JP2013081155A - Information reproduction device and information reproduction method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an information reproduction device and an information reproduction method which can perform synchronized reproduction of information such as image and/or voice with a partner apparatus and enhance flexibility when a user combines pieces of apparatus to realize synchronized reproduction, without setting a wide band communication path for information communication with the partner apparatus.SOLUTION: An information reproduction device comprises first communication means, acquisition means, reproduction means, second communication means, and control means. The acquisition means acquires information from a server on a network via the first communication means, and the reproduction means reproduces the information. The control means outputs information indicating an acquisition place of the information acquired by the acquisition means, to a slave information reproduction apparatus via the second communication means, and controls the information reproduction apparatus to be in a reproduction preparation state, and also outputs a reproduction synchronous clock and reproduction request information to the information reproduction apparatus, then controls the information reproduction apparatus to be in a reproduction state.

Description

  Embodiments described herein relate generally to an information reproducing apparatus and an information reproducing method for synchronously reproducing information with a counterpart device serving as a host or slave with respect to itself.

  As is well known, information such as video and audio is synchronously reproduced between an information reproducing device such as a digital television broadcast receiver serving as a host and an information reproducing device such as a portable information terminal serving as a slave. In general, a stream is generally transmitted from a host device to a slave device.

  By the way, in such a method, when connecting an information reproducing device as a host and an information reproducing device as a slave so as to be able to transmit information regardless of wired or wireless, a stream corresponding to video or audio can be transmitted. There is a need to set a broadband communication path, and the degree of freedom when the user performs synchronized playback by combining arbitrary information playback devices is low.

JP 2011-035503 A JP 2010-288158 A

  It is possible to perform synchronized playback of information such as video and audio with the counterpart device without providing a broadband communication path for information transmission with the counterpart device, and the user can synchronize and play back the devices together. An object of the present invention is to provide an information reproducing apparatus and an information reproducing method capable of improving the degree of freedom.

  According to the embodiment, the information reproducing apparatus includes first communication means, acquisition means, reproduction means, second communication means, and control means. The first communication means transmits information to the network. The acquisition unit accesses a server on the network via the first communication unit, and acquires information including at least one of video and audio. The reproduction means reproduces the information acquired by the acquisition means. The second communication means transmits information to the information reproducing apparatus that is a slave. The control means outputs the information indicating the acquisition location of the information acquired by the acquisition means via the second communication means to control the information reproduction apparatus to be in a reproduction preparation state, and the synchronization clock for reproduction by the reproduction means The information reproduction device is controlled to be in a reproduction state by outputting reproduction request information.

The block block diagram shown in order to demonstrate roughly an example of the information synchronous reproduction | regeneration system as embodiment. The block block diagram shown in order to demonstrate an example of the signal processing system of the digital television broadcast receiver which comprises the information synchronous reproduction | regeneration system in the embodiment. The block block diagram shown in order to demonstrate an example of the signal processing system of the portable information terminal which comprises the information synchronous reproduction | regeneration system in the embodiment. The flowchart shown in order to demonstrate an example of main processing operations which the information synchronous reproduction | regeneration system in the embodiment performs. The flowchart shown in order to demonstrate an example of main processing operations which the digital television broadcast receiver in the embodiment performs. The flowchart shown in order to demonstrate an example of main processing operation which the digital television broadcast receiver set to the low power consumption mode in the embodiment performs. The flowchart shown in order to demonstrate an example of main processing operations which the portable information terminal in the embodiment performs. The flowchart shown in order to demonstrate an example of main processing operation which the portable information terminal set to the independent reproduction | regeneration mode in the embodiment performs. The figure shown in order to demonstrate an example of the reproduction | regeneration operation | movement which the digital television broadcast receiver in the same embodiment and a portable information terminal perform.

  Hereinafter, embodiments will be described in detail with reference to the drawings. FIG. 1 schematically shows an example of an information synchronized reproduction system described in this embodiment. In other words, this information synchronized playback system includes a digital television broadcast receiver 11 as an information playback device as a host and a portable information terminal 12 as an information playback device as a slave.

  Among them, the digital television broadcast receiving apparatus 11 is connected to a network line network 13 such as the Internet, for example, and optionally accesses various servers 141... 14n existing on the network line network 13. The provided information can be acquired and video, audio, etc. can be reproduced.

