section has been detected. Start processing.

  Accordingly, when the first silent section determination process is started, the section specifying control unit 31 changes the processing state from the music assumed state MK to the conversation confirmation standby state TDT. At this time, the section specifying control unit 31 continues to measure the assumed music duration time Tm performed in the assumed music state MK. The section specifying control unit 31 determines the curvature MS transmitted from the curvature analysis processing unit 33 during a predetermined determination time (hereinafter referred to as a third standby determination time) in the conversation determination standby state TDT. Monitor whether the numerical value changes below the discrimination threshold. This third standby determination time is a state in which the conversation confirmation standby state TDT has transitioned so as to temporarily hold the music assumed state MK, so that the music assumed determination time (30 seconds) in the music assumed state MK. (In this case, for example, 20 seconds).

  The section specifying control unit 31 counts the time during which the conversation determination standby state TDT is continued in the conversation determination standby state TDT (hereinafter referred to as the conversation determination standby time) Tt and exceeds the third standby determination time. If the numerical value of the new curvature MS sent from the curvature analysis processing unit 33 becomes less than the discrimination threshold before the change to, this means that, for example, there was simply silence during the conversation of the radio program Accordingly, it is determined that the silent section LS has only been detected, and the processing state transitions from the conversation confirmation standby state TDT to the conversation confirmation state TD. In addition, in the conversation determination standby state TDT, the section identification control unit 31 determines the curvature MS greater than the determination threshold from the curvature analysis processing unit 33 until the conversation determination standby time Tt changes beyond the third standby determination time. Is continuously given, the determination is suspended and the conversation determination standby state TDT is continued. Furthermore, in the conversation determination standby state TDT, the section identification control unit 31 sets the music assumption standby time Tt to be equal to or longer than the third standby determination time, and the music assumption duration Tm measured from the start of the music assumption state MK is the music assumption determination time. As described above, when the bendability MS equal to or greater than the determination threshold is continuously given from the bendiness analysis processing unit 33, it is determined that the conversation has ended in the radio program and music has started to be played, and the section switching is performed. The candidate position KP is specified as a section boundary, and the front side of the program data in time series is specified as a conversation part section and the back side in time series from the section boundary is specified as a music part section. Then, the processing state transitions from the conversation confirmation standby state TDT to the music confirmation state MD. On the other hand, in the conversation confirmation standby state TDT, the section identification control unit 31 determines that the conversation assumption standby time Tt is equal to or longer than the third standby determination time and the music assumption duration Tm measured from the start of the music assumption state MK is the music assumption determination. In a case where the curvature MS that is equal to or greater than the discrimination threshold is continuously given from the curvature analysis processing unit 33 in less than the time, the conversation may end in the radio program and the music may start to be played. And the processing state transitions from the conversation confirmation standby state TDT to the music assumption state MK.

  Then, when the processing state is changed to the assumed music state MK during the first silent section determination process, the section specifying control unit 31 performs the same process as that during the first range detection section specifying process described above, thereby generating program data. The conversation partial section and the music partial section are identified. Then, the section specifying control unit 31 transitions the processing state from the music assumed state MK to the music confirmed state MD, ends the first silence detection section specifying process, and generates section specifying information DI as a section specifying result. To the dividing unit 21 via the output processing unit 35.

  In this way, in the first silent section determination process, the section specifying control unit 31 detects that the detected silent section LS is not included in the radio program when the curvature MS changes below the determination threshold in the conversation confirmation standby state TDT. It is determined that it is inserted as a part. Therefore, for example, when a silent part is inserted during a conversation of a radio program, the section specifying control unit 31 continues the processing without being confused by the inserted silent part, It is possible to appropriately identify the conversation partial section. On the other hand, the section specifying control unit 31 ignores the detected silence section LS and ignores the detected silence section LS if the curvature MS does not fall below the determination threshold in the first silence section determination process. By continuing the processing in the same manner as the one range detection section specifying process, it is possible to specify the conversation part section and the music part section of the program data.

(1-6-2) When Silent Section is Detected in the Assumed Conversation State Next, when the section identification control unit 31 is given a bend MS and a silent section LS as shown in FIG. The range detection section identification process is started. When the processing state is in the assumed speech state TK in the second range detection section specifying process, the section specifying control unit 31 detects the silent section LS by the volume level analysis processing unit 34, and in the middle of the music of the radio program. Second silence interval determination for determining whether or not the detected silence interval LS is part of the music portion interval of the program data in response to the possibility that the inserted silence portion has been detected. Start processing.

  As a result, when the second silent section determination process is started, the section specifying control unit 31 changes the processing state from the music assumed state MK to the music confirmation standby state MDT. At this time, the section identifying control unit 31 continues to measure the conversation assumed duration time Tn performed in the conversation assumed state TK. In the music determination standby state MDT, the section specifying control unit 31 determines the curvature MS transmitted from the curvature analysis processing unit 33 during a predetermined determination time (hereinafter referred to as a fourth standby determination time). It is monitored whether the numerical value is equal to or less than the discrimination threshold. This fourth standby determination time is a state in which the music confirmation standby state MDT has transitioned so as to temporarily hold the conversation assumed state TK, so that the conversation assumed determination time (20 seconds) in the conversation assumed state TK. (In this case, for example, 10 seconds).

  In the music determination standby state MDT, the section identification control unit 31 counts the time (hereinafter referred to as the music determination standby time) Tu in which the music determination standby state MDT is continued to be equal to or longer than the fourth standby determination time. If the numerical value of the new melody MS sent from the melody analysis processing unit 33 is equal to or greater than the discrimination threshold before the change to, this is, for example, silence as part of the tune during the music of the radio program It is determined that the silent section LS has only been detected in response to the presence of, and the processing state transitions from the music confirmation standby state MDT to the music confirmation state MD. In addition, in the music determination standby state MDT, the section identification control unit 31 determines that the curvature MS less than the determination threshold is from the curvature analysis processing unit 33 until the music determination standby time Tu changes to be equal to or longer than the fourth standby determination time. Is continuously given, the determination is suspended and the music determination standby state MDT is continued. Furthermore, in the music confirmation standby state MDT, the section specifying control unit 31 determines that the music confirmation standby time Tu is equal to or longer than the fourth standby determination time, and the conversation assumption duration Tn measured from the start of the conversation assumption state TK is the conversation assumption determination time. As described above, in the case where the curvature MS less than the determination threshold is continuously given from the curvature analysis processing unit 33, it is determined that the music is once ended and the conversation starts to be played in the radio program. The switching candidate position KP is specified as a section boundary, and the program data in front of the section boundary is specified as a music part section and the back side in time series from the section boundary is specified as a conversation part section. Then, the processing state transitions from the music confirmation standby state MDT to the conversation confirmation state TD. On the other hand, in the music determination standby state MDT, the section identification control unit 31 determines that the music determination standby time Tu is equal to or longer than the fourth standby determination time and the conversation assumption duration Tn measured from the start of the conversation assumption state TK is the conversation assumption determination. In the case where the curvature MS that is less than the time and less than the discrimination threshold is continuously given from the curvature analysis processing unit 33, there is a possibility that the music has once ended in the radio program and the conversation has started to flow. It is determined that there is, and the processing state is changed from the music confirmation standby state MDT to the conversation assumed state TK.

  And the section specific control part 31 will perform program data by performing the process similar to the time of the 2nd range detection area specific process mentioned above, if a process state is changed to the conversation assumption state TK at the time of a 2nd silent area discrimination | determination process. The music partial section and the conversation partial section are identified. Then, the section specifying control unit 31 changes the processing state from the conversation assumed state TK to the conversation confirmed state TD, ends the second silence detection section specifying process, and generates section specifying information DI as a section specifying result. To the dividing unit 21 via the output processing unit 35.

  In this way, in the second silent section determination process, the section specifying control unit 31 detects that the detected silent section LS is a music program in the radio program when the curvature MS changes to a determination threshold value or more in the music confirmation standby state MDT. It is determined that it is inserted as a part. Therefore, for example, when a silent part is inserted in the music of a radio program (that is, in a song), the section specifying control unit 31 continues the processing without being confused by the inserted silent part, and program data The music partial section and the conversation partial section can be appropriately specified. On the other hand, the section specifying control unit 31 ignores the detected silence section LS and ignores the detected silence section LS if the curvature MS does not exceed the determination threshold in the music determination standby state MDT during the second silence section determination process. By continuing the processing in the same manner as the range detection section specifying process 2, it is possible to specify the conversation part section and the music part section of the program data.

(1-7) Preventing false detection of relatively long silent section Next, in the case of the fourth section specifying method, the inside of the section specifying control unit 31 is the first described above as shown in FIGS. 16 and 17. In addition to the four processing states (conversation confirmed state TD, conversation assumed state TK, music confirmed state MD, and music assumed state MK) of the section specifying method, two new processing states can be taken. One state is that in the conversation final state TD, it is not known when the silence MS changes from the silence to the sound when the bendiness MS changes more than the discrimination threshold while detecting the silence period LS (ie, music in a radio program). State that the transition from the conversation confirmed state TD to the assumed music state MK is temporarily suspended (hereinafter referred to as a music assumed hold state). ) MKH (FIG. 16). The other state is that in the music confirmation state MD, when the silence MS changes below the discrimination threshold during detection of the silent section LS, it is not known when the sound is switched from silent to voiced (ie, conversation in a radio program). State that the transition from the music confirmation state MD to the conversation assumption state TK is temporarily suspended (hereinafter referred to as a conversation assumption suspension state). ) TKH (FIG. 17).

  As a result, the section specifying control unit 31 detects a silent section LS in parallel when transitioning from the conversation confirmed state TD to the music assumed state MK or when transitioning from the music confirmed state MD to the conversation assumed state TK. The transition to the speech assumed state TK or the music assumed state MK can be suspended until the detected silent interval LS ends and a voiced interval (that is, a music partial interval or a conversation partial interval) starts. Yes. Hereinafter, when the curvature MS and the silence interval LS that are equal to or higher than the determination threshold are detected in parallel in the conversation determination state TD (FIG. 16), the curvature MS and the silence interval LS that are less than the determination threshold are determined in the music determination state MD. The description will be divided into the case of detecting in parallel (FIG. 17).

(1-7-1) When detecting a bend and a silent section that are equal to or higher than the determination threshold in the conversation finalized state First, as shown in FIG. When it is transmitted from the bendness analysis processing unit 33, it is determined that the conversation is in a radio program, and the processing state is changed to the conversation confirmed state TD, and at the same time, it is newly sent from the bendiness analysis processing unit 33. As long as the MS is less than the discrimination threshold, the conversation confirmed state TD is continued. Then, when the section identification control unit 31 detects that the bendability MS has changed more than the discrimination threshold when the volume level analysis processing unit 34 detects the silent section LS in the conversation determination state TD, In response to the possibility that it will take time until the music is played, the first state transition hold processing for holding the transition to the conversation assumed state TK is started until the detected silent section LS ends.

  Accordingly, when the first state transition suspension process is started, the section identification control unit 31 transitions the processing state from the conversation confirmed state TD to the music assumption suspension state MKH. In the music assumption hold state MKH, the section identification control unit 31 waits for the volume level VS to rise from silence to sound, and continues the music assumption hold state MKH when the silence section LS continues. Then, the section specifying control unit 31 detects that the volume level VS has risen to the sound level in the music assumed hold state MKH, and the curvature MS immediately after the detection of the rise of the sound level is less than the determination threshold. In this case, for example, it is determined that there is only silence (for example, silence during the conversation) during the conversation of the radio program, and the processing state is changed from the music assumed hold state MKH to the conversation confirmed state TD. On the other hand, the section specifying control unit 31 detects that the volume level VS has risen to the sound level in the music assumed hold state MKH, and the curvature MS immediately after the detection of the rise of the sound level is equal to or greater than the determination threshold. If it is, it is determined that there is a possibility that music has started after silence in the radio program, and the position where the volume level VS rises to the sound level from the silence section LS (hereinafter, this is referred to as the sound rising position). LE is detected and stored as the segment boundary candidate position KP, and the processing state is changed from the music assumed hold state MKH to the music assumed state MK.

  And the section specific control part 31 will perform program data by performing the same process as the time of the 1st range detection area specific process mentioned above, if a process state is changed to the music assumption state MK at the time of a 1st state transition pending | holding process. The conversation partial section and the music partial section are identified. Then, the section specifying control unit 31 transitions the processing state from the music assumed state MK to the music confirmed state MD and ends the first state transition holding process, and generates section specifying information DI as a section specifying result. The data is sent to the dividing unit 21 via the output processing unit 35.

  In this manner, the section specifying control unit 31 performs the transition to the music assumed state MK or the conversation confirmed state TD until the sound rising position LE is detected in the music assumed hold state MKH during the first state transition hold process. Hold. Therefore, for example, when a relatively long silent part is inserted between conversation and music in a radio program, the section specifying control unit 31 increases the value above the determination threshold when there is a silent part depending on the setting. According to the music likeness MS, the processing state transitions from the conversation confirmed state TD to the assumed music state MK in spite of the silent section LS. As a result, the silent section LS is the music partial section of the program data. It can be avoided to specify by mistake.

(1-7-2) In the case where a bend and a silent section less than the determination threshold are detected in the music determination state Next, the section specifying control unit 31, for example, as shown in FIG. Is transmitted from the curvaceousness analysis processing unit 33, the music is determined to be music in the radio program, the processing state is changed to the music confirmation state MD, and the music newly transmitted from the curvaceousness analysis processing unit 33 is transmitted. As long as the likelihood MS is equal to or greater than the determination threshold, the music determination state MD is maintained. Then, when the section specifying control unit 31 detects that the silence level LS is detected by the volume level analysis processing unit 34 in the music determination state MD, the section specifying control unit 31 detects that the curvature MS is less than the determination threshold. In response to the possibility that it will take time until the conversation starts, the second state transition hold processing is started to hold the transition to the music assumed state MK until the detected silent section LS ends.

  As a result, when the second state transition suspension process is started, the section identification control unit 31 transitions the processing state from the music confirmation state MD to the conversation assumption suspension state TKH. The section identifying control unit 31 waits for the volume level VS to rise from silence to sound in the conversation assumed hold state TKH, and continues the conversation assumed hold state TKH when the silence section LS continues. Then, the section specifying control unit 31 detects that the volume level VS has risen to the sound level in the conversation assumed hold state TKH, and the curvature MS immediately after the detection of the rise of the sound level is equal to or greater than the determination threshold. In this case, for example, it is determined that only a silent part is inserted in the middle of the music of the radio program, and the processing state is changed to return from the conversation assumed hold state TKH to the music confirmation state MD. On the other hand, the section specifying control unit 31 detects that the volume level VS has risen to the sound level in the conversation assumed hold state TKH, and the curvature MS immediately after the detection of the rise of the sound level is less than the determination threshold value. If it is, it is determined that the conversation may have started after silence in the radio program, and the sound rising position LE where the volume level VS rises from the silent section LS to the sound level is set as the section boundary candidate position KP. At the same time, the processing state is changed from the conversation assumed hold state TKH to the conversation assumed state TK.

  And the section specific control part 31 will perform program data by performing the process similar to the time of the 2nd range detection area specific process mentioned above, if a process state is changed to the conversation assumption state TK at the time of a 2nd state transition pending | holding process. The music partial section and the conversation partial section are specified. Then, the section specifying control unit 31 transitions the processing state from the conversation assumed state TK to the conversation confirmed state TD, ends the second state transition suspension process, and generates section specifying information DI as a section specifying result. The data is sent to the dividing unit 21 via the output processing unit 35.

  In this way, during the second state transition hold process, the section specifying control unit 31 makes a transition to the speech assumed state TK or the music confirmed state MD until the sound rising position LE is detected in the speech assumed hold state TKH. Hold. Therefore, for example, when a relatively long silent part is inserted between the music of the radio program and the conversation, the section specifying control unit 31 has a curiosity such that the value falls below the determination threshold when there is a silent part depending on the setting. Depending on the MS, the processing state transitions from the music confirmation state MD to the conversation assumed state TK despite the silence section LS, and as a result, the silence section LS is erroneously specified as the conversation part section of the program data. Can be avoided.

(1-8) Description of Processing Procedure (1-8-1) First Range Detection Section Identification Processing Procedure Here, the above-described first range detection section identification processing procedure will be described. The data reproducing apparatus 10 starts the first range detection section specifying processing procedure RT1 as shown in FIG. 20 when the bendability MS changes to the determination threshold value or more in the conversation confirmed state TD. When the section specifying control unit 31 in the section specifying unit 20 of the data reproducing apparatus 10 starts the first range detection section specifying processing procedure RT1, the curvature MS in the program data exceeds the determination threshold in step SP1. The section boundary candidate range SA is detected with the reference position as the center, and the lowest volume level position LL detected within the section boundary candidate range SA is stored as the section boundary candidate position KP. Then, the section identifying control unit 31 transitions the processing state from the conversation confirmed state TD to the music assumed state MK, and proceeds to the next step SP2.

  In step SP2, the section specifying control unit 31 determines whether or not the curvature MS continues to be equal to or greater than the determination threshold in the music assumed state MK. If a positive result is obtained in step SP2, this indicates that there is a high possibility that the conversation has ended and the music has started in the radio program. Therefore, the section identification control unit 31 proceeds to the next step SP3.

  In step SP3, the section identifying control unit 31 determines whether or not the music assumption continuation time Tm after the transition to the music assumption state MK is equal to or longer than the music assumption determination time. If a negative result is obtained in step SP3, this indicates that the time for determining whether or not the music has started and the conversation has ended in the radio program has not elapsed. Therefore, the section identification control unit 31 returns to step SP2.

  On the other hand, if a positive result is obtained in step SP3, this indicates that the conversation is ended and music is started in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP4.

  In step SP4, the section specifying control unit 31 specifies the section switching candidate position KP as the section boundary, specifies the near side of the program data in the time series from the section boundary as the conversation partial section, and sets the time series from the section boundary. In particular, the rear side is specified as the music partial section. Then, the section identifying control unit 31 transitions the processing state from the music assumed state MK to the music confirmed state MD, and proceeds to step SP5.

  On the other hand, if a negative result is obtained in step SP2, this indicates that a bell sound or a part of music is only inserted for a short time during the conversation of the radio program. Therefore, the section specifying control unit 31 returns the processing state from the music assumed state MK to the conversation confirmed state TD, moves to step SP5, and ends the first range detection section specifying processing procedure RT1.

  With such a first range detection section specifying processing procedure RT1, the data reproducing apparatus 10 distinguishes between conversation and music in a radio program.

(1-8-2) Second Range Detection Section Identification Process Procedure Next, the above-described second range detection section identification process procedure will be described. The data reproducing device 10 starts the second range detection section specifying processing procedure RT2 as shown in FIG. 21 when the bendability MS changes below the discrimination threshold in the music confirmation state MD. In the section specifying unit 20 of the data reproducing apparatus 10, when the second range detection section specifying process procedure RT2 is started, the section specifying control unit 31 focuses on the reference position where the curvature MS is less than the determination threshold in step SP11. And detecting the section boundary candidate range SA and storing the minimum volume level position LL detected in the section boundary candidate range SA as the section boundary candidate position KP. Then, the section identifying control unit 31 transitions from the internal music confirmation state MD to the conversation assumed state TK, and proceeds to the next step SP12.

  In step SP12, the section identifying control unit 31 determines whether or not the curvature MS continues to be less than the determination threshold in the conversation assumed state TK. If a positive result is obtained in step SP12, this indicates that there is a high possibility that music has ended and conversation has started in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP13.

  In step SP13, the section identifying control unit 31 determines whether or not the conversation assumption duration Tn after the transition to the conversation assumption state TK is equal to or greater than the conversation assumption determination time. If a negative result is obtained in step SP13, this indicates that the time for determining whether the music has ended and the conversation has started in the radio program has not elapsed. Therefore, the section identification control unit 31 returns to step SP12.

  On the other hand, if a positive result is obtained in step SP13, this indicates that music has ended and conversation has started in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP14.

  In step SP14, the section specifying control unit 31 specifies the section switching candidate position KP as the section boundary, specifies the music data section on the front side of the program data in time series from the section boundary, and time-series from the section boundary. In particular, the back side is identified as the conversation partial section. Then, the section identification control unit 31 transitions the processing state from the conversation assumed state TK to the conversation confirmed state TD, and proceeds to step SP15.

  On the other hand, if a negative result is obtained in step SP12, this indicates that the singer's lines have only been inserted into the music of the radio program for a short time. Accordingly, the section specifying control unit 31 returns the processing state from the conversation assumed state TK to the music confirmed state MD, proceeds to step SP15, and ends the second range detection section specifying processing procedure RT2.

  By such a second range detection section specifying processing procedure RT2, the data reproduction device 10 distinguishes music and conversation in the radio program.

(1-8-3) First Silence Detection Section Identification Processing Procedure Next, the procedure of the first silence detection section identification process described above will be described. When the data reproducing apparatus 10 detects the silent section LS in the conversation confirmed state TD, the data reproducing apparatus 10 starts the first silent detection section specifying processing procedure RT3 as shown in FIG. When the section specifying control unit 31 of the section specifying unit 20 of the data reproducing apparatus 10 starts the first silent detection section specifying processing procedure RT3, the volume level VS is a sound level in the silent section LS in step SP31. Is stored as a section boundary candidate position KP. Then, the section identification control unit 31 transitions the processing state from the conversation confirmed state TD to the music assumption standby state MKT, and proceeds to the next step SP32.

  In step SP32, the section identifying control unit 31 determines whether or not the curvature MS is equal to or greater than a determination threshold in the music assumption standby state MKT. If a negative result is obtained in step SP32, this indicates that it is not yet known whether the conversation ends and the music starts in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP33.

  In step SP33, the section identifying control unit 31 determines whether or not the music assumption standby time Tr after the transition to the music assumption standby state MKT is equal to or longer than the first standby determination time. If a negative result is obtained in this step SP33, this indicates that the time has not passed to determine whether or not there is a possibility that the conversation will end and the music will start in the radio program. Yes. Therefore, the section identification control unit 31 returns to step SP32.

  On the other hand, if a positive result is obtained in step SP33, this indicates that only silence during a radio program conversation has been detected. Accordingly, the section identifying control unit 31 returns the processing state from the music assumption standby state MKT to the conversation confirmed state TD, and proceeds to step SP37.

  On the other hand, if a positive result is obtained in step SP32, this indicates that there is a possibility that the conversation ends and the music starts in the radio program. Therefore, the section identifying control unit 31 changes the processing state from the music assumption standby state MKT to the music assumption state MK, and proceeds to step SP34.

  In step SP34, the section specifying control unit 31 determines whether or not the curvature MS continues to be equal to or greater than the determination threshold in the music assumed state MK. If a positive result is obtained in this step SP34, this indicates that there is a high possibility that the conversation has ended and the music has started in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP35.

  In step SP35, the section identifying control unit 31 determines whether or not the music assumption continuation time Tm after the transition to the music assumption state MK is equal to or longer than the music assumption determination time. If a negative result is obtained in step SP35, this indicates that the time has not passed to determine whether the conversation has ended and the music has started in the radio program. Therefore, the section identification control unit 31 returns to step SP34.

  On the other hand, if a positive result is obtained in step SP35, this indicates that the conversation is ended and music is started in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP36.

  In step SP36, the section specifying control unit 31 specifies the section switching candidate position KP as the section boundary, specifies the front side of the program data in the time series from the section boundary as the conversation partial section, and sets the time series from the section boundary. In particular, the rear side is specified as the music partial section. Then, the section identifying control unit 31 transitions the processing state from the music assumed state MK to the music confirmed state MD, and proceeds to step SP37.

  On the other hand, if a negative result is obtained in step SP34, this indicates that a bell sound or a part of music is only inserted for a short time during the conversation of the radio program. Accordingly, the section specifying control unit 31 returns the processing state from the music assumed state MK to the conversation confirmed state TD, moves to step SP37, and ends the first silence detection section specifying processing procedure RT3.

  The data reproduction apparatus 10 distinguishes between conversation and music in the radio program by the first silence detection section specifying processing procedure RT3.

(1-8-4) Second Silence Detection Section Identification Process Procedure Next, the above-described second silence detection section identification process procedure will be described. When the data reproducing apparatus 10 detects the silent section LS in the music determination state MD, the data reproducing apparatus 10 starts the second silent detection section specifying processing procedure RT4 as shown in FIG. In the section specifying unit 20 of the data reproducing apparatus 10, when the section specifying control unit 31 starts the second silence detection section specifying processing procedure RT4, the volume level VS is a sound level in the silence section LS in step SP41. Is stored as a section boundary candidate position KP. Then, the section identification control unit 31 transitions the processing state from the music confirmation state MD to the conversation assumption standby state TKT, and proceeds to the next step SP42.

  In step SP42, the section identifying control unit 31 determines whether or not the curvature MS is less than the determination threshold value in the conversation assumption standby state TKT. If a negative result is obtained in step SP42, this indicates that it is not yet known whether the music ends and the conversation starts in the radio program. Therefore, the section identification control unit 31 proceeds to the next step SP43.

  In step SP43, the section identifying control unit 31 determines whether or not the assumed conversation waiting time Ts after the transition to the assumed conversation waiting state TKT is equal to or longer than the second waiting determination time. If a negative result is obtained in this step SP43, this indicates that the time has not passed to determine whether or not there is a possibility that the music will end and the conversation will start in the radio program. Yes. Accordingly, the section identifying control unit 31 returns to step SP42.

  On the other hand, if a positive result is obtained in step SP43, this indicates that the music in the radio program has been switched to the next music across the silent part. Therefore, the section identification control unit 31 proceeds to next step SP44.

  In step SP44, the section specifying control unit 31 specifies the section switching candidate position KP as a section boundary, and specifies the front side and the rear side of the program data as separate music partial sections in time series from the section boundary. . Then, the section identification control unit 31 returns the processing state from the conversation assumption standby state TKT to the music confirmation state MD, and proceeds to step SP48.

  On the other hand, if an affirmative result is obtained in step SP42, this indicates that there is a possibility that the music ends and the conversation starts in the radio program. Therefore, the section identification control unit 31 changes the processing state from the conversation assumption standby state TKT to the conversation assumption state TK, and proceeds to step SP45.

  In step SP45, the section identifying control unit 31 determines whether or not the curvature MS continues to be less than the determination threshold in the conversation assumed state TK. If a positive result is obtained in step SP45, this indicates that there is a high possibility that music has ended and conversation has started in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP46.

  In step SP46, the section identifying control unit 31 determines whether or not the conversation assumption duration Tn after the transition to the conversation assumption state TK is equal to or greater than the conversation assumption determination time. If a negative result is obtained in step SP46, this indicates that the time for determining whether the music has ended and the conversation has started in the radio program has not elapsed. Therefore, the section identification control unit 31 returns to step SP45.

  On the other hand, if a positive result is obtained in step SP46, this indicates that the conversation is ended and the music is started in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP47.

  In step SP47, the section specifying control unit 31 specifies the section switching candidate position KP as the section boundary, specifies the music data section on the front side of the program data in time series from the section boundary, and time-series from the section boundary. In particular, the back side is identified as the conversation partial section. Then, the section identification control unit 31 transitions the processing state from the conversation assumed state TK to the conversation confirmed state TD, and proceeds to step SP48.

  On the other hand, if a negative result is obtained in step SP45, this indicates that the singer's words have only been inserted into the music of the radio program for a short time. Therefore, the section identifying control unit 31 returns the processing state from the conversation assumed state TK to the music confirmed state MD, proceeds to step SP48, and ends the second silence detection section identifying processing procedure RT4.

  The data reproduction apparatus 10 distinguishes between music and conversation in the radio program by the second silence detection section specifying processing procedure RT4.

(1-8-5) First Silent Interval Discrimination Processing Procedure Next, the above-described first silent interval discrimination processing procedure will be described. When the data reproducing apparatus 10 detects the silent section LS in the assumed music state MK, the data reproducing apparatus 10 starts a first silent section determination processing procedure RT5 as shown in FIG. In the section specifying unit 20 of the data reproducing device 10, when the section specifying control unit 31 starts the first silent section determination processing procedure RT5, in step SP51, the processing state is changed from the music assumed state MK to the conversation confirmation standby state TDT. Then, the process proceeds to the next step SP52.

  In step SP52, the section identifying control unit 31 determines whether or not the curvature MS changes below a determination threshold in the conversation determination standby state TDT. If an affirmative result is obtained in step SP52, this indicates that a silent part inserted during the conversation of the radio program has been detected. Therefore, the section identifying control unit 31 transitions the processing state from the conversation confirmation standby state TDT to the conversation confirmation state TD, and proceeds to step SP58.

  On the other hand, if a negative result is obtained in step SP52, this indicates that it is not yet known whether or not the silence portion inserted during the conversation of the radio program has been detected. Therefore, the section identification control unit 31 proceeds to the next step SP53.

  In step SP53, the section identifying control unit 31 determines whether or not the conversation determination waiting time Tt after the transition to the conversation determination waiting state TDT is equal to or longer than the third waiting determination time. If a negative result is obtained in step SP53, this indicates that a time sufficient to determine whether or not a silent portion inserted during radio program conversation has been detected has not elapsed. Therefore, the section identification control unit 31 returns to step SP52.

  On the other hand, if a positive result is obtained in step SP53, this indicates that there is a possibility that the conversation ends and the music starts in the radio program regardless of the detected silent section LS. . Therefore, the section identification control unit 31 proceeds to next step SP54.

  In step SP54, the section specifying control unit 31 determines whether or not the assumed music duration Tm measured after the music assumed state MK is started is equal to or longer than the music assumed determination time in the conversation confirmation standby state TDT. If a negative result is obtained in step SP54, this indicates that the time for determining whether or not the conversation has ended and the music has started in the radio program has not elapsed. Accordingly, the section identifying control unit 31 transitions the processing state from the conversation confirmation standby state TDT to the music assumed state MK, and proceeds to the next step SP55.