  The portable information terminal 12 is also connected to the network line 13, and optionally accesses the various servers 141 to 14n, acquires information provided therein, and reproduces video, audio, and the like. be able to. In addition, as this portable information terminal 12, a smart phone etc. are assumed, for example.

  The digital television broadcast receiver 11 and the portable information terminal 12 are connected so as to be able to transmit information. For this information transmission, it is not necessary to set a broadband communication path capable of transmitting a stream corresponding to video, audio, etc. For example, wireless transmission using infrared or radio waves as a transmission medium, the Internet, a home network line, etc. Wired transmission that is used is assumed.

  In the information synchronous reproduction system configured as described above, an outline of the operation will be described below. That is, the digital television broadcast receiving apparatus 11 serving as a host accesses a desired server (for example, the server 141) based on a user's operation, acquires desired information therefrom, and reproduces video, audio, and the like. be able to.

  In this case, the digital television broadcast receiver 11 can instruct the portable information terminal 12 serving as a slave to access the same server 141 and acquire the same information based on a user operation. Thereby, the portable information terminal 12 can reproduce video, audio, and the like based on the acquired information.

  As described above, in the state where the digital television broadcast receiving apparatus 11 and the portable information terminal 12 are able to acquire and reproduce the same information, as an example of operation, the digital television broadcast receiving apparatus 11 displays a video. It can be used in such a manner that it is played back and voice is played back on the portable information terminal 12.

  The reason for adopting this type of usage is, for example, when playing back audio in a data format not supported by the digital television broadcast receiver 11 but supported by the portable information terminal 12 when viewed by a plurality of people. When each person's listening language (Japanese, English, Chinese, etc.) is different, the volume of the digital television broadcast receiver 11 cannot be increased, and it is necessary to listen to the sound at the portable information terminal 12 at hand. Conceivable.

  When this usage pattern is adopted, the digital television broadcast receiving apparatus 11 performs the information acquisition location, the audio reproduction, the data format of the audio to be reproduced, and the selection with respect to the portable information terminal 12 based on the user's operation. Various information indicating the language to be played, the start position of audio reproduction, and the like, and a clock for synchronizing the reproduced audio with the video reproduced by the digital television broadcast receiver 11 are output.

  As a result, the mobile information terminal 12 serving as a slave reproduces the audio desired by the user on the digital television broadcast receiver 11 based on various information, clocks, and the like supplied from the digital television broadcast receiver 11. It can be played back in synchronization with the video.

  According to the information synchronized playback system described above, a stream corresponding to video, audio, etc. is not transmitted between the digital television broadcast receiver 11 and the portable information terminal 12, that is, video, audio, etc. The video reproduced by the digital television broadcast receiver 11 and the audio reproduced by the portable information terminal 12 can be synchronized without installing a broadband communication path capable of transmitting the stream.

  For this reason, for example, a user can play back audio in a data format that is not supported by the host device, or multiple users can listen to audio in different languages with slave devices. The degree of freedom when performing synchronous reproduction by combining the above can be significantly improved.

  FIG. 2 shows an example of a signal processing system in the digital television broadcast receiver 11. That is, the digital television broadcast signal received by the antenna 15 is supplied to the tuner unit 17 via the input terminal 16, so that a broadcast signal of a desired channel is selected.

  The broadcast signal selected by the tuner unit 17 is supplied to the demodulation / decoding unit 18 and restored to a digital video signal, audio signal, etc., and then output to the signal processing unit 19. The signal processing unit 19 applies predetermined digital signal processing to the digital video signal and audio signal supplied from the demodulation / decoding unit 18.

  The signal processing unit 19 outputs a digital video signal to the synthesis processing unit 20 and outputs a digital audio signal to the audio processing unit 21. Among these, the composition processing unit 20 superimposes and outputs an OSD (on screen display) signal on the digital video signal supplied from the signal processing unit 19.

  The digital video signal output from the synthesis processing unit 20 is supplied to the video processing unit 22 and converted into a format in which video can be displayed on the video display unit 23 in the subsequent stage. The video signal output from the video processing unit 22 is supplied to the video display unit 23 and used for video display.

  The audio processing unit 21 converts the input digital audio signal into an analog audio signal in a format that can be reproduced by the speaker 24 at the subsequent stage. The analog audio signal output from the audio processing unit 21 is supplied to the speaker 24 for audio reproduction.