  In step SP55, the section identifying control unit 31 determines whether or not the curvature MS continues at or above the determination threshold in the music assumed state MK. If a positive result is obtained in step SP55, this indicates that there is a high possibility that the conversation has ended and the music has started in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP56.

  In step SP56, the section identifying control unit 31 determines whether or not the music assumption duration Tm after the transition to the music assumption state MK is equal to or longer than the music assumption determination time. If a negative result is obtained in step SP56, this indicates that the time for determining whether or not the music has started and the conversation has ended in the radio program has not elapsed. Accordingly, the section identifying control unit 31 returns to step SP55.

  On the other hand, if a positive result is obtained in step SP56, this indicates that the conversation is ended and music is started in the radio program. Therefore, the section identifying control unit 31 proceeds to next step SP57.

  On the other hand, if a negative result is obtained in step SP55, this indicates that a bell sound or a part of music is only inserted for a short time during the conversation of the radio program. Therefore, the section identifying control unit 31 returns the processing state from the music assumed state MK to the conversation confirmed state TD, and proceeds to step SP58.

  On the other hand, if a positive result is obtained in step SP54, this indicates that the conversation is ended and the music is started in the radio program. Therefore, the section identifying control unit 31 proceeds to next step SP57.

  In step SP57, the section specifying control unit 31 specifies the section switching candidate position KP as the section boundary, specifies the front side of the program data in the time series from the section boundary as the conversation partial section, and sets the time series from the section boundary. In particular, the rear side is specified as the music partial section. Then, the section identification control unit 31 transitions the processing state to the sound and music determination state MD, proceeds to step SP58, and ends the first silent section determination processing procedure RT5.

  By such a first silent section discrimination processing procedure RT5, the data reproducing apparatus 10 discriminates conversations including a silent part in a radio program as a group of meaningful conversations. Yes.

(1-8-6) Second Silent Interval Discrimination Processing Procedure Next, the second silent interval discrimination processing procedure described above will be described. When the data reproducing apparatus 10 detects the silent section LS in the assumed conversation state TK, the data reproducing apparatus 10 starts a second silent section determination processing procedure RT6 as shown in FIG. In the section specifying unit 20 of the data reproducing apparatus 10, when the section specifying control unit 31 starts the second silent section determination processing procedure RT6, in step SP61, the processing state is changed from the conversation assumed state TK to the music determination standby state MDT. Then, the process proceeds to next Step SP62.

  In step SP62, the section identifying control unit 31 determines whether or not the bendness MS changes to a determination threshold value or more in the music confirmation standby state MDT. If a positive result is obtained in step SP62, this indicates that a silent part inserted as part of a song in the music of the radio program has been detected. Therefore, the section identification control unit 31 changes the processing state from the music confirmation standby state MDT to the music confirmation state MD, and proceeds to step SP68.

  On the other hand, if a negative result is obtained in step SP62, this indicates that it is not yet known whether or not the silent part inserted in the music of the radio program has been detected. Therefore, the section identification control unit 31 proceeds to next step SP63.

  In step SP63, the section identifying control unit 31 determines whether or not the conversation determination standby time Tu after the transition to the music determination standby state MDT is equal to or longer than the fourth standby determination time. If a negative result is obtained in this step SP63, this means that the time has not passed to determine whether or not the silent part inserted as part of the song in the radio program music has been detected. It is shown that. Therefore, the section identifying control unit 31 returns to step SP62.

  On the other hand, if a positive result is obtained in step SP63, this indicates that there is a possibility that the music of the radio program ends and the conversation starts regardless of the detected silent section LS. Therefore, the section identifying control unit 31 returns the processing state from the music confirmation standby state MDT to the conversation assumed state TK, and proceeds to step SP64.

  In step SP64, the section specifying control unit 31 determines whether or not the assumed conversation duration Tn, which has been measured since the conversation assumed state TK is started, is equal to or longer than the assumed conversation determination time in the music confirmation standby state MDT. If a negative result is obtained in step SP63, this indicates that the time for determining whether the music has ended and the conversation has started in the radio program has not elapsed. Accordingly, the section identifying control unit 31 transitions the processing state from the music confirmation standby state MDT to the conversation assumed state TK, and proceeds to the next step SP65.

  In step SP65, the section identifying control unit 31 determines whether the curvature MS continues to be less than the determination threshold in the conversation assumed state TK. If a positive result is obtained in step SP65, this indicates that there is a high possibility that music has ended and conversation has started in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP66.

  In step SP66, the section specifying control unit 31 determines whether or not the conversation assumption duration Tn after the transition to the conversation assumption state TK is equal to or greater than the conversation assumption determination time. If a negative result is obtained in this step SP66, this indicates that the time for determining whether the music has ended and the conversation has started in the radio program has not elapsed. Therefore, the section identifying control unit 31 returns to step SP65.

  On the other hand, if a positive result is obtained in step SP66, this indicates that music has ended and conversation has started in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP67.

  On the other hand, if a negative result is obtained in step SP65, this indicates that the singer's lines have only been inserted into the radio program music for a short time. Therefore, the section specifying control unit 31 returns the processing state from the conversation assumed state TK to the music confirmed state MD, and proceeds to step SP68.

  On the other hand, if a positive result is obtained in step SP64, this indicates that the music has ended and the conversation has started in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP67.

  In step SP67, the section specifying control unit 31 specifies the section switching candidate position KP as a section boundary, specifies the music data section on the front side of the program data in time series from the section boundary, and time-series from the section boundary. In particular, the back side is identified as the conversation partial section. Then, the section specifying control unit 31 transitions the processing state to the conversation confirmed state TD, moves to step SP68, and ends the second silent section determination processing procedure RT6.

  By such a second silent section discrimination processing procedure RT6, the data reproduction device 10 discriminates music including a silent part in a radio program as a group of meaningful music. Yes.

(1-8-7) First State Transition Reservation Processing Procedure Next, the above described first state transition suspension processing procedure will be described. When the data reproducing apparatus 10 detects that the curvature MS is equal to or greater than the determination threshold value while detecting the silent section LS in the conversation confirmed state TD, the first state transition suspension process as shown in FIG. Procedure RT7 is started. In the section specifying unit 20 of the data reproducing device 10, when the section specifying control unit 31 starts the first state transition hold processing procedure RT7, the process state is changed from the conversation confirmed state TD to the music assumed hold state MKH in step SP71. Then, the process proceeds to the next step SP72.

  In step SP72, the section identifying control unit 31 determines whether or not the volume level VS has risen from silence to sound in the music assumed hold state MKH. If a negative result is obtained in step SP72, this indicates that silence is still continuing in the radio program. Accordingly, the section specifying control unit 31 repeats this step SP72 until the radio program rises from silence to sound. On the other hand, if a positive result is obtained in step SP72, this indicates that the conversation is restarted or the music is started in the radio program. Therefore, the section identifying control unit 31 stores the sound rising position LE where the sound volume level VS has risen from the silence to the sound level as the section boundary candidate position KP, and proceeds to the next step SP73.

  In step SP73, the section identifying control unit 31 determines whether or not the curvature MS immediately after the detection of the rise of the sound level is equal to or greater than the determination threshold value in the music assumed hold state MKH. If a negative result is obtained in step SP73, this indicates that the conversation has only been resumed through the silent state in the radio program. Therefore, the section identification control unit 31 proceeds to step SP77.

  On the other hand, if a positive result is obtained in step SP73, this indicates that there is a possibility that the radio program conversation has ended and the music has started. Therefore, the section identifying control unit 31 transitions the processing state from the music assumed hold state MKH to the music assumed state MK, and proceeds to step SP74.

  In step SP74, the section identifying control unit 31 determines whether or not the curvature MS continues to be equal to or greater than the determination threshold in the music assumed state MK. If a positive result is obtained in this step SP74, this indicates that there is a high possibility that the conversation has ended and the music has started in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP75.

  In step SP75, the section identifying control unit 31 determines whether or not the music assumption continuation time Tm is equal to or longer than the music assumption determination time. If a negative result is obtained in step SP75, this indicates that the time has not passed to determine whether or not the conversation has ended and the music has started in the radio program. Therefore, the section identification control unit 31 returns to step SP74.

  On the other hand, if a positive result is obtained in step SP75, this indicates that the conversation is ended and the music is started in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP76.

  In step SP76, the section specifying control unit 31 specifies the section switching candidate position KP as the section boundary, specifies the near side of the program data in time series from the section boundary as the conversation partial section, and sets the time series from the section boundary. In particular, the rear side is specified as the music partial section. Then, the section identification control unit 31 transitions the processing state from the music assumed state MK to the music confirmed state MD, proceeds to step SP77, and ends the first state transition suspension processing procedure RT7.

  By such first state transition hold processing procedure RT7, when there is a relatively long silent part in the radio program, the data reproduction device 10 holds the process until a sound part comes out. ing.

(1-8-8) Second State Transition Reservation Processing Procedure Next, the above-described second state transition suspension processing procedure will be described. When the data reproducing device 10 detects that the curvature MS is less than the determination threshold value while detecting the silent section LS in the music confirmation state MD, the second state transition hold processing as shown in FIG. Procedure RT8 is started. In the section specifying unit 20 of the data reproducing device 10, when the section specifying control unit 31 starts the second state transition hold processing procedure RT8, in step SP81, the process state is changed from the music confirmed state MD to the conversation assumed hold state TKH. Then, the process proceeds to the next step SP82.

  In step SP82, the section identifying control unit 31 determines whether or not the volume level VS has risen from silence to sound in the conversation assumed hold state TKH. If a negative result is obtained in step SP82, this indicates that silence is still continuing in the radio program. Therefore, the section specifying control unit 31 repeats this step SP82 until the radio program rises from silence to sound. On the other hand, if a positive result is obtained in step SP82, this indicates that either music has resumed or conversation has started in the radio program. Therefore, the section specifying control unit 31 stores the sound rising position LE where the sound volume level VS has risen from the silence to the sound level as the section boundary candidate position KP, and proceeds to the next step SP83.

  In step SP83, the section identifying control unit 31 determines whether or not the curvature MS immediately after the detection of the rise of the sound level is less than the determination threshold value in the conversation assumed hold state TKH. If a negative result is obtained in step SP83, this indicates that the music has only resumed through the silent part inserted as part of the song in the radio program. Therefore, the section identification control unit 31 proceeds to step SP87.

  On the other hand, if a positive result is obtained in step SP83, this indicates that there is a possibility that the music has ended and the conversation has started in the radio program. Accordingly, the section identifying control unit 31 changes the processing state from the conversation assumed hold state TKH to the conversation assumed state TK, and proceeds to step SP84.

  In step SP84, the section identifying control unit 31 determines whether or not the curvature MS continues to be less than the determination threshold in the conversation assumed state TK. If an affirmative result is obtained in step SP84, this indicates that there is a high possibility that music has ended and conversation has started in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP85.

  In step SP85, the section identifying control unit 31 determines whether or not the conversation assumption continuation time Tn is equal to or greater than the conversation assumption determination time. If a negative result is obtained in step SP85, this indicates that the time has not passed to determine whether or not the conversation has ended and the music has started in the radio program. Therefore, the section identification control unit 31 returns to step SP84.

  On the other hand, if a positive result is obtained in step SP85, this indicates that the music has ended and the conversation has started in the radio program. Therefore, the section identification control unit 31 proceeds to next step SP86.

  In step SP86, the section specifying control unit 31 specifies the section switching candidate position KP as the section boundary, specifies the music data section on the near side in time series from the section boundary of the program data, and time series from the section boundary. In particular, the back side is identified as the conversation partial section. Then, the section identification control unit 31 transitions the processing state from the conversation assumed state TK to the conversation confirmed state TD, moves to step SP87, and ends the second state transition suspension processing procedure RT8.

  By such a second state transition hold processing procedure RT8, when there is a relatively long silent part in the radio program, the data reproduction device 10 holds the process until a sound part comes out. ing.

(1-9) Temporary Storage at the Time of Radio Program Output Next, a method for temporarily storing the music part section and the conversation part section of the program data specified as described above will be described in detail.

(1-9-1) Method of Temporary Storage of Program Data The data reproducing apparatus 10 requests that a radio station be selected via the input unit 12 and output (ie, listen to) a radio program while temporarily storing it. Then, the radio output storage parallel processing for outputting the radio program and temporarily storing the program data BD corresponding to the radio program is started. When the reception unit 11 starts the radio output storage parallel processing, it extracts radio broadcast waves and performs predetermined reception processing such as demodulation processing in the same manner as described above, and generates the program signal of the resulting radio program as data. Send to unit 13. The data generation unit 13 performs digital processing on the program signal given from the reception unit 11 to generate program data BD. Then, the data generation unit 13 sends the generated program data BD to the reproduction unit 14, the bendness detection unit 18, the volume level detection unit 19, and the division unit 21 for each processing unit data of the program data BD.

  The reproduction unit 14 reproduces the program data BD by performing analog processing such as digital-analog conversion processing and amplification processing. As a result, the playback unit 14 obtains a program signal in accordance with the analog processing and sends the program signal to the output unit 15 so that the output unit 15 outputs the radio program sound based on the program signal and listens to the user. Let

  On the other hand, when the processing unit data is given from the data generation unit 13, the curvature detection unit 18 detects the curvature MS and the feature section information so as to detect the curvature MS and the feature section information as described above. Is executed on the entire program data BD. Then, the bendness detecting unit 18 sends the bendability MS and the feature section information detected in this way to the section specifying unit 20.

  Further, when the processing unit data is given from the data generation unit 13, the volume level detection unit 19 detects the volume level VS in the processing unit data at intervals of about 1/128 seconds. VS detection is performed on the entire program data BD. Then, the volume level detection unit 19 sends the volume level VS detected in this way to the section identification unit 20.

  Further, in the same manner as described above, the section specifying unit 20 is generated by the data generating unit 13 according to the bendness MS sent from the bendiness detecting unit 18 and the volume level VS sent from the volume level specifying unit 19. The music part section and the conversation part section mixed in the program data BD thus specified are specified, and the section specifying information DI as a specifying result of the section is generated and sent to the dividing unit 21 together with the feature section information. .

  When the section specifying information DI is given from the section specifying section 20, the dividing section 21 is sent from the data generating section 13 if the section specifying information DI indicates that it is a music partial section. A tag for identifying that the part corresponding to the section specifying information DI in the program data BD is a music part and identifying that it is a music part section in the program data BD (hereinafter referred to as a music section identification tag). TG1 is added to the head of the program data BD. Incidentally, this music section identification tag TG1 is the number of music partial sections identified from the start of output of the radio program in the program data BD (that is, the serial number of the song identified from the start of output of the radio program. This is called song number N). When the dividing unit 21 detects that the section indicated by the section specifying information DI is switched from the music partial section to the conversation partial section, the position where the section is switched in the program data BD (that is, the section boundary). TG2 is identified in the program data BD by identifying the back side in time series as a conversation part section and identifying the conversation part section (hereinafter referred to as a conversation section identification tag) TG2 It is added at the position corresponding to the section boundary.

  On the other hand, when the section specifying information DI is given from the section specifying section 20, the dividing section 21 sends it from the data generating section 13 when the section specifying information DI indicates that it is a conversation partial section. The part corresponding to the section specifying information DI in the program data BD is specified as the conversation part, and the conversation section identification tag TG2 is added to the head of the program data BD. When the dividing unit 21 detects that the section indicated by the section specifying information DI is switched from the conversation part section to the music part section, the dividing unit 21 sets the rear side of the program data BD in time series from the section boundary where the section is switched. The music segment identification tag TG1 is added to the position corresponding to the segment boundary in the program data BD, specifying that it is a music partial segment.

  In this way, the dividing unit 21 specifies the music part section and the conversation part section in the program data BD sent from the data generation unit 13 according to the section specifying information DI given from the section specifying unit 20, The program data BD is divided by adding the music segment identification tag TG1 and the conversation segment identification tag TG2 to the position corresponding to the segment boundary in the program data BD.

  Here, the data reproducing apparatus 10 is provided with a temporary storage unit 22. The temporary storage unit 22 is configured to temporarily store the program data BD divided by the dividing unit 21 when a radio program is output.

  Thereby, the dividing unit 21 sequentially sends out the divided parts of the program data BD to the temporary storage unit 22 during the radio output storage parallel processing. As shown in FIG. 28, the temporary storage unit 22 temporarily stores the program data BD sent from the dividing unit 21 in order along the radio program broadcast time axis AX2. And the control part 24 will complete | finish this radio | wireless output memory | storage parallel process, if the command which stops the output of a radio program is input via the input part 12, for example. At this time, the control unit 24 holds the program data BD temporarily stored in the temporary storage unit 22 until the output of the next radio program is requested via the input unit 12, and outputs the next radio program. Is requested, the program data BD temporarily stored up to that point is deleted. The control unit 24 also deletes the program data BD temporarily stored in the temporary storage unit 22 even when the power is turned off.

  In this way, during the output of the radio program, the data reproduction device 10 divides the music part section and the conversation part section of the program data BD corresponding to the output radio program in parallel with the output of the radio program. Memorize temporarily. That is, the data reproducing apparatus 10 always divides the program data BD corresponding to the radio program when outputting the radio program, even if an instruction to temporarily store the program data BD is not input from the outside via the input unit 12. The program data BD obtained as a result of the division is temporarily stored in order. Therefore, the data reproduction device 10 outputs the program data BD temporarily stored in the temporary storage unit 22 at the time of outputting the radio program, for example, in response to a request from the user who has temporarily removed his / her seat while listening to the radio program. The music section can be read out and played back, and in the radio program, it can be played back to the beginning of the music part that has already been output at that time, allowing the user to listen to it, and the read program data BD The music part section can be recorded, and the music part of the recorded program data BD can be reproduced later to allow the user to listen to it.

  Further, the data reproduction device 10 continues to temporarily store the program data BD in the temporary storage unit 22 until the next radio program is requested or until the power is turned off. Therefore, the data reproducing apparatus 10 reads out the music partial section from the program data BD temporarily stored in the temporary storage unit 22 until the next radio program is requested or the power is turned off. Can be recorded.

(1-9-2) Radio Output Storage Parallel Processing Procedure Here, the radio output storage parallel processing procedure described above will be described. When a radio station is selected via the input unit 12 and the data reproduction apparatus 10 is requested to output a radio program while temporarily storing it, the data reproduction apparatus 10 starts a radio output storage parallel processing procedure RT9 as shown in FIG. To do. In the data reproducing apparatus 10, when the reception unit 11 starts the radio output storage parallel processing procedure RT9, in step SP91, the radio broadcast wave is extracted and subjected to a predetermined reception process such as a demodulation process. The program signal of the program is sent to the data generation unit 13, and the process proceeds to the next step SP92.

  In step SP92, the data generation unit 13 performs digital processing on the program signal given from the reception unit 11 to generate program data BD, and generates the program data BD for each processing unit data. The data is sent to the level detection unit 19 and the division unit 21. Then, the reproducing unit 14 reproduces the program data BD, obtains a program signal, and sends the program signal to the output unit 15 so that the output unit 15 outputs the radio program sound based on the program signal and listens to the user. Then, the process proceeds to the next step SP93 and step SP94.

  In step SP93, the bendability detecting unit 18 detects the bendability MS of the program data BD, sends it to the section specifying unit 20, and proceeds to the next step SP95.

  In step SP94, the volume level detection unit 19 detects the volume level VS of the program data BD, sends it to the section identification unit 20, and proceeds to the next step SP95.

  In step SP95, the section specifying unit 20 specifies the music part section and the conversation part section mixed in the program data BD according to the music likeness MS and the volume level VS, and as a result of specifying the section. Is generated and sent to the dividing unit 21. Then, the dividing unit 21 includes a section boundary in which the music part section and the conversation part section are switched in the program data BD in the section specifying information DI currently transmitted from the section specifying unit 20. Determine whether or not. If an affirmative result is obtained in step SP95, this means that the program data BD has switched from the music part section to the conversation part section, or the program data BD has changed from the conversation part section to the music part section. It indicates that it has switched. Therefore, the dividing unit 21 proceeds to the next step SP96.

  In step SP96, the dividing unit 21 determines whether or not the program data BD is a music partial section chronologically behind the detected section boundary. If an affirmative result is obtained in step SP96, this indicates that the program data BD has been switched from the conversation partial section to the music partial section. Therefore, the dividing unit 21 proceeds to the next step SP97.

  In step SP97, the dividing unit 21 identifies the music section identification for identifying the position corresponding to the detected section boundary in the program data BD as a music partial section chronologically behind the section boundary. A tag TG1 is added. Then, the dividing unit 21 sends the portion to which the music section identification tag TG1 is added in the program data BD to the temporary storage unit 22, and proceeds to the next step SP99.

  On the other hand, if a negative result is obtained in step SP96, this indicates that the program data BD has switched from the music partial section to the conversation partial section. Therefore, the dividing unit 21 proceeds to the next step SP98.

  In step SP98, the dividing unit 21 identifies a conversation section identification that identifies a position corresponding to the detected section boundary in the program data BD as a conversation partial section in time series from the section boundary. A tag TG2 is added. Then, the dividing unit 21 sends the portion to which the conversation section identification tag TG2 is added in the program data BD to the temporary storage unit 22, and proceeds to the next step SP99.

  On the other hand, if a negative result is obtained in step SP95, this means that the part currently indicated by the section specifying information DI in the program data BD is either a music part or a conversation part. It shows that there is no change. Therefore, the dividing unit 21 transmits the portion processed at that time in the program data BD to the temporary storage unit 22 as it is, and proceeds to step SP99.

  In step SP99, the temporary storage unit 22 temporarily stores each part of the program data BD sent from the dividing unit 21 in order (FIG. 28), and proceeds to the next step SP100.

  In step SP100, the data reproducing device 10 determines whether or not it is requested to stop outputting the radio program. If a negative result is obtained in step SP100, this indicates that the user is still listening to the radio program. Therefore, the data reproducing apparatus 10 returns to step SP91.

  On the other hand, if a positive result is obtained in step SP100, this indicates that listening to the radio program has ended. Therefore, the data reproducing apparatus 10 proceeds to the next step SP101, and ends the radio output storage parallel processing procedure RT9.

  By such a radio output storage parallel processing procedure RT9, the data reproducing apparatus 10 temporarily stores program data BD corresponding to the radio program being output during the output of the radio program.

(1-10) Reproduction and Recording of Temporarily Stored Program Data BD Next, the program data BD temporarily stored in the temporary storage unit 22 as described above is read out during the output of the radio program, and is reproduced and recorded ( That is, the method of processing) will be described in detail.

  First, in addition to such a configuration, the data reproducing apparatus 10 is provided with a reading unit 23. The reading unit 23 is configured to read a music partial section of the program data BD temporarily stored in the temporary storage unit 22 when a radio program is output.

  In addition, in the data reproducing apparatus 10, the control unit 24 reads the music partial section of the program data BD temporarily stored in the temporary storage unit 22 in response to an input operation to the input unit 12 when outputting the radio program. In addition, the reading unit 23 is controlled.

  As a result, the reading unit 23 can read the music part section of the program data BD temporarily stored in the temporary storage unit 22 under the control of the control unit 24.

  Here, there are, for example, five types of methods for reading and processing the program data BD temporarily stored in the temporary storage unit 22 during the radio output storage parallel processing by the control unit 24, and an arbitrary processing method can be executed by selecting. Has been made. Hereinafter, first to fifth processing methods that can be processed in parallel with the radio output storage parallel processing will be described in order.

(1-10-1) Time Machine Playback First, in the case of the first processing technique, the control unit 24 performs program data BD corresponding to the radio program being output via the input unit 12 during the radio output storage parallel processing. Request for starting playback (hereinafter referred to as time machine playback) TP (hereinafter referred to as time machine playback request). When the TPR is input, the first music partial section reproduction process for reproducing the music partial section of the program data BD temporarily stored in the temporary storage unit 22 is started.

  When the control unit 24 starts the first music part section reproduction process, the reading unit 23 causes the music part of the program data BD to be temporarily stored in the temporary storage unit 22 according to the music number N of the music section identification tag TG1. Among the sections, the music partial section (hereinafter, immediately before this) in which temporary storage is started last (that is, when the largest song number N is assigned among the song numbers N assigned to the music section identification tag TG1). (Referred to as a music partial section), and the read out immediately preceding music partial section is sent to the playback unit 14. When the playback section 14 is given the immediately preceding music partial section of the program data BD from the reading section 23, the playback section 14 starts playback from the beginning to the tail of the immediately preceding music partial section of the program data BD, so that the program data BD Play the entire previous music segment. That is, as shown in FIG. 30, when a time machine reproduction request TPR is input during the output of a radio program, the control unit 24, in the program data BD temporarily stored in the temporary storage unit 22, is a time machine reproduction request TPR. The time machine playback TP is started from the beginning of the music partial section immediately before the point in time is input.

  In this way, the control unit 24 specifies a music partial section for performing the time machine playback TP in the program data BD in response to the input of the time machine playback request TPR during the radio output storage parallel processing, and the specified program The time machine playback TP is started from the beginning of the music part section of the data BD, and the user listens to the corresponding music part in the radio program. Therefore, the control unit 24, for example, allows the user who wants to listen to the currently output music from the beginning to input the time machine playback request TPR, and searches the user for the position to start the time machine playback TP. Without making it possible, the user can listen back to the beginning of the corresponding music in the radio program.

  In this case, when the time machine playback request TPR is input again during the time machine playback TP during the first music partial section playback processing, the control unit 24 temporarily stores the temporary storage unit 22 in the temporary storage unit 22. In the music partial section of the program data BD to be played, the music section identification corresponding to the music partial section of the immediately preceding music partial section (that is, the program data BD currently being reproduced in the program data BD) The music part section corresponding to the music section identification tag TG1 assigned with the music number N one before the music number N assigned to the tag TG1 is read out, and the read out immediately preceding music part section is sent to the playback unit 14. . When the reproducing section 14 is given the immediately preceding music partial section of the program data BD from the reading section 23, the reproducing section 14 starts reproduction from the beginning to the tail of the immediately preceding music partial section of the program data BD as described above. Then, the entire music partial section immediately before the program data BD is reproduced. That is, at the time of the first music partial section playback process, the control unit 24 sets the music part section of the program data BD temporarily stored in the temporary storage unit 22 by the reading unit 23 every time the time machine playback request TPR is input. The time machine reproduction TP is performed by reading backwards one by one (FIG. 30). Then, when the request to end the time machine playback TP is input via the input unit 12 or when the time machine playback TP ends to the end of the immediately preceding music partial section of the program data BD, the control unit 24 performs the first process. The music segment playback process is terminated. Moreover, the control part 24 will restart the output of the radio program currently broadcast from the radio station, if the 1st music partial area reproduction | regeneration process is complete | finished.

  In this way, at the time of radio output storage parallel processing, each time the time machine playback request TPR is input, the control unit 24 switches and specifies the music part section for performing the time machine playback TP in the program data BD. The time machine playback TP is started from the beginning of the music part section of the specified program data BD, and the user listens to the corresponding music part in the radio program. Therefore, the control unit 24, for example, allows a user who wants to confirm the contents of a music part that has already been output in a radio program to input a time machine playback request TPR a plurality of times. The corresponding music can be played back in order and confirmed by the user.

(1-10-2) Time Machine Recording During Time Machine Playback Next, in the case of the second processing technique, the control unit 24 sends a time machine playback request TPR via the input unit 12 during radio output storage parallel processing. Is input, the second music partial section reproduction process for reproducing the music partial section of the program data BD temporarily stored in the temporary storage unit 22 is started.

  When the control unit 24 starts the second music partial section playback process, the time machine playback request TPR is input during the output of the radio program in the same manner as in the first music partial section playback process described above. Accordingly, in the program data BD temporarily stored in the temporary storage unit 22, the time from the head of the music partial section (that is, the previous music partial section) immediately before the time machine playback request TPR is input (that is, the current time). Start machine playback TP.

  During the time machine playback TP, the control unit 24 records the program data BD retroactively through the input unit 12 up to the beginning of the immediately preceding music part segment in which the time machine playback TP is currently performed (hereinafter, this is recorded). When a TRR request (hereinafter referred to as “time machine recording request”) TRR is input, the reading unit 23 temporarily stores the TR according to the music number N of the music section identification tag TG1. The immediately preceding music part section of the program data BD temporarily stored in the unit 22 is read, and the immediately preceding music part section of the read program data BD is sent to the recording unit 16. When the recording section 16 is given the immediately preceding music partial section of the program data BD from the reading section 23, the recording section 16 starts recording from the beginning to the tail of the immediately preceding music partial section of the program data BD. The entire previous music partial section is recorded as one data file. That is, as shown in FIG. 31, when the time machine recording request TRR is input during the time machine playback TP, the control unit 24 includes the time machine playback request TPR in the program data BD temporarily stored in the temporary storage unit 22. The time machine recording TR is started from the beginning of the music partial section immediately before the point in time (ie, the present time) is input. When the request to end the time machine recording TR is input via the input unit 12 or when the time machine recording TR ends to the end of the immediately preceding music partial section of the program data BD, the control unit 24 performs the second The music segment playback process is terminated. Moreover, the control part 24 will restart the output of the radio program currently broadcast from the radio station, after complete | finishing a 2nd music partial area reproduction process.

  In this way, when the time machine playback TP of the radio program is performed, the control unit 24 selects the music part section currently performing the time machine playback TP in the program data BD according to the input of the time machine recording request TRR. The time machine recording TR is started from the head of the music part section of the specified program data BD, and the corresponding music part is recorded in the radio program. Therefore, when the time machine playback TP is performed, for example, when the user who wants to keep the music currently being output is simply input the time machine recording request TRR, the time machine recording TR is started. The corresponding music portion in the radio program can be specified and recorded without causing the user to find the position to perform.