  Here, in the digital television broadcast receiving apparatus 11, all operations including the above-described various reception operations are comprehensively controlled by the control unit 25. The control unit 25 includes a central processing unit (CPU) 25 a and receives operation information from the operation unit 26 installed in the main body of the digital television broadcast receiver 11 or sends it from the remote controller 27. The operation information received by the receiving unit 28 is received, and each unit is controlled so that the operation content is reflected.

  In this case, the control unit 25 uses the memory unit 25b. The memory unit 25b mainly includes a ROM (read only memory) storing a control program executed by the CPU 25a, a RAM (random access memory) for providing a work area to the CPU 25a, various setting information and control information. And so on.

  Further, a hard disk drive (HDD) 29 is connected to the control unit 25. The control unit 25 encrypts the digital video signal and audio signal obtained from the demodulation / decoding unit 18 by the recording / playback processing unit 30 based on the operation of the operation unit 26 or the remote controller 27 by the user, and a predetermined recording format. After being converted to, it can be controlled to be supplied to the HDD 29 and recorded on the hard disk 29a.

  Further, the control unit 25 causes the HDD 29 to read digital video signals and audio signals from the hard disk 29 a based on the operation of the operation unit 26 and the remote controller 27 by the user, and decodes them by the recording / playback processing unit 30. Thereafter, by supplying the signal to the signal processing unit 19, it can be controlled to be used for the video display and the audio reproduction described above.

  The digital television broadcast receiver 11 is provided with an input terminal 31 for directly inputting digital video signals and audio signals from the outside. The digital video signal and audio signal input through the input terminal 31 are supplied to the signal processing unit 19 through the recording / playback processing unit 30 based on the control of the control unit 25, and thereafter. It is used for the video display and audio reproduction described above.

  Further, the digital video signal and audio signal input via the input terminal 31 are recorded and reproduced on the hard disk 29 a by the HDD 29 after passing through the recording and reproduction processing unit 30 based on the control of the control unit 25. To be served.

  The control unit 25 is connected to a short-range wireless communication interface unit 32. The short-range wireless communication interface unit 32 is for performing short-range wireless communication using, for example, infrared rays as a transmission medium, whereby the control unit 25 performs bidirectional information transmission with the portable information terminal 12. Can be performed.

  Furthermore, a network line network interface unit 33 is connected to the control unit 25. This network line network interface unit 33 is connected to the above-described network line network 13, whereby the control unit 25 can optionally connect various servers 141... 14 n existing on the network line network 13. The user can access and obtain desired information.

  The control unit 25 includes a slave device communication control unit 25c. The slave device communication control unit 25c transmits various instruction information and a synchronization clock to the portable information terminal 12 serving as the slave device via the short-range wireless communication interface unit 32, and from the portable information terminal 12. The response information analysis processing is controlled.

  FIG. 3 shows an example of a signal processing system in the portable information terminal 12. That is, the portable information terminal 12 includes a control unit 34 that comprehensively controls all of the operations. The control unit 34 includes a telephone communication processing unit 35, a touch panel structure display unit 36, a speaker 37, and a microphone. 38, an operation unit 39, a short-range wireless communication interface unit 40, a network line network interface unit 41, and the like are connected.

  The control unit 34 incorporates a CPU 34a, receives operation information from the touch panel of the display unit 36 and the operation unit 39, and controls each unit so that the operation content is reflected. In this case, the control unit 34 uses the memory unit 34b. The memory unit 34b mainly includes a ROM that stores a control program executed by the CPU 34a, a RAM that provides a work area to the CPU 34a, and a nonvolatile memory that stores various setting information, control information, and the like. Have.

  The short-range wireless communication interface unit 40 is for performing short-range wireless communication using, for example, infrared rays as a transmission medium, whereby the control unit 34 communicates with the digital television broadcast receiver 11. Bidirectional information transmission can be performed.

  Further, the network line network interface unit 41 is connected to the network line network 13 described above, whereby the control unit 34 arbitrarily selects various servers 141... 14 n existing on the network line network 13. Accessible.

  The control unit 34 includes a host device communication control unit 34c. The host device communication control unit 34c analyzes various instruction information and synchronization clocks received from the digital television broadcast receiver 11 serving as the host device via the short-range wireless communication interface unit 40, It controls transmission processing of reply information to the digital television broadcast receiver 11.