(1-10-3) Time Machine Recording Next, in the case of the third processing technique, the control unit 24 performs time machine recording via the input unit 12 during radio program output parallel processing during radio program output. When the request TRR is input, the first music part section recording process for recording the music part section of the program data BD temporarily stored in the temporary storage unit 22 is started.

  When the control unit 24 starts the first music partial section recording process, the reading unit 23 causes the music immediately before the program data BD to be temporarily stored in the temporary storage unit 22 according to the music number N of the music section identification tag TG1. The partial section is read out, and the read out immediately preceding music partial section is sent to the recording unit 16. When the recording section 16 is given the immediately preceding music partial section of the program data BD from the reading section 23, the recording section 16 starts recording from the beginning to the tail of the immediately preceding music partial section of the program data BD. The entire previous music partial section is recorded as one data file. That is, as shown in FIG. 32, when the time machine recording request TRR is input during the output of the radio program, the control unit 24 includes the time machine recording request TRR in the program data BD temporarily stored in the temporary storage unit 22. The time machine recording TR is started from the beginning of the music partial section immediately before the point in time (ie, the present time) is input. Then, when the request to end the time machine recording TR is input via the input unit 12 or when the time machine recording TR is ended up to the end of the immediately preceding music partial section of the program data BD, the control unit 24 performs the first process. The music segment recording process is terminated. Moreover, the control part 24 will restart the output of the radio program currently broadcast from the radio station, if the 1st music partial area recording process is complete | finished.

  In this way, the control unit 24 specifies the music part section in which the time machine recording TR is performed in the program data BD in response to the time machine recording request TRR during the radio output storage parallel processing, and the specified program The time machine recording TR is started from the beginning of the music part section of the data BD, and the corresponding music part is recorded in the radio program. Therefore, the control unit 24 starts the time machine recording TR only by inputting the time machine recording request TRR to the user who wants to keep the currently output music, for example, when outputting the radio program. It is possible to record retroactively to the beginning of the corresponding music part in the radio program without having the user search for the position.

(1-10-4) Time Machine Batch Recording Next, in the case of the fourth processing technique, the control unit 24 performs a program corresponding to the radio program being output via the input unit 12 during the radio output storage parallel processing. In the data BD, the recording of all music partial sections of the program data BD is traced back to the top of all the music partial sections that have already been output (that is, reproduced) (hereinafter referred to as time machine batch recording). ) When a request to start TQ (hereinafter referred to as a time machine batch recording request) TQR is input, the second music part that records all music part sections of the program data BD stored in the temporary storage unit 22 The section recording process is started.

  When the control unit 24 starts the second music part section recording process, the reading unit 23 causes the music part of the program data BD to be temporarily stored in the temporary storage unit 22 according to the music number N of the music section identification tag TG1. A music partial section (hereinafter referred to as temporary music storage) in which temporary storage is started most recently in the section (that is, when 1 which is the smallest music number N among music numbers N assigned to the music section identification tag TG1) is assigned. , This is referred to as a first music partial section), and the first music partial section of the read program data BD is transmitted to the recording unit 16. When the recording unit 16 is given the first music partial section of the program data BD from the reading unit 23, the recording unit 16 starts recording from the beginning to the tail of the first music partial section of the program data BD, The entire first music partial section of the program data BD is recorded as one data file.

  Next, when the recording of the first music partial section of the program data BD is completed, the control unit 24 causes the reading unit 23 to temporarily store the program data in the temporary storage unit 22 according to the music number N of the music section identification tag TG1. Among the music partial sections of the BD, the music partial section that is immediately after the first music partial section (that is, the first music partial section of the program data BD that has been recorded at this time in the program data BD) The music part section corresponding to the music section identification tag TG1 assigned the music number N [that is, “2”] that is one after the music number N [that is, “1”] assigned to the music section identification tag TG1 corresponding to And hereinafter referred to as a second music partial section), and the second music partial section of the read program data BD is recorded as one data file in the recording unit 16 in the same manner as described above. Then, the control unit 24 stores the first music partial section, the second music partial section, the third music partial section of the program data BD from the temporary storage unit 22 until there is no music partial section to be recorded in the program data BD. The music sections are read in order and recorded in the recording unit 16 as separate data files. That is, as shown in FIG. 33, when a time machine batch recording request TQR is input during output of a radio program, the control unit 24 records time machine batch recording in the program data BD temporarily stored in the temporary storage unit 22. The time machine batch recording TQ is started from the beginning of the earliest music partial section from the time when the request TQR is input (that is, the present time), and all the music partial sections in the program data BD are recorded in order. Then, the control unit 24 receives a request to end the time machine batch recording TQ via the input unit 12, or the time machine batch recording TQ is ended up to the end of the immediately preceding music partial section of the program data BD. 2 music part interval recording processing is completed. Moreover, the control part 24 will restart the output of the radio program currently broadcast from the radio station, if the 2nd music partial area recording process is complete | finished.

  In this way, the control unit 24 responds to the input of the time machine batch recording request TQR during the radio output storage parallel processing, and temporarily stores the program data BD corresponding to the currently output radio program up to that point. All the music partial sections temporarily stored in 22 are specified collectively, and all the music partial sections of the specified program data BD are recorded as separate data files. Accordingly, the control unit 24, when outputting a radio program, for example, a user who does not know whether the desired music is included in the radio program output up to now, but does not have time to confirm whether the desired music is included. By simply inputting the time machine batch recording request TQR, all the music parts in the radio program output up to now are recorded at once, and the music part of the recorded radio program is played back later to the user. The desired music portion can be confirmed in the radio program.

(1-10-5) Highlight Playback Next, in the case of the fifth processing technique, the control unit 24 transmits program data corresponding to the radio program being output via the input unit 12 during the radio output storage parallel processing. Playing back feature sections in all music partial sections of program data BD, going back to the top of the feature sections in all music partial sections that have already been output (that is, played) in the BD (hereinafter referred to as BD) This is called time machine highlight reproduction) When a request to start TH (hereinafter referred to as time machine highlight reproduction request) THR is input, all program data BD temporarily stored in temporary storage unit 22 The feature section playback processing for playing back the feature section in the music partial section is started.

  When the control section 24 starts the feature section reproduction process, the reading section 23 reads the first music partial section from the temporary storage section 22 according to the music number N of the music section identification tag TG1.

  Here, in the music partial section of the program data BD, when divided by the dividing section 21, the characteristic section is specified according to the characteristic section information transmitted from the section specifying section 20 together with the section specifying information DI. ing. The feature section is formed by adding a feature section start identification tag TG3 for identifying the start position of the feature section and a feature section end identification tag TG4 for identifying the end position of the feature section to the program data BD. ing.

  Thus, when the first music partial section is read from the temporary storage unit 22 during the second music partial section recording process, the control unit 24 responds to the feature section start identification tag TG3 and the feature section end identification tag TG4. Then, the characteristic section in the read first music partial section is specified, and this is transmitted to the reproducing unit 14. When the reproduction section 14 is given a feature section in the first music partial section of the program data BD from the reading section 23, the playback section 14 changes from the beginning to the tail of the feature section in the first music partial section of the program data BD. Thus, the entire feature section in the first music partial section of the program data BD is reproduced.

  Next, when the reproduction of the characteristic section in the first music partial section of the program data BD is completed, the control unit 24 causes the reading unit 23 to store the second music in the program data BD temporarily stored in the temporary storage unit 22. Read a partial section. The control unit 24 specifies the feature section in the second music partial section of the read program data BD according to the feature section start identification tag TG3 and the feature section end identification tag TG4, and performs the same as described above. Playback is performed by the playback unit 14. The control unit 24 then stores the feature section in the first music partial section of the program data BD from the temporary storage section 22 until there is no feature section in the music partial section to be reproduced in the program data BD. The feature section in the second music partial section, the feature section in the third music partial section, and so on are read in order, and are sequentially played back by the playback unit 14. That is, as shown in FIG. 34, when the time machine highlight reproduction request THR is input during the output of the radio program, the control unit 24 selects the time machine high in the program data BD temporarily stored in the temporary storage unit 22. Time machine highlight playback TH is started from the beginning of the feature section in the music part section farthest in time from the time point when the light playback request THR is inputted (that is, the present time), and all the music part sections of the program data BD are started. Play the middle feature sections in order. Then, the control unit 24 receives a request to end the time machine highlight playback TH via the input unit 12 or when the time machine highlight playback TH ends up to the end of the immediately preceding music partial section of the program data BD, The highlight reproduction process ends. Further, when the highlight reproduction process is completed, the control unit 24 resumes the output of the radio program broadcast from the radio station.

  In this way, during the radio output storage parallel processing, the control unit 24 temporarily stores the program data BD corresponding to the currently output radio program up to that point in response to the input of the time machine highlight reproduction request THR. All of the music partial sections temporarily stored in the unit 22 are specified together, the characteristic sections in the music partial sections are specified, and the characteristic sections in all the music partial sections of the specified program data BD Is reproduced by the reproducing unit 14. Therefore, for example, the control unit 24 is a time machine for a user who does not know whether the desired music is included in the radio program output up to now, but does not have much time to confirm whether the desired music is included. By simply inputting the highlight playback request THR, only the characteristic portions (ie, “sabi”) of all the music portions in the radio program that have been output so far are played in order, and the user can listen to them in the radio program. The desired music portion can be easily confirmed in a short time.

(1-11) Description of Processing Procedure (1-11-1) First Music Partial Section Reproduction Processing Procedure Here, the first music partial section reproduction processing procedure will be described. When the time machine playback request TPR is input during the radio output storage parallel processing, the control unit 24 starts a first music partial section playback processing procedure RT10 as shown in FIG. When the control unit 24 starts the first music part section playback processing procedure RT10, in step SP111, the control unit 24 starts the time from the beginning of the music part section immediately before the program data BD corresponding to the music part of the currently output radio program. Machine reproduction TP is started, and the process proceeds to the next step SP112.

  In step SP112, the control unit 24 determines whether or not to switch the music partial section immediately before the time machine playback TP. If an affirmative result is obtained in step SP112, this means that the time machine reproduction request TPR is input again by the user during the time machine reproduction TP of the immediately preceding music partial section of the program data BD. Show. Accordingly, the control unit 24 proceeds to the next step SP113 at this time.

  In step SP113, the control unit 24 starts the time machine reproduction TP from the beginning of the next immediately preceding music partial section in the program data BD, and returns to step SP112.

  On the other hand, if a negative result is obtained in step SP112, this indicates that the time machine reproduction TP of the music partial section immediately before the program data BD that is currently performing the time machine reproduction T is continued. Accordingly, the control unit 24 proceeds to step SP114 at this time.

  In step SP114, the control unit 24 determines whether or not the time machine reproduction TP of the immediately preceding music partial section of the program data BD has ended. If a negative result is obtained in this step SP114, this means that a request to end the time machine playback TP has not been input, or the time machine playback TP has ended to the end of the immediately preceding music partial section of the program data BD. It shows no. Therefore, the control unit 24 returns to step SP112 at this time.

  On the other hand, if an affirmative result is obtained in step SP114, this means that a request to end the time machine playback TP has been input, or that the time machine playback TP has ended up to the end of the immediately preceding music partial section of the program data BD. Is shown. Therefore, the control unit 24 moves to step SP115 at this time, and ends the first music partial section reproduction processing procedure RT10.

  By such a first music partial section reproduction processing procedure RT10, the control unit 24 performs time machine reproduction TP during the output of the radio program.

(1-11-2) Second Music Partial Section Reproduction Process Procedure Next, the procedure of the second music partial section reproduction process described above will be described. When the time machine playback request TPR is input during the output of the radio program during the radio output storage parallel processing, the control unit 24 starts the second music partial section playback processing procedure RT11 as shown in FIG. When the control unit 24 starts the second music part section reproduction processing procedure RT11, in step SP121, the control unit 24 performs time from the head of the immediately preceding music part section of the program data BD corresponding to the music part of the currently output radio program. Machine reproduction TP is started, and the process proceeds to the next step SP122.

  In step SP122, the control unit 24 determines whether or not to record a music partial section of the program data BD in which the time machine playback TP is performed. If an affirmative result is obtained in this step SP122, this indicates that the time machine recording request TRR has been input by the user during the time machine playback TP of the music partial section of the program data BD. Yes. Accordingly, the control unit 24 proceeds to the next step SP123 at this time.

  In step SP123, the control unit 24 starts the time machine recording TR from the beginning of the music part section of the program data BD, records from the beginning to the tail of the music part section of the program data BD, and proceeds to the next step SP124. Move.

  On the other hand, if a negative result is obtained in step SP122, this indicates that the time machine reproduction TP of the music part section of the program data BD that is currently performing the time machine reproduction TP is continued. Accordingly, the control unit 24 proceeds to step SP124 at this time.

  In step SP124, the control unit 24 determines whether or not the time machine playback TP of the music partial section of the program data BD has ended. If a negative result is obtained in this step SP124, this means that a request to end the time machine playback TP has not been input, or the time machine playback TP has not ended until the end of the music partial section of the program data BD. It is shown that. Therefore, the control unit 24 returns to step SP122 at this time.

  On the other hand, if an affirmative result is obtained in step SP124, this means that a request to end the time machine playback TP has been input, or that the time machine playback TP has ended to the end of the immediately preceding music partial section of the program data BD. Is shown. Therefore, the control unit 24 moves to step SP125 at this time, and ends the second music partial section reproduction processing procedure RT11.

  According to the second music partial section reproduction processing procedure RT11, the control unit 24 performs the time machine reproduction TP during the output of the radio program, and performs the time machine recording TR during the time machine reproduction TP. Has been made.

(1-11-3) First Music Partial Section Recording Process Procedure Next, the above-described first music partial section recording process procedure will be described. When the time machine recording request TRR is input during the output of the radio program during the radio output storage parallel processing, the control unit 24 starts the first music partial section recording processing procedure RT12 as shown in FIG. When the control unit 24 starts the first music part section recording processing procedure RT12, in step SP131, the control unit 24 starts the time from the head of the immediately preceding music part section of the program data BD corresponding to the music part of the currently output radio program. The machine recording TR is started and the process proceeds to the next step SP132.

  In step SP132, the control unit 24 determines whether or not the time machine recording TR of the immediately preceding music partial section of the program data BD has ended. If a negative result is obtained in this step SP132, this means that a request to end the time machine recording TR has not been input, or the time machine recording TR has not ended until the end of the music partial section of the program data BD. It is shown that. Therefore, the control unit 24 repeats step SP132 until a positive result is obtained at this time.

  On the other hand, if an affirmative result is obtained in step SP132, this means that a request to end the time machine recording TR has been input or that the time machine recording TR has ended up to the end of the immediately preceding music partial section of the program data BD. Is shown. Therefore, the control unit 24 moves to step SP133 at this time, and ends the first music partial section recording processing procedure RT12.

  By such a first music partial section recording processing procedure RT12, the control unit 24 performs time machine recording TR during the output of the radio program.

(1-11-4) Second Music Partial Section Recording Process Procedure Here, the procedure of the second music partial section recording process described above will be described. When the time machine batch recording request TQR is input during the output of the radio program during the radio output storage parallel processing, the control unit 24 starts the second music partial section recording processing procedure RT13 as shown in FIG. . When the control unit 24 starts the second music part section recording processing procedure RT13, in step SP141, the time machine collects from the head of the music part section that has been temporarily stored in the program data BD at the past time point. The recording TQ is started and the process proceeds to the next step SP142.

  In step SP142, the control unit 24 determines whether or not the time machine batch recording TQ of the music partial section of the program data BD has ended. If a negative result is obtained in this step SP142, this indicates that the temporary storage of the music part section of the program data BD currently performing the time machine batch recording TQ has not been completed yet. Therefore, the control unit 24 repeats this step SP142 until a positive result is obtained.

  On the other hand, if an affirmative result is obtained in step SP142, this indicates that the temporary storage of the music part section of the program data BD currently performing the time machine batch recording TQ has already been completed. Therefore, the control unit 24 proceeds to the next step SP143.

  In step SP143, the control unit 24 determines whether or not there is an unrecorded music partial section in the temporarily stored program data BD. If a positive result is obtained in step SP143, this indicates that the time machine batch recording TQ has not ended. Therefore, the control unit 24 proceeds to the next step SP144.

  In step SP144, the control unit 24 starts recording from the beginning of the next music partial section of the program data BD, and returns to step SP142.

  On the other hand, if a negative result is obtained in step SP143, this indicates that the time machine batch recording TQ has ended. Therefore, the control unit 24 proceeds to the next step SP145, and ends the second music partial section recording processing procedure RT13.

  According to the second music partial section recording processing procedure RT13, the control unit 24 performs time machine batch recording TQ during the output of the radio program.

(1-11-1-5) Feature Section Reproduction Process Procedure Next, the procedure of the feature section reproduction process described above will be described. When the time machine highlight reproduction request THR is input during the radio output storage parallel processing, the control unit 24 starts a characteristic section reproduction processing procedure RT14 as shown in FIG. When the control section 24 starts the feature section reproduction processing procedure RT14, in step SP151, the time machine highlights from the head of the feature section of the music partial section that has been temporarily stored at the most past time in the program data BD. Playback TH is started and the process proceeds to the next step SP152.

  In step SP152, the control unit 24 determines whether or not the time machine highlight reproduction TH of the feature section in the music partial section of the program data BD has ended. If a negative result is obtained in this step SP152, this means that a request to end the time machine highlight playback TH has not been input, or the time machine highlight playback TH has not been received until the end of the music part section of the program data BD. Indicates that it has not finished. Therefore, the control unit 24 repeats this step SP152 until a positive result is obtained.

  On the other hand, if an affirmative result is obtained in step SP152, this means that a request to end time machine highlight playback TH has been input, or time machine highlight playback TH until the end of the music partial section of program data BD. Indicates that has ended. Therefore, the control unit 24 proceeds to the next step SP153.

  In step SP153, the control unit 24 determines whether there is an unrecorded feature section among the music partial sections of all program data BD temporarily stored. If a positive result is obtained in step SP153, this indicates that the time machine highlight reproduction TH has not ended. Therefore, the control unit 24 proceeds to the next step SP154.

  In step SP154, the control unit 24 starts playback from the beginning of the feature section in the next music partial section of the program data BD, and returns to step SP152.

  On the other hand, if a negative result is obtained in step SP153, this indicates that the time machine highlight reproduction TH has ended. Therefore, the control unit 24 proceeds to the next step SP155, and ends the feature section reproduction processing procedure RT14.

  By such a feature section reproduction processing procedure RT14, the control unit 24 performs time machine highlight reproduction TH during the output of the radio program.

(1-12) Data Format Conversion In addition to this configuration, the data reproducing apparatus 10 is provided with a data format conversion unit 25. The data format conversion unit 25, when the control unit 24 executes the above-described first to fifth processing methods, as a stage before recording as a data file in the recording unit 16, a music partial section in the program data BD. It has been designed to convert data formats. Here, the data format defines the data amount of the music partial section in the program data BD, and the bit rate, sampling rate, compression rate, sound system, etc. are changed by converting this data format. be able to.

  As a result, the control unit 24 converts the music partial sections in the program data BD into different data formats by the data format conversion unit 25 and records them as data files in the recording unit 16 during the radio output storage parallel processing. The data format is converted so that the data amount becomes small before and after the data format conversion, thereby reducing the data amount of the data file to be recorded in the recording unit 16 and used for recording the data file. The recording area of the recording unit 16 can be reduced.

(1-13) Operation and Effect In the above configuration, the data reproduction device 10 can generate music of the program data BD corresponding to the output radio program according to the music MS and the volume level VS during the output of the radio program. The partial section and the conversation partial section are specified, and the music partial section and the conversation partial section of the specified program data BD are divided and temporarily stored.

  Therefore, the data reproduction device 10 outputs the program data BD temporarily stored in the temporary storage unit 22 at the time of outputting the radio program, for example, in response to a request from the user who has temporarily removed his / her seat while listening to the radio program. By reading out the music section and playing it from the beginning, it can be played back to the beginning of the music part that has already been output in the radio program and listened to the user. By recording the music part section of the program data BD, the music part of the recorded program data BD can be reproduced later and listened to by the user.

  According to the above configuration, the data playback device 10 corresponds to a music portion in the program data BD being played back while receiving and playing back the program data BD including the music portion when the radio program is output. If the command is input when the program data BD is being reproduced, the music segment section temporarily stored is specified. By reading the data, even when the music partial section data is already played back as part of the program data BD when the program data BD is played back, by reading the music partial section data from the temporary storage unit 22, The read music partial section data can be played back and listened to, or such music partial section data can be recorded and listened later and thus used. It can be improved without permission.

  Further, the data reproducing apparatus 10 temporarily stores the program data BD in the temporary storage unit 22 until the next radio program is requested or the power is turned off at the time of the radio output storage parallel processing. did. Therefore, the data reproducing apparatus 10 reads out the music partial section from the program data BD temporarily stored in the temporary storage unit 22 until the next radio program is requested or the power is turned off. Can be recorded, thus improving usability.

  Further, during the radio output storage parallel processing, the data playback device 10 specifies a music part section for performing the time machine playback TP in the program data BD in response to the input of the time machine playback request TPR, and specifies the specified program data BD. By starting the time machine playback TP from the beginning of the music part section and letting the user listen to the corresponding music part in the radio program, for example, to listen to the music currently being output from the beginning By simply inputting the time machine playback request TPR to the user, the user can listen back to the beginning of the corresponding music in the radio program without causing the user to find the position to start the time machine playback TP. Can thus improve usability.

  Furthermore, at the time of radio output storage parallel processing, each time the time machine playback request TPR is input, the data playback device 10 switches and specifies the music part section for performing the time machine playback TP in the program data BD. The time machine playback TP is started from the beginning of the music part section of the program data BD so that the user can listen to the corresponding music part in the radio program, for example, the output has already ended in the radio program. By simply inputting the time machine playback request TPR multiple times to the user who wants to check the contents of the music part that has been lost, the corresponding music in the radio program can be played back in order and confirmed by the user. Thus, usability can be improved.

  Further, the data playback device 10 specifies the music part section currently performing the time machine playback TP in the program data BD according to the input of the time machine recording request TRR at the time machine playback TP of the radio program. When the time machine playback TP is performed by starting the time machine recording TR from the beginning of the music part section of the specified program data BD and recording the corresponding music part in the radio program. For example, by inputting a time machine recording request TRR to a user who wants to keep music that is currently being output, the user can search for a radio program without searching for a position to start the time machine recording TR. It is possible to specify and record the corresponding music part in the inside, thus improving the usability.

  Further, during the radio output storage parallel processing, the data reproduction device 10 specifies a music part section for performing the time machine recording TR in the program data BD according to the time machine recording request TRR, and music of the specified program data BD. By starting time machine recording TR from the beginning of the partial section and recording the corresponding music part in the radio program, for example, for users who want to keep the music that is currently being output By simply inputting the time machine recording request TRR, it is possible to record back to the beginning of the corresponding music part in the radio program without causing the user to find the position to start the time machine recording TR. Usability can be improved.

  Further, the data reproducing apparatus 10 responds to the input of the time machine batch recording request TQR during the radio output storage parallel processing, in the program data BD corresponding to the currently output radio program, in the temporary storage unit 22 up to that point. By specifying all the temporarily stored music partial sections at once and recording all the music partial sections of the specified program data BD as separate data files, for example, when outputting a radio program, However, a user who does not know whether the desired music is included in the radio program output up to now, but does not have time to check whether the desired music is included, is simply input the time machine batch recording request TQR Then, record all the music parts in the radio program that has been output so far and play the music part of the recorded radio program later Te by listening to the user, a desired music part in the radio program may be allowed to confirm later, thus, may improve the usability.

  Further, the data reproduction device 10 responds to the input of the time machine highlight reproduction request THR during the radio output storage parallel processing, and temporarily stores the program data BD corresponding to the currently output radio program until that point. All of the music partial sections temporarily stored in are specified together, the characteristic sections in the music partial sections are specified, and the characteristic sections in all the music partial sections of the specified program data BD are reproduced. By playing the program by the unit 14, for example, a user who does not know whether the desired music is included in the radio program output up to now, but does not have much time to check whether the desired music is included. Just input the time machine highlight playback request THR to the feature part of all the music parts (sna Chi "rust") only allowed to listen to the user and played back in order, can be easily confirmed in a short period of time desired music part in the radio program, thus, it can improve the ease of use.

  Further, the data reproducing apparatus 10 records the music part section in the program data BD into the data format by the data format conversion unit 25 and records it as a data file in the recording unit 16 during the radio output storage parallel processing. Therefore, the data reproducing apparatus 10 converts the data format of the music partial section in the program data BD so that the data amount becomes small before and after the conversion of the data format, so that the data file data to be recorded in the recording unit 16 By reducing the amount, the recording area of the recording unit 16 used for recording such a data file can be reduced, and thus the recording unit 16 can be used effectively.

  Further, the data reproducing apparatus 10 detects a music likeness MS representing how much the program data seems to be music and also detects the volume level VS of the program data from the program data formed by mixing the music part and the conversation part. Then, according to the detection result of the music likeness MS and the sound volume level VS, the music part interval corresponding to the music part and the conversation part interval corresponding to the conversation part are specified in the program data, and this is specified. By recording the program data, when recording the program data, the music part section and the conversation part section of the program data that are difficult to specify each section with high accuracy finally in the music likeness MS, It is possible to specify and record so as to be supplemented by the volume level VS, and finally, at the volume level VS, it is difficult to specify each section with high accuracy. A story subinterval may be identified and recorded to compensate in the musical piece likelihood MS, thus, from the program data including the music data, it can be recorded to identify the music data with high accuracy.

  Further, in this case, the data reproducing apparatus 10 can detect that the conversation part section and the music part section are switched in the program data, but the specific data between the conversation part section and the music part section of the program data can be detected. Although it is possible to identify the specificity between the curvature MS that makes it difficult to specify the boundary and the conversation part and the music part of the program data, the conversation part and the music part of the program data are switched. By specifying the conversation part section and the music part section of the program data according to the volume level VS which is difficult to detect, it is possible to specify the conversation part section and the music part section of the program data with high accuracy. it can.

  Furthermore, the data reproduction device 10 specifies a section boundary candidate range SA as a range including the boundary between the music part section and the conversation part section in the program data according to the music MS, and according to the volume level VS, By specifying the section boundary candidate position KP that is a candidate for the position where the music partial section and the conversation partial section are switched in the section boundary candidate range SA, the conversation and music of the radio program are silent sections LS. When switching without intervening, or when the radio program conversation and music only partially overlap and switch, the range of continuous switching from the radio program conversation to music is determined by the curiosity MS The volume level VS is detected at the position where the radio program conversation is actually switched to the music within the detected range. Particular response is detected, it is possible to identify the talking part section and the music part section of the program data with high accuracy.

  Furthermore, after detecting the silence section LS as a section where silence of a predetermined range or more is continued by the volume level VS, the data reproduction device 10 determines whether the music MS is a music part and a conversation part of the program data. When the predetermined discrimination threshold is exceeded, the position where the music partial section and the conversation partial section are switched is specified according to the detected silent section LS, so that there is no silence between the conversation and the music in the radio program. When a section LS is inserted, it is possible to accurately identify the conversation part section and the music part section of the program data by confirming the value of the curiosity MS after detecting the silent section LS. it can.

  Furthermore, in this case, the data reproducing apparatus 10 may, for example, provide music that causes the music MS to rise slowly only when the start of the song is very quiet or only a low scale is used. Even if it is included, if the silent section LS is included at the beginning of such music, it is possible to specify the conversation part section and the music part section of the program data.

  Furthermore, when the data reproducing apparatus 10 detects the silent section LS based on the volume level VS, the detected silence is detected when the music likelihood MS exceeds a predetermined determination threshold for determining the music portion and the conversation portion of the program data. The rise of the section LS to the sound is detected as the section boundary candidate position KP, and the section boundary candidate position KP is specified as the section boundary where the conversation part section and the music part section of the program data are switched. By doing so, it is possible to reduce the silent part included at the beginning of the finally specified music part section or conversation part section as much as possible, and to improve listening comfort when playing back later.

  Further, when the data reproducing apparatus 10 specifies the music partial section and the conversation partial section of the program data, the data reproducing apparatus 10 converts the program data into the music partial section data and the conversation partial section data according to the specified section specifying information DI. It was divided into and and recorded. Accordingly, when the data reproducing apparatus 10 reproduces the recorded program data, the music partial section data and the conversation partial section recorded separately are reproduced without reproducing the program data in order from the beginning and allowing the user to confirm the contents. By simply accessing and reproducing the data directly, the user can be made to confirm the contents, and thus the usability can be improved.

(1-14) Other Embodiments In the first embodiment described above, the music part section of the divided program data BD is recorded in the recording unit 16 as a data file after the data format is converted. However, the present invention is not limited to this, and recording may be performed without compression without converting the data format. Further, the conversion of the data format of the music partial section of the program data BD may not be before recording in the recording unit 16 but before it is temporarily stored in the temporary storage unit 22. In that case, by converting the data format so that the data amount becomes small before and after the data format conversion, the data amount of the music partial section of the program data BD temporarily stored in the temporary storage unit 22 is reduced, and the program data It is possible to reduce the temporary storage area of the temporary storage unit 22 used for temporary storage of the music partial section of the BD.

  In the first embodiment described above, the case where both the music part section and the conversation part section of the program data BD are temporarily stored in the temporary storage unit 22 during the radio output storage parallel processing has been described. The present invention is not limited to this, and only the music partial section of the program data BD may be temporarily stored. Further, depending on the setting, only the conversation part section of the program data BD may be temporarily stored, and the section temporarily stored in the program data BD is assumed to be whatever depending on the setting.