  FIG. 4 shows a flowchart summarizing an example of main processing operations performed by the information synchronous reproduction system described above. That is, when receiving a reproduction instruction based on a user operation, the digital television broadcast receiving apparatus 11 executes reproduction preparation in step S4a. As processing for this playback preparation, it is possible to play back at any time by accessing the server (for example, server 141) instructed by the user, obtaining information instructed by the user, analyzing the attribute information, codec information, etc. of the information stream. A state (for example, a pause state) is set.

  When the preparation for reproduction is completed, the digital television broadcast receiver 11 inquires of the portable information terminal 12 about its reproduction capability in step S4b. The contents to be inquired of the portable information terminal 12 are, for example, the codec type (H.264, MPEG2 and WMV9), the support format (MPEG2-TS, PS, ASF, MKV, mp4 and AVI) and the like.

  Thereby, the portable information terminal 12 returns information indicating its own reproduction capability in step S4c. Then, the digital television broadcast receiving apparatus 11 collates the requirement necessary for reproduction acquired by the reproduction preparation performed previously with the information indicating the reproduction capability returned from the portable information terminal 12, thereby obtaining the portable information terminal. 12 determines whether or not a condition for reproducibility is provided.

  If the playback condition is satisfied, the digital television broadcast receiver 11 receives a playback URL (uniform resource locator) indicating the information acquisition location and information for specifying the playback mode in step S4d. 12 to send. Information specifying this playback mode includes information indicating whether both video and audio playback, video only playback, or audio only playback, and information specifying an audio track (for example, corresponding to a language) Information specifying a video track (for example, corresponding to an angle).

  Then, in step S4e, the portable information terminal 12 accesses the server (in this case, the server 141) based on the reproduction URL, acquires the same information as the information previously acquired by the digital television broadcast receiver 11, and can always Preparation for reproduction is made in a state where reproduction is possible (for example, pause state), and when preparation for reproduction is completed, a completion notification is returned to the digital television broadcast receiving apparatus 11 in step S4f.

  Through the processes in steps S4a to S4f described above, both the digital television broadcast receiving apparatus 11 and the portable information terminal 12 are set in a state where the same information can be reproduced at any time.

  In this way, the digital television broadcast receiver 11 that has received the notification of completion of playback preparation from the portable information terminal 12 starts the clock synchronization process with the portable information terminal 12 in step S4g. Send the system clock to. This system clock is a clock used as a reference for reproduction, and generally an STC (system time clock) is used.

  Then, the portable information terminal 12 executes a process of synchronizing the system clock managed by itself with the system clock supplied from the digital television broadcast receiver 11, and receives the digital television broadcast in step S4h. A synchronization completion notification is returned to the device 11.

  Further, the process of synchronizing the system clock of the portable information terminal 12 with the system clock of the digital television broadcast receiving apparatus 11 is a communication delay time between the digital television broadcast receiving apparatus 11 and the portable information terminal 12. The purpose is to obtain δ.

That is, the transmission time of the system clock in the digital television broadcast receiver 11 is Ts, the reception time of the notification of completion of synchronization from the portable information terminal 12 is Tr, the reception time of the system clock in the portable information terminal 12 is tr, and the digital television When the transmission time of the synchronization completion notification to the John broadcast receiving apparatus 11 is ts, the round-trip communication delay time δ between the digital television broadcast receiving apparatus 11 and the portable information terminal 12 is
δ = (Tr−Ts) − (ts−tr)
Can be calculated.

  By the processes in steps S4g and S4h described above, the clock synchronization process and the round-trip communication delay time δ calculation process between the digital television broadcast receiver 11 and the portable information terminal 12 are performed.

  Thereafter, in step S4i, the digital television broadcast receiver 11 sends a play command instructing the portable information terminal 12 to start reproduction, and the portable information terminal 12 that has received this play command changes from the reproduction preparation state to the reproduction state. The information acquired from the location specified by the playback URL is played back based on the content specified in the playback mode. In step S4j, the portable information terminal 12 returns information indicating that the playback state has been reached to the digital television broadcast receiver 11.

  On the other hand, when the digital television broadcast receiving apparatus 11 performs communication with the portable information terminal 12, it is assumed that the communication delay time in the forward path and the communication delay time in the backward path are the same, the portable information terminal 12 previously calculated. Due to the round-trip communication delay time δ between the mobile information terminal 12 and the portable information terminal 12, synchronous playback of information is performed by shifting from the playback preparation state to the playback state after δ / 2 has passed since the play command was sent. Can be done.

  Through the processing of steps S4i and S4j described above, for example, the digital television broadcast receiver 11 performs synchronized playback of video and the portable information terminal 12 between the digital television broadcast receiver 11 and the portable information terminal 12, for example. Can start.

  As described above, when synchronized playback is started between the digital television broadcast receiver 11 and the portable information terminal 12, the digital television broadcast receiver 11 thereafter periodically (for example, every 10 seconds) As shown in step S4k, the system clock and the current reproduction time Tp are sent to the portable information terminal 12.

  The portable information terminal 12 returns information indicating that the system clock and the reproduction time Tp have been received to the digital television broadcast receiving apparatus 11 in step S41. In this case, the reproduction time Tp is information indicating the reproduction position of the stream, and generally a PTS (presentation time stamp) is used.

  Here, the reason why the system clock is periodically transmitted from the digital television broadcast receiver 11 to the portable information terminal 12 is that the digital television broadcast receiver 11 and the portable information terminal 12 when the portable information terminal 12 moves. The purpose is to calculate the mutual communication delay time δ and to reduce long-term jitter between the digital television broadcast receiver 11 and the portable information terminal 12.

  Also, the reason for periodically sending the playback time Tp from the digital television broadcast receiver 11 to the portable information terminal 12 is that the playback position of the digital television broadcast receiver 11 and the playback position of the portable information terminal 12 are matched. It is aimed. That is, the digital television broadcast receiver 11 subtracts the communication delay time δ / 2 from the reproduction time Tp and sends it to the portable information terminal 12. The portable communication terminal 12 adds its own reproduction time Tp to the received reproduction time Tp. Thus, the reproduction time Tp can be synchronized between the digital television broadcast receiver 11 and the portable information terminal 12.

  According to the above-described embodiment, without installing a broadband communication path capable of transmitting a stream corresponding to video or audio between the digital television broadcast receiving apparatus 11 and the portable information terminal 12, that is, Information (for example, video) reproduced by the digital television broadcast receiver 11 and information (for example, audio) reproduced by the portable information terminal 12 can be synchronized, and the user can synchronize and reproduce by combining the devices. The degree of freedom in performing can be greatly improved.

  Next, synchronous reproduction of information is started between the digital television broadcast receiver 11 and the portable information terminal 12, and the system clock and reproduction time Tp are periodically transmitted from the digital television broadcast receiver 11 to the portable information terminal 12. Is transmitted and the mobile information terminal 12 communicates with the digital television broadcast receiver 11 in a so-called normal synchronized playback state where the reply is sent from the mobile information terminal 12 to the digital television broadcast receiver 11. The processing operation when moved outside the range will be described.

  FIG. 5 shows a flowchart summarizing an example of main processing operations performed by the digital television broadcast receiving apparatus 11 as the host when the portable information terminal 12 is moved out of the communication range. That is, when the process is started (step S5a), the digital television broadcast receiving apparatus 11 sends the system clock and the reproduction time Tp to the portable information terminal 12 in step S5b, and the portable information in step S5c. It is determined whether or not a reply from the terminal 12 has been received.

  If it is determined that the reply from the portable information terminal 12 has been received (YES), the digital television broadcast receiver 11 waits until a predetermined time (for example, 10 seconds) elapses in step S5d, and then step S5b. The process is transferred to.

  If it is determined in step S5c that a reply from the portable information terminal 12 has not been received (NO), the digital television broadcast receiver 11 automatically sets itself to the low power consumption mode in step S5e. Then, the process is terminated (step S5f).

  In this case, the low power consumption mode is an information reproduction operation in the digital television broadcast receiver 11 by using means such as turning off a backlight (not shown) used in the video display unit 23, for example. Is stopped to reduce power consumption.

  That is, the fact that the digital television broadcast receiver 11 does not receive a reply from the portable information terminal 12 means that the user moves out of the range where the user can hold the portable information terminal 12 and communicate with the digital television broadcast receiver 11. Therefore, it can be determined that the user is not viewing the display image of the digital television broadcast receiver 11. For this reason, the playback operation of the digital television broadcast receiver 11 is automatically stopped to reduce power consumption.

  Even when the digital television broadcast receiver 11 is set to the low power consumption mode and the information reproduction operation is stopped, the portable information terminal 12 continues to reproduce the information (for example, sound) as it is. .

  Further, when the portable information terminal 12 is moved out of the communication range with the digital television broadcast receiving apparatus 11 and the system clock and the reproduction time Tp from the digital television broadcast receiving apparatus 11 are not received, the portable information terminal 12 If the video is automatically reproduced in addition to the reproduction, the user can continue to view the video and audio as they are even when moving with the portable information terminal 12.