  Further, in the above-described embodiment, the time machine playback TP, the time machine recording TR, the time machine batch recording request TQR, and the time machine highlight playback request THR are performed in the music partial section in the program data BD. However, the present invention is not limited to this, and the same processing may be performed for the conversation partial section in the program data BD.

  Further, in the first embodiment described above, there are the first to fifth processing methods, and the case where any processing method can be executed by selecting it has been described. Not limited to this, the first to fifth processing methods may be executed not only independently but also arbitrarily selected and executed in combination.

  Further, in the above-described embodiment, when radio output storage parallel processing is performed, in response to the input of the time machine highlight reproduction request THR, the characteristic section in the music partial section of the program data BD is read and reproduced. As described above, the present invention is not limited to this, and in response to the input of the time machine highlight reproduction request THR, the music partial section of the program data BD is read and only the characteristic section of the music partial section of the read program data BD is reproduced. You may make it do.

  Further, in the above-described embodiment, at the time of radio output storage parallel processing, each time machine playback request TPR is input, the music part section of the program data BD is switched back to the past to perform time machine playback TP. Although the present invention has been described, the present invention is not limited to this, and the music sections of the program data BD may be played back in the order in which they are temporarily stored from the past to the present, or the time is randomly shuffled. You may make it perform machine reproduction | regeneration TP.

  Further, in the first embodiment described above, as a method for detecting the bendability by the bendiness detecting unit 18, the processing unit data of the program data is extracted from the energy in the frequency band of each of the 12 scales, and the music is calculated based on the extraction result. Although the case where the likelihood is detected is described, the present invention is not limited to this, and the following two kinds of methods for detecting the likelihood of bending may be used.

  Of these two types of curvature detection methods, one of the curvature detection methods is that the frequency component of a human voice is distributed on a relatively low frequency side, and the frequency component of a sound such as a musical instrument is on a relatively high frequency side. It uses the distribution. In other words, one curvature detection method performs frequency analysis on the processing unit data and detects the curvature based on the analysis result. On the other hand, in the other method of detecting the likelihood of music, since audio data is generally encoded by modeling a human voice generation mechanism (ie, compression processing), data other than voice such as music is encoded. In some cases, there is a difference between the original waveform of the data and the waveform of the processing result data obtained by codec processing (that is, decoding processing after encoding processing) (hereinafter, this is referred to as encoding error). The fact that it is larger than the encoding error obtained from the voice data is used. That is, the other curvature detection method detects the curvature based on the encoding error of the processing unit data. And even if any one of these two kinds of curvature detection methods is applied to this curvature detection part 18, the effect similar to 1st Embodiment mentioned above can be acquired. In the following, these two types of curvature detection methods will be described in order.

  First, when one curvature detection method is applied to the curvature detection unit 18, the curvature detection unit 18 performs one curvature detection process according to a curvature detection program stored in advance in a memory (not shown). Start. When the curvaceousness detection unit 18 starts the one curvaceousness detection process, processing unit data in the program data given from the data processing unit 13 (for example, a time during broadcasting of a radio program is added as a time code). In the program data, which is composed of data of 1024 samples from the time t as a base point to the elapsed time of the time t). And the curvature detection part 18 decomposes | disassembles the said processing unit data into a frequency spectrum by performing a fast Fourier transform (FFT: fast Fourier Transfer) calculation with respect to the processing unit data.

Further musical piece likelihood detecting unit 18 divides the frequency spectrum sp _n of the frequency spectrum sp _n and high frequency of the low-frequency as a boundary of a frequency spectrum sp example 8 [KHz]. Incidentally if the sampling frequency of program data is 44.1 [KHz], the frequency spectrum sp _n of low frequency sp ₀ to _{sp 185,} and the frequency spectrum sp _n of the high frequency band becomes _{sp 186} to _{sp 511.} Further, the curvature detection unit 18 obtains the low-frequency power spectrum a from the equation (1).

As shown, the magnitude component of the low frequency spectrum sp _{0 to} sp ₁₈₅ is calculated by squaring, and the high frequency power spectrum b is expressed by equation (2).

As shown, the magnitude components of the high frequency spectrum sp _{186 to} sp ₅₁₁ are squared and calculated.

Then, the musical piece likelihood detecting unit 18, the ratio of the power spectrum b of the power spectrum a and high frequency of low frequency (hereinafter referred to as power spectrum ratio) and R _t (3) formula

Calculate according to

Then, the curvature detection unit 18 uses the moving average value calculation method to calculate the moving average value x of the total n power spectrum ratios R _t−n obtained up to this point, using Equation (4).

The moving average value x is defined as the curvature MS.

  Next, the curvaceousness detection unit 18 cyclically repeats the above-described processing until the curvaceousness is detected for the processing unit data of the entire program data. Then, when the detection of the bendability MS for the processing unit data of the entire program data is completed, the bendness detection unit 18 ends the one bendness detection process.

  In this way, when one of the curvaceousness detection methods is applied, the curvaceousness detection unit 18 receives a human voice as a program of a radio program with program data, as is apparent from the above-described equation (3). Program data is processed by utilizing the fact that the curvature MS is relatively small at the dominant location and the curvature MS is relatively large at the location where the sound of the instrument other than the human voice is dominant. The curvature MS is detected sequentially for each unit data.

  Further, when the other curvature detection method is applied to the curvature detection unit 18, the curvature detection unit 18 performs the other curvature detection processing according to the curvature detection program stored in advance in a memory (not shown). Start. When the curvaceousness detection unit 18 starts the other curvaceousness detection processing, the processing unit data (for example, a certain time t as a time code added to the program data) in the program data supplied from the data processing unit 13 is obtained. (It is composed of 200 samples of data from the time t as the base point). Then, the curvature detection unit 18 converts the sampling frequency of the processing unit data. For example, the curvature detection unit 18 adjusts the sampling frequency of the processing unit data at this time to a frequency that can be handled by a later codec process (for example, a codec process according to the Code Excited Linear Prediction (CELP) method). Convert to 8 [KHz] or 16 [KHz].

Further, the bendness detection unit 18 performs codec processing (that is, once encodes and then decodes) the processing unit data. Then, the bendness detection unit 18 encodes an encoding error from the original waveform c of the processing unit data and the waveform d of the processing result data including, for example, the same 200 samples of data obtained by codec processing the processing unit data. Let _{Et be the} formula (5)

As shown, the calculation is performed so as to obtain the difference between the samples. Incidentally, the curvature detection unit 18 considers a delay delay from the start of the codec processing to the processing unit data to the codec processing of the processing unit data to obtain the processing result data when performing the calculation shown in the equation (5). Thus, the encoding error _Et is calculated.

Then, the musical piece likelihood detecting unit 18 uses the calculation method of the moving average value, a moving average of the numerical value x of the total of n encoding errors E _t obtained up to this point (6)

The moving average value x is defined as the curvature MS.

  Next, the curvature detection unit 18 cyclically repeats the above-described process until the curvature MS is detected for the processing unit data of the entire program data. Then, when the detection of the bendability MS for the processing unit data of the entire program data is completed, the bendness detection unit 18 ends the other bendness detection process.

  In this way, when the other curvature detection method is applied, the curvaceousness detection unit 18 utters a human voice as a program of a radio program with program data, as is apparent from the above formula (5). Program data is processed by utilizing the fact that the curvature MS is relatively small at the dominant location and the curvature MS is relatively large at the location where the sound of the instrument other than the human voice is dominant. Sequentially MS is detected for each unit data.

  Further, in the above-described first embodiment, the case where the radio broadcast wave of the radio station is received and the program data corresponding to the radio program is generated has been described, but the present invention is not limited to this, If broadcasting data including a music partial section is acquired, program data generated by receiving a television broadcast from a television station, streaming data acquired via a communication line, program data already stored in a recording unit, Streaming data or the like may be applied, and in that case, the same effect can be obtained.

  Further, in the first embodiment described above, when the music partial section and the conversation partial section of the program data are specified, the program data is converted into the music partial section data according to the section specifying information DI as a result of the specification. Although the case where it is divided into conversation partial section data and recorded as a data file has been described, the present invention is not limited to this, and program data is recorded together with section specifying data DI without being divided. Anyway. In that case, the program data and the section specifying data DI may be associated with each other and recorded as another data file, or the section specifying data DI may be stored and recorded as header information of the program data. A predetermined tag may be added to a corresponding position in the program data according to the section specifying data DI.

  Furthermore, in the above-described first embodiment, the case where the discrimination threshold is applied as the discrimination threshold of the curvature MS normalized to the value of 0 to 1 has been described. However, the present invention is not limited to this, and the discrimination threshold is used. May be any value between 0 and 1 according to the conditions. Further, the value of the curvature MS need not be normalized, and the same applies to the corresponding determination threshold value.

  Further, in the first embodiment described above, the expression that the curvature MS exceeds the determination threshold and the curvature MS exceeds the determination threshold are expressed as the curvature MS exceeds the determination threshold. Not limited to this, the curvature MS may exceed the discrimination threshold and the curvature MS may be less than or equal to the discrimination threshold. The curvature MS may exceed the discrimination threshold. It shall be

  Furthermore, in the first embodiment described above, when the silent section LS of the program data is detected, the position that rises from the silent state to the voiced state in the silent section LS is set as the section boundary candidate position KP. However, the present invention is not limited to this, and in the silent section LS, the position where the voiced state first becomes silent can be detected and set as the section boundary candidate position KP. .

  Furthermore, in the first embodiment described above, when the silent section LS is detected in the conversation part section of the program data during the second silent detection section specifying process, the silent section LS is, for example, a radio program However, the present invention is not limited to this, and when a silent section LS is detected in a conversation partial section of program data, You may make it identify before and behind the silence area LS as another conversation partial area.

  Furthermore, in the first embodiment described above, a case where program data is specified as a music part and a conversation part, that is, a case where a radio program is specified as a music part and a conversation part will be described. However, the present invention is not limited to this, and it may be specified by subdividing according to the contents of the radio program such as a music part, a conversation part, a commercial part, a news part, a traffic information part, and the like.

  Further, in the above-described first embodiment, the case where the bendness MS is detected by the bendness detection unit 18 and the volume level VS is detected by the volume level detection unit 19 has been described. However, the present invention is not limited to this, and the bendness analysis processing unit 33 may detect the bendness MS and the volume level analysis processing unit 34 may detect the volume level VS. In that case, if the section specifying control unit 31 is responsible for the functions of the section specifying control unit 31, the curvature analysis processing unit 33, and the volume level analysis processing unit 34, the same as the first embodiment described above. An effect can be obtained.

  Further, in the first embodiment described above, there are the first to fourth section specifying methods, and the case where any section specifying method can be executed by selecting is described. However, the present invention is not limited to this, and the first to fourth section specifying methods may be executed not only independently but also arbitrarily selected and executed in combination.

(2) Second Embodiment (2-1) Outline of Second Embodiment Next, the hardware circuit configuration of the hardware circuit block of the data reproducing device 100 according to the second embodiment will be described with reference to FIG. Show. In the data reproducing apparatus 100, a central processing unit (CPU) 50 and each hardware are connected via a bus 51, and the central processing unit 50 is connected to a ROM (Read Only Memory) 52 or a hard disk drive 53. Various programs such as the read data recording program are developed and executed by a RAM (Random Access Memory) 54, so that overall control is performed and various processes are executed.

  As a result, when the central processing unit 50 selects a radio station via an operation key 55 provided on the housing or the like of the data reproducing apparatus 100 and requests output of a radio program, the central processing unit 50 sends a plurality of radios to the tuner 59. It is set and operated so as to extract the radio broadcast wave of the radio station selected by the user from the radio broadcast waves of the station. At this time, the central processing unit 50 controls the data processing unit 57 to output a radio program. Thereby, the tuner 59 extracts the radio broadcast wave of the radio station selected by the user from the radio broadcast waves of each radio station received by the antenna 60, and performs predetermined reception processing such as demodulation processing, The program signal of the radio program obtained as a result is sent to the data processing unit 57. The data processing unit 57 performs digital processing such as analog-digital conversion processing and equalizing processing on the program signal given from the tuner 59, and analog processing such as digital-analog conversion processing and amplification processing on the resulting program data. Apply. As a result, the data processing unit 57 obtains a program signal according to the analog processing, and sends the program signal to the speaker 58, thereby outputting the sound of the program based on the program signal from the speaker 58 to allow the user to listen to the program signal. In this way, the central processing unit 50 can allow the user to listen to a radio program broadcast on a desired radio station.

  When the radio station is selected via the operation key 55 and recording of the radio program is requested, the central processing unit 50 extracts the radio broadcast wave of the radio station selected by the user using the tuner 59 as described above. Set to work. At this time, the central processing unit 50 controls the data processing unit 57 for recording radio programs. As a result, the tuner 59 extracts the radio broadcast wave of the radio station selected by the user from the radio broadcast waves of each radio station received by the antenna 60, and performs reception processing. The program signal of the program is sent to the data processing unit 57. Further, the data processing unit 57 performs digital processing on the program signal given from the tuner 59 and sends the program data obtained as a result to the central processing unit 50. The central processing unit 50 then sends the program data to the hard disk drive 53 and records it as a data file. In this way, the central processing unit 50 can record a radio program broadcast on a desired radio station.

  Further, when the reproduction of the program data is requested via the operation key 55, the central processing unit 50 reads out the program data requested to be reproduced from the hard disk drive 53 and sends it to the data processing unit 57. The data processing unit 57 performs predetermined digital processing on the program data given from the central processing unit 50, and then performs analog processing such as digital analog conversion processing and amplification processing on the digitally processed program data. As a result, the data processing unit 57 obtains a program signal in accordance with the analog processing, and transmits the program signal to the speaker 58, so that the sound of the radio program based on the program signal is output from the speaker 58 to allow the user to listen to it. Can do. In this way, the central processing unit 50 can listen to the radio program recorded on the hard disk drive 53.

  In the data reproducing apparatus 100, the central processing unit 50 executes various processes according to various programs stored in the ROM 52 or the hard disk drive 53 and controls each hardware as described above. Therefore, in the data reproducing apparatus 100, the central processing is performed by appropriately selecting various programs to be stored in the ROM 52 or the hard disk drive 53 in accordance with the function of the data reproducing apparatus 10 having the hardware configuration by the functional circuit block described above with reference to FIG. The unit 50 and the data processing unit 57 can function in the same manner as the above-described data generation unit 13 (FIG. 2). In the data reproducing apparatus 100, the central processing unit 50 and the data processing unit 57 can function in the same manner as the above-described reproducing unit 14 (FIG. 2).