  FIG. 6 is a flowchart summarizing an example of main processing operations performed by the digital television broadcast receiving apparatus 11 in the state where the low power consumption mode is set. That is, when the processing is started in the state set to the low power consumption mode (step S6a), the digital television broadcast receiving apparatus 11 determines the position currently being reproduced with respect to the portable information terminal 12 in step S6b. The reproduction time Tp shown is inquired, and it is determined whether or not a reply from the portable information terminal 12 has been received in step S6c.

  If it is determined that the reply from the portable information terminal 12 has not been received (NO), the digital television broadcast receiver 11 waits until a predetermined time (for example, 10 seconds) elapses in step S6d, The process proceeds to step S6b.

  If it is determined in step S6c that a reply from the portable information terminal 12 has been received (YES), the digital television broadcast receiver 11 cancels the low power consumption mode in step S6e and displays the video display. A backlight (not shown) used in the unit 23 is turned on, and in step S6f, a reproduction preparation state (for example, a pause state) in which information can be reproduced at any time is set.

  Thereafter, in step S6g, the digital television broadcast receiver 11 includes the reply from the portable information terminal 12 that has been determined to have been received in step S6c, and the position where the portable information terminal 12 is currently playing back. Based on the reproduction time Tp indicating the position, the position to be reproduced by itself is retrieved, and in step S6h, the reproduction of information is resumed from the retrieved reproduction position, and the process is terminated (step S6i).

  That is, the digital television broadcast receiving apparatus 11 cannot communicate with the portable information terminal 12 and the digital television broadcast receiving apparatus 11 currently plays back to the portable information terminal 12 in a state where the digital television broadcast receiving apparatus 11 is set to the low power consumption mode. An inquiry about the reproduction time Tp indicating the current position is periodically executed.

  If the inquiry is replied, the digital television broadcast receiver 11 determines that communication with the portable information terminal 12 is possible, and resumes reproduction of information from the position where the portable information terminal 12 is currently reproducing. To do. As a result, the digital television broadcast receiver 11 can again reproduce the video and the portable information terminal 12 with the audio synchronously.

  As described above, the portable information terminal 12 is moved out of the communication range with the digital television broadcast receiver 11, and the system clock and the reproduction time Tp from the digital television broadcast receiver 11 are received. If there is no video playback, in addition to audio playback, video playback is automatically performed in a state where communication with the digital television broadcast receiver 11 is possible. Can be switched.

  FIG. 7 shows a flow chart summarizing an example of main processing operations performed by the mobile information terminal 12 as a slave when the digital television broadcast receiver 11 is moved out of the communication range. That is, when the process is started (step S7a), the portable information terminal 12 performs a synchronization process of synchronizing its playback time Tp with the playback time Tp supplied from the digital television broadcast receiver 11 in step S7b. In step S7c, the self reproduction time Tp after the synchronization processing is sent to the digital television broadcast receiver 11.

  Thereafter, in step S7d, the portable information terminal 12 determines whether or not the playback time Tp sent from the digital television broadcast receiver 11 has been received within a predetermined time (for example, 10 seconds), and is determined to have been received. If yes (YES), the process proceeds to step S7b.

  If it is determined in step S7d that the playback time Tp sent from the digital television broadcast receiver 11 has not been received within a predetermined time (for example, 10 seconds) (NO), the portable information terminal 12 In S7e, the self is automatically set to the single reproduction mode, and the process is terminated (step S7f).

  In this case, the single reproduction mode is such that the portable information terminal 12 reproduces information independently without synchronizing the reproduction time Tp with the reproduction time Tp supplied from the digital television broadcast receiver 11. It is a thing. Note that the content to be played back may be only audio, but both video and audio may be played back.

  That is, the fact that the portable information terminal 12 does not receive the playback time Tp from the digital television broadcast receiving device 11 within a predetermined time means that the user holds the portable information terminal 12 and communicates with the digital television broadcast receiving device 11. It is highly possible that the user has moved out of the possible range, and it can be determined that the user is not viewing the display image of the digital television broadcast receiver 11. For this reason, the portable information terminal 12 is automatically set to the single reproduction mode so that the user can continuously view the information.