  In the data reproducing apparatus 100, the operation key 55 can function in the same manner as the input unit 12 (FIG. 2), and the central processing unit 50 and the hard disk drive 53 are connected to the recording unit 16 (FIG. 2). Can function in the same way. Further, in the data reproducing apparatus 100, the central processing unit 50, the tuner 59, and the antenna 60 can function in the same manner as the above-described receiving unit 11 (FIG. 2), and the central processing unit 50 and the display unit 61 are configured as described above. It can be made to function similarly to the display part 17 (FIG. 2). Furthermore, in the data reproducing apparatus 100, the central processing unit 50 is divided into the above-described curvature detecting unit 18 (FIG. 2), volume level detecting unit 19 (FIG. 2), section specifying unit 20 (FIG. 2), dividing unit 21 (FIG. 2) It can function in the same manner as each of the reading unit 23 (FIG. 2), the control unit 24 (FIG. 2), and the data format conversion unit 25 (FIG. 2). The RAM 54 corresponds to the above-described temporary storage unit 22 (FIG. 2). The speaker 58 corresponds to the above-described output unit 15 (FIG. 2).

  Therefore, the data reproducing apparatus 100 can execute the above-described processing similar to the data reproducing apparatus 10 by appropriately selecting various programs to be stored in the ROM 52 or the hard disk drive 53 according to the function of the data reproducing apparatus 10. Thus, the same effect as that of the first embodiment described above can be obtained.

(2-2) Other Embodiments In the above-described second embodiment, the case where the data reproducing apparatus according to the present invention is applied to the data reproducing apparatus 100 described above with reference to FIG. 40 has been described. However, the present invention is not limited to this, and an HDD (Hard Disk Drive) video player, an optical disc player, a semiconductor memory type player, a mobile phone with a radio playback function, a portable audio player with a radio playback function, a personal computer, and the like. In addition, the present invention can be widely applied to various other data reproducing apparatuses.

  In the above-described second embodiment, the case where the tuner 59 and the antenna 60 described above with reference to FIG. 40 are applied as the receiving unit that receives broadcast data including a music portion has been described. The present invention is not limited to this, and various other receiving units such as an antenna-integrated tuner can be widely applied.

  Furthermore, in the second embodiment described above, the case where the central processing unit 50 and the data processing unit 57 described above with reference to FIG. 40 are applied as the playback unit that plays back the broadcast data received by the receiving unit. As described above, the present invention is not limited to this, and various other reproduction units such as a reproduction circuit having a hardware configuration for reproducing broadcast data received by the reception unit can be widely applied.

  Furthermore, in the second embodiment described above, as a section specifying unit for specifying a music part section corresponding to a music part in the broadcast data being received by the receiving unit and being played back by the receiving unit, FIG. Although the case where the above-described central processing unit 50 is applied has been described, the present invention is not limited to this, and corresponds to a music portion in broadcast data being received by the receiving unit and being reproduced by the receiving unit. Various other section specifying units can be widely applied, such as a section specifying circuit for specifying a music partial section.

  Furthermore, in the second embodiment described above, the RAM 54 described above with reference to FIG. 40 is applied as a temporary storage unit that temporarily stores the music partial section specified in the broadcast data by the section specifying unit as music partial section data. However, the present invention is not limited to this, and various other temporary storage units such as an optical disk recorder, a cassette tape recorder, a semiconductor memory type recorder, and a hard disk type recorder are widely applied. be able to.

  Furthermore, in the second embodiment described above, the case where the central processing unit 50 described above with reference to FIG. 40 is applied as a reading unit that reads music partial section data from the temporary storage unit has been described. However, the present invention is not limited to this, and various other reading units such as a reading circuit for reading music partial section data from the temporary storage unit can be widely applied.

  Further, in the above-described second embodiment, the case where the central processing unit 50 and the display unit 61 described above with reference to FIG. 40 are applied as the input unit used for inputting an instruction has been described. The present invention is not limited to this, and various other input units can be widely applied, such as an input circuit having a hardware configuration used for inputting instructions.

  Furthermore, in the second embodiment described above, when broadcast data is being played back by the playback unit, when a command is input via the input unit, reading is performed so as to read music partial section data from the temporary storage unit. Although the case where the central processing unit 50 described above with reference to FIG. 40 is applied as the control unit for controlling the unit has been described, the present invention is not limited thereto, and when the broadcast data is reproduced by the reproduction unit, When a command is input through the input unit, various other control units are widely applied, such as a control circuit having a hardware configuration for controlling the reading unit so as to read music partial section data from the temporary storage unit. be able to.

  Furthermore, in the second embodiment described above, the hard disk drive 53 described above with reference to FIG. 40 is applied as the recording unit that records the music partial section data read from the temporary storage unit by the reading unit. As described above, the present invention is not limited to this, and it is possible to widely apply a recording unit that records music partial section data to various other recording media such as an optical disk recorder, a cassette tape recorder, and a semiconductor memory type recorder. it can.

  Furthermore, in the second embodiment described above, the central processing unit 50 described above with reference to FIG. 40 is applied as the data format conversion unit that converts the data format of the music partial section data read from the temporary storage unit by the reading unit. However, the present invention is not limited to this, such as a data format conversion circuit having a hardware configuration for converting the data format of the music partial section data read from the temporary storage unit by the reading unit. In addition, various other data format conversion units can be widely applied.

  Further, in the above-described second embodiment, the case where various programs such as a data recording program are recorded in the ROM 52 or the hard disk drive 53 has been described. However, the present invention is not limited to this, and the data recording is performed. Various programs such as programs may be recorded on a recording medium, read out from the recording medium and executed, or installed in the ROM 52 or the hard disk drive 53 from the recording medium and then executed. Also good.

  In the first and second embodiments described above, the program data of the radio program broadcast from the radio station described above with reference to FIGS. 1 to 40 is applied as the broadcast data including the music portion. As described above, the present invention is not limited to this, and various broadcast data such as video data of a television program broadcast from a television station, audio content data and moving image content data on the Internet may be applied. In addition to this, program data and the like recorded on other recording media may be read out and the above-described processing may be performed, and the type and acquisition method of broadcast data are not particularly limited.

  The present invention can be used for a data reproducing apparatus that reproduces program data of a radio program broadcast from a radio station.

It is a block diagram which shows the outline | summary of the data reproduction apparatus by 1st Embodiment. It is a block diagram which shows the detailed structure of the data reproduction apparatus by 1st Embodiment. It is a block diagram which shows the structure of an area specific part. It is a graph (1) with which it uses for description of curvature and a volume level. It is a block diagram (1) with which it uses for description of the transition of the process state of an area specific control part. It is a graph (2) with which it uses for description of curvature and a volume level. It is a block diagram (2) with which it uses for description of the transition of the process state of an area specific control part. It is a block diagram (3) with which it uses for description of the transition of the process state of an area specific control part. It is a graph (3) with which it uses for description of curvature and a volume level. It is a graph (4) with which it uses for description of curvature and a volume level. It is a graph (5) with which it uses for description of curvature and a volume level. It is a block diagram (4) with which it uses for description of the transition of the process state of an area specific control part. It is a block diagram (5) with which it uses for description of the transition of the process state of an area specific control part. It is a graph (6) with which it uses for description of curvature and a volume level. It is a graph (7) with which it uses for description of curvature and a volume level. It is a block diagram (6) with which it uses for description of the transition of the process state of an area specific control part. It is a block diagram (7) with which it uses for description of the transition of the process state of an area specific control part. It is a graph (8) with which it uses for description of curvature and a volume level. It is a graph (9) with which it uses for description of curvature and a volume level. It is a flowchart which shows the 1st range detection area specific process procedure. It is a flowchart which shows the 2nd range detection area specific process sequence. It is a flowchart which shows the 1st silence detection area specific process sequence. It is a flowchart which shows the 2nd silence detection area specific process sequence. It is a flowchart which shows the 1st silence area discrimination | determination processing procedure. It is a flowchart which shows the 2nd silence area discrimination | determination processing procedure. It is a flowchart which shows a 1st state transition suspension processing procedure. It is a flowchart which shows a 2nd state transition suspension processing procedure. It is an approximate line figure used for explanation of temporary storage of program data. It is a flowchart which shows a radio | wireless output storage parallel processing procedure. It is an approximate line figure used for explanation of time machine reproduction. It is an approximate line figure used for explanation of time machine recording during time machine reproduction. It is an approximate line figure used for explanation of time machine recording. It is an approximate line figure used for explanation of time machine batch recording. It is an approximate line figure used for explanation of collective reproduction of highlights. It is a flowchart which shows the 1st music partial area reproduction | regeneration processing procedure. It is a flowchart which shows the 2nd music partial area reproduction | regeneration processing procedure. It is a flowchart which shows the 1st music partial area recording processing procedure. It is a flowchart which shows the 2nd music partial area recording processing procedure. It is a flowchart which shows the feature area reproduction | regeneration processing procedure. It is a block diagram which shows the circuit structure of the data reproduction apparatus by 2nd Embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1, 10, 100 ... Data reproduction apparatus, 2, 11 ... Reception part, 3, 14 ... Reproduction part, 4, 20 ... Section identification part, 5, 22 ... Temporary storage part, 6, 23 ... Reading , 7, 12 ... input unit, 8, 24 ... control unit, 13 ... data generation unit, 16 ... recording unit, 21 ... division unit, 50 ... central processing unit, 52 ... ROM, 53 ... Hard disk drive, 54... RAM, 55 .. operation key, 59 .. tuner, KP... Section boundary candidate position, LL .. lowest volume level position, LS ... silent section, MKH. …… Music assumption state, MD …… Music confirmation state, MDT …… Music confirmation standby state, MKT …… Music assumption standby state, TK …… Conversation assumption state, TKT …… Conversation assumption standby state, TKH …… Conversation assumption hold State, TD ... Conversation confirmation state, TDT ... Waiting state for conversation confirmation, SA: Section boundary candidate range, RT1: First range detection section specifying process procedure, RT2: Second range detection section specifying process procedure, RT3: First silence detection section specifying process procedure RT4... Second silence detection section specifying process procedure, RT5... First silence section determination process procedure, RT6... Second silence section determination process procedure, RT7. RT8: second state transition hold processing procedure, RT9: radio output storage parallel processing procedure, RT10: first music partial section playback processing procedure, RT11: second music partial section playback processing procedure, RT12 ... ... First music partial section recording processing procedure, RT13... Second music partial section recording processing procedure, RT14.

Claims (13)

A receiver for receiving broadcast data including a music portion;
A reproduction unit for reproducing the broadcast data received by the reception unit;
A section specifying unit for specifying a music part section corresponding to the music part in the broadcast data being played back by the playback unit while being received by the receiving unit;
A temporary storage unit that temporarily stores the music partial section specified in the broadcast data by the section specifying unit as music partial section data;
A reading unit for reading out the music partial section data from the temporary storage unit;
An input unit used to input an instruction;
Control that controls the reading unit to read the music partial section data from the temporary storage unit when the instruction is input through the input unit while the broadcast data is being reproduced by the reproduction unit. A data reproducing apparatus comprising: a section. A recording unit for recording the music partial section data read from the temporary storage unit by the reading unit;
The control unit
The recording unit is controlled to record the music partial section data read from the temporary storage unit by the reading unit when the broadcast data is being reproduced by the reproducing unit. The data reproducing apparatus according to 1. A data format conversion unit for converting the data format of the music partial section data read from the temporary storage unit by the reading unit;
The control unit
While controlling the data format conversion unit to convert the data format of the music partial section data read from the temporary storage unit by the reading unit when the broadcast data is being played back by the playback unit, The data reproducing apparatus according to claim 2, wherein the recording unit is controlled so as to record the music partial section data converted in the data format by the data format converting unit. The control unit
When the broadcast data is being played back by the playback unit, when the power is turned off without the input of the command to the input unit, the music part interval data temporarily stored is deleted. The data reproducing apparatus according to claim 1, wherein the temporary storage unit is controlled. The control unit
When the broadcast data is being reproduced by the reproduction unit, the reproduction unit is controlled to reproduce the music partial section data read from the temporary storage unit by the reading unit instead of the broadcast data. The data reproducing apparatus according to claim 1, wherein: The temporary storage unit is
A plurality of the music part sections specified in the broadcast data by the section specifying unit are temporarily stored as music part section data,
The control unit
If the instruction is input via the input unit while the music part interval data is being reproduced by the reproduction unit, the music part interval data being reproduced by the reproduction unit from the temporary storage unit The reading unit is controlled so as to read out the other music partial section data different from the above, and the other music partial section data read out by the reading unit is reproduced instead of the music partial section data being reproduced. The data reproducing apparatus according to claim 5, wherein the reproducing unit is controlled to do so. A recording unit for recording the music partial section data read from the temporary storage unit by the reading unit;
The control unit
When the music partial section data is being played back by the playback unit, if the command is input via the input unit, the music partial section data read from the temporary storage unit by the reading unit The data reproducing apparatus according to claim 5, wherein the recording unit is controlled to record the data. The control unit
When the playback of the music partial section data by the playback section is completed, the playback section is controlled to play back the broadcast data received by the receiving section instead of the music partial section data. The data reproducing apparatus according to claim 5. The section specifying part
When the music part section in the broadcast data is specified, the characteristic part section corresponding to the characteristic part of music is specified in the specified music part section,
The control unit
When the broadcast data is being played back by the playback unit and the command is input via the input unit, the feature partial section in the music partial section data is converted from the temporary storage unit to the feature partial section. The reading unit is controlled to read as data, and the reproducing unit is controlled to reproduce the characteristic partial section data read by the reading unit instead of the broadcast data being reproduced. The data reproducing apparatus according to claim 1. The section specifying part
When the music part section is specified in the broadcast data, the feature part section corresponding to the music feature part is also specified in the music part section,
The temporary storage unit is
A plurality of the music part sections specified in the broadcast data by the section specifying unit are temporarily stored as music part section data,
The control unit
When the broadcast data is being played back by the playback unit and the command is input via the input unit, the feature partial section in each of the plurality of music partial section data from the temporary storage unit is The reproducing unit controls the reading unit to sequentially read out as the characteristic partial section data, and continuously reproduces the characteristic partial section data sequentially read out by the reading unit, instead of the broadcast data being reproduced. The data reproducing apparatus according to claim 1, wherein: The temporary storage unit is
Each of the plurality of music partial sections sequentially specified in the broadcast data by the section specifying unit is temporarily stored as music partial section data,
The control unit
When the broadcast data is being played back by the playback unit, when the command is input via the input unit, the last temporarily stored among the plurality of music partial section data from the temporary storage unit Controlling the reading unit to read music partial section data and controlling the reproducing unit to play the music partial section data read by the reading unit instead of the broadcast data being played back. The data reproducing apparatus according to claim 1, wherein While receiving and playing back broadcast data including a music part, the music part section corresponding to the music part is specified in the broadcast data being played back, and the specified music part section is a music part section. A temporary storage step for temporarily storing the data;
A data reproducing method comprising: a step of reading out the music partial section data temporarily stored when a command is input while the broadcast data is being reproduced. Against the computer
While receiving and playing back broadcast data including a music part, the music part section corresponding to the music part is specified in the broadcast data being played back, and the specified music part section is a music part section. A temporary storage step for temporarily storing the data;
A data reproduction program for executing a reading step of reading out the music partial section data temporarily stored when a command is input while the broadcast data is being reproduced.

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