  FIG. 8 is a flowchart summarizing an example of main processing operations performed by the portable information terminal 12 in the state where the above-described single reproduction mode is set. That is, the process is started (step S8a), and in step S8b, the portable information terminal 12 inquires of the reproduction time Tp from the digital television broadcast receiver 11 in step S8c while the operation is being performed in the single reproduction mode. It is determined whether or not it has been received.

  If it is determined that the inquiry about the reproduction time Tp from the digital television broadcast receiver 11 has not been received (NO), the portable information terminal 12 proceeds to the process of step S8b and determines that the inquiry has been received. If yes (YES), the current playback time Tp is sent to the digital television broadcast receiver 11 in step S8d, the single playback mode is canceled in step S8e, and the process ends (step S8f).

  That is, the portable information terminal 12 that has become unable to communicate with the digital television broadcast receiver 11 can communicate with the digital television broadcast receiver 11 when receiving an inquiry about the playback time Tp from the digital television broadcast receiver 11. The playback time Tp indicating the current playback position is transmitted. As a result, the digital television broadcast receiver 11 can again reproduce the video and the portable information terminal 12 with the audio synchronously.

  FIG. 9 shows an example of a reproduction operation performed by the digital television broadcast receiving device 11 and the portable information terminal 12 using the operation example described in FIGS. That is, as shown in FIG. 9A, when playback is started at time T1, information (including video and audio) that playback ends at time T4 is transmitted to the digital television broadcast receiver 11 and the portable information terminal. Suppose that 12 and 12 respectively acquire from a server (for example, server 141) and reproduce.

  In this case, at the time T1 when the reproduction is started, the digital television broadcast receiver 11 and the portable information terminal 12 are in a state where they can communicate with each other, and the digital television broadcast receiver 11 is shown in FIG. It is assumed that video is reproduced as shown, and the portable information terminal 12 is reproducing audio as shown in FIG.

  In such a state, it is assumed that the digital television broadcast receiving apparatus 11 and the portable information terminal 12 become incapable of communication at an arbitrary time T2. Then, the digital television broadcast receiver 11 is in a reproduction stop state in the low power consumption mode, and the portable information terminal 12 is in a state of reproducing both video and audio in the single reproduction mode.

  After that, when the digital television broadcast receiving apparatus 11 and the portable information terminal 12 become communicable again at an arbitrary time T3, the digital television broadcast receiving apparatus 11 enters a video reproduction state, and the portable information terminal 12 The audio playback state is set.

  Here, in the above-described embodiment, the digital television broadcast receiving device 11 as a host and the portable information terminal 12 as a slave have been described as examples. Various information reproducing devices such as a personal computer (PC) can be used.

  In the above-described embodiment, one portable information terminal 12 has been described as an example of a slave. However, the present invention is not limited to this, and a plurality of information reproducing devices may be installed as slaves. In this case, the information reproducing device serving as a host individually communicates with a plurality of information reproducing devices serving as slaves to perform synchronous reproduction of information.

  For example, an information reproducing device as a host can perform surround reproduction of multi-channel sound using a plurality of information reproducing devices as slaves. At this time, for example, since the information reproducing device serving as the host calculates the communication delay time between each of the plurality of information reproducing devices serving as the slave, each information reproducing device serving as the slave is calculated from the communication delay time. It is possible to calculate the distance. For this reason, using this calculated distance information, it is possible to optimize the sound reproduced by each information reproducing device as a slave as a surround sound output.

  Furthermore, in the above-described embodiment, it is described that the digital television broadcast receiving device 11 and the portable information terminal 12 acquire and reproduce information including video and audio from the servers 141 to 14n on the network line network 13. However, the present invention is not limited to this. For example, the digital television broadcast receiver 11 can acquire only video information, and the portable information terminal 12 can acquire and reproduce only audio information.

  Further, by storing the playback content as a file in the storage on the network 13 when the host device is played back, it becomes possible to share data with the slave device.

  Note that the present invention is not limited to the above-described embodiments as they are, and can be embodied by variously modifying the constituent elements without departing from the scope of the invention in the implementation stage. Various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the above-described embodiments. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, constituent elements according to different embodiments may be appropriately combined.

  DESCRIPTION OF SYMBOLS 11 ... Digital television broadcast receiver, 12 ... Portable information terminal, 13 ... Network line network, 141-14n ... Server, 15 ... Antenna, 16 ... Input terminal, 17 ... Tuner part, 18 ... Demodulation decoding part, 19 ... Signal Processing unit 20 ... Composition processing unit 21 ... Audio processing unit 22 ... Video processing unit 23 ... Video display unit 24 ... Speaker 25 ... Control unit 25a ... CPU 25b ... Memory unit 25c ... Slave device communication Control unit, 26 ... operation unit, 27 ... remote controller, 28 ... reception unit, 29 ... HDD, 29a ... hard disk, 30 ... recording / playback processing unit, 31 ... input terminal, 32 ... interface unit for short-range wireless communication, 33 ... Network network interface unit 34... Control unit 34 a... CPU, 34 b... Memory unit 34 c. Telephone communication processing unit, 36 ... display unit, 37 ... speaker, 38 ... microphone, 39 ... operation unit, 40 ... short-range wireless communication interface unit, the interface unit for 41 ... network line network.

Claims (9)

A first communication means for transmitting information to the network;
Obtaining means for accessing a server on the network via the first communication means and obtaining information including at least one of video and audio;
Reproduction means for reproducing the information acquired by the acquisition means;
A second communication means for transmitting information to an information reproducing device as a slave;
The information reproduction apparatus is controlled to be in a reproduction preparation state by outputting information indicating the acquisition location of the information acquired by the acquisition unit via the second communication unit, and a synchronous clock for reproduction by the reproduction unit An information reproducing apparatus comprising: control means for controlling the information reproducing device to a reproduction state by outputting reproduction request information.   The control means periodically outputs information indicating a current reproduction position by the reproduction means via the second communication means in a state where the information reproduction apparatus is controlled to be in a reproduction state. 2. The information reproducing apparatus according to claim 1, wherein a reproducing position by the reproducing means and a reproducing position by the information reproducing device are synchronized.   The control means returns a reply from the information reproducing apparatus to information indicating the current reproduction position that is periodically output via the second communication means in a state where the information reproducing apparatus is controlled to be in a reproduction state. 3. The information reproducing apparatus according to claim 2, wherein when the information is not received, the reproduction of the information by the reproducing means is stopped.   The control means returns a reply from the information reproducing device to information indicating the current reproduction position that is periodically output via the second communication means in a state where reproduction of the information by the reproducing means is stopped. 4. The information reproducing apparatus according to claim 3, wherein when the information is received, the reproduction means starts reproduction of information based on information indicating a current reproduction position of the information reproduction device included in the returned information. A first communication means for transmitting information to the network;
Obtaining means for accessing a server on the network via the first communication means and obtaining information including at least one of video and audio;
Reproduction means for reproducing the information acquired by the acquisition means;
A second communication means for transmitting information to an information reproducing device as a host;
The information reproduction device receives information indicating the acquisition location of the information acquired by the information reproduction device via the network from the information reproduction device via the second communication unit, and controls the reproduction unit to be in a reproduction preparation state. And an information reproducing apparatus comprising: a control means for controlling the reproducing means to a reproduction state by receiving a reproduction synchronous clock and reproduction request information from the information reproducing apparatus.   The control means periodically receives information indicating the current reproduction position from the information reproduction apparatus via the second communication means in a state where the reproduction means is controlled to be in a reproduction state. 6. The information reproducing apparatus according to claim 5, wherein a reproducing position by the reproducing means is synchronized with a reproducing position by the information reproducing apparatus.   When the information reproduction device does not receive information indicating the current reproduction position from the information reproduction device via the second communication device in a state where the reproduction device is controlled to be in a reproduction state, the control device uses the information reproduction device. The information reproducing apparatus according to claim 6, wherein information is reproduced by the reproducing means without being synchronized with a reproduction position.   The control means periodically outputs from the information reproduction device via the second communication means in a state where information is reproduced by the reproduction means without being synchronized with a reproduction position by the information reproduction device. 8. The information reproducing apparatus according to claim 7, wherein when the information indicating the current reproduction position is received, the reproduction position of the information by the reproduction means is synchronized with the reproduction position by the information reproduction device. A step in which a first information playback device as a host accesses a server on the network via the first communication means to acquire and play back information including at least one of video and audio;
The first information reproducing device outputs information indicating the acquisition location of the information acquired by the first information reproducing device to the second information reproducing device serving as a slave through the second communication means. Controlling the second information reproducing device to a reproduction preparation state;
The first information reproducing device outputs a reproduction synchronization clock and reproduction request information to the second information reproducing device via the second communication means, thereby reproducing the second information reproducing device. And an information reproducing method.

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