JP2015039051A - Information transmitting apparatus, information receiving apparatus, and information transmission method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To shorten an information transmission time for transmitting information other than video/audio information between apparatuses.SOLUTION: A tuner device 10 as a sender prepares to send information (S401) and sends transmission start notice (S421, and a monitor device 110 as a receiver prepares to receive information (S411) and sends preparation end notice (S422). The tuner device 10 writes transmission data to an output buffer (S403), sends write end notice once t he writing is completed (S423), and outputs the written data one after another. The monitor device 110 having received the notice checks data input to an input buffer (S413), acquires the data when the data is normal (S415), and sends confirmation end notice (S424). The tuner device 10 having received the notice sends sending end notice after all the data is sent (425).

Description

  The present invention relates to an information transmission device, an information reception device, and an information transmission method for transmitting or receiving information.

  In recent years, as an information transmission means for transmitting high-resolution video information and high-resolution audio information in the form of an uncompressed digital signal, for example, a connection terminal compliant with the HDMI (registered trademark) standard (hereinafter referred to as an HDMI terminal). Electronic devices equipped with are widely used. Then, devices equipped with HDMI terminals can be connected with an HDMI cable (hereinafter referred to as HDMI connection) to transmit high-resolution video information and high-resolution audio information in the form of an uncompressed digital signal. ing.

This HDMI transmission path includes a path for transmitting video / audio information and a path for realizing mutual control between devices defined by the standard called CEC.
Incidentally, there is a case where information other than video / audio information needs to be transmitted between devices having an HDMI terminal. For example, a case where metadata extracted from a broadcast wave received by one device is transmitted to the other device can be considered. It is also assumed that one device acquires information such as an application program that can be used by the other device through communication such as the Internet and transmits the information to the other device.

  In general, the CEC path described above is used for transmitting information other than video / audio signal information between devices connected via HDMI. However, the information transmission speed through the CEC path is slow, and the information transmission time becomes long when the amount of information to be transmitted is large. Therefore, a technique for speeding up information transmission other than video / audio information in HDMI connection is required.

  For example, according to Patent Document 1, metadata is superimposed on a video signal and transmitted from a transmission device to a reception device through a channel for transmitting the video signal, so that a channel with a low transmission speed (the CEC path) is used. A method for transmitting metadata in a short transmission time compared to the case of transmission is disclosed.

JP 2008-160430 A (FIG. 3, paragraph 0029)

  However, since the method according to Patent Document 1 is a method in which metadata is superimposed and transmitted in a data island period that is a part of a video frame, only a part of the information amount of the whole video frame is used. In transmission of large-capacity information other than video / audio information, the transmission speed may still be insufficient.

  Accordingly, in order to solve the above-described problems, the present invention provides an information transmitting apparatus, information receiving apparatus, and information transmission method capable of shortening information transmission time other than video / audio information between devices. And

  In order to solve the above-described problem, the present invention uses a video path for transmitting the video information to an information receiving apparatus that receives video information via a connection terminal, and a buffer having a predetermined capacity by the video path. Output means for sequentially outputting video information divided by a predetermined capacity, and specifying the predetermined capacity different from the video information divided by the predetermined capacity by using the buffer of the predetermined capacity for the output means There is provided an information transmission device comprising control means for controlling to output information.

  In order to solve the above-described problems, the present invention uses a video path for receiving the video information from a video transmission apparatus that transmits video information via a connection terminal, and a buffer having a predetermined capacity by the video path. The video information delimited by the predetermined capacity or the input unit for sequentially inputting the specific information of the predetermined capacity different from the video information delimited by the predetermined capacity, and the video of the predetermined capacity input by the input unit There is provided an information receiving apparatus comprising processing means for performing different processing on information and the specific information.

  The present invention also provides an information transmission method for transmitting information from an information transmission apparatus to an information reception apparatus, wherein the information transmission apparatus has a buffer of a predetermined capacity with respect to the information reception apparatus. Sequentially output the video information divided by the predetermined capacity using the information transmission device, and the information transmitting apparatus outputs the specific information of the predetermined capacity different from the video information divided by the predetermined capacity to the information receiving apparatus. The information receiving device is notified of the output of the specific information from the information transmitting device, and is different for each of the video information and the specific information of the predetermined capacity. In response to the completion of preparation for processing, the information transmitting device outputs the specific information of the predetermined capacity after receiving a response from the information receiving device, and receives the information Apparatus, which provides an information transfer method characterized by performing different processing on each of the video information and the specific information is input from the information transmitting apparatus.

  According to the present invention, it is possible to shorten the time for transmitting information other than video / audio information between devices.

The block diagram which shows the structure of the television system which consists of the tuner apparatus which is the information transmitter which concerns on embodiment of this invention, and the monitor apparatus which is the information receiver which concerns on embodiment of this invention. The system block diagram by each block which performs the information transmission process which transmits non-AV data using the transmission path for video / audio information in this embodiment. The system block diagram by each block which performs a different process with respect to each of the input video / audio information and information other than video information. The sequence diagram of the information transmission process which transmits non-AV data using the transmission path for video / audio information performed between a tuner apparatus and a monitor apparatus. The figure which shows the timing chart of the information transmission process performed based on the sequence of FIG. The conceptual diagram of the memory space of DRAM of a tuner apparatus, and the memory space of DRAM of a monitor apparatus regarding the data transition in an information transmission process. The sequence diagram of the modification of the information transmission process which transmits non-AV data using the transmission path for video / audio information performed between a tuner apparatus and a monitor apparatus. The figure which shows the timing chart of the modification of the information transmission process performed based on the sequence of FIG. The conceptual diagram of the memory space of DRAM of a tuner apparatus, and the memory space of DRAM of a monitor apparatus regarding the data transition in the modification of an information transmission process.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram illustrating a configuration of a television system including a tuner device 10 that is an information transmission device according to an embodiment of the present invention and a monitor device 110 that is an information reception device according to an embodiment of the present invention.

  Specifically, the tuner device 10 mainly outputs video / audio information based on the received broadcast content or the input video content, and the monitor device 110 mainly outputs video based on the input video / audio information. Both display and output audio. The tuner device 10 and the monitor device 110 are connected by a cable (hereinafter referred to as an HDMI cable) 150 based on the HDMI standard, and video / audio information is transmitted through the HDMI cable 150. In the present embodiment, the tuner device 10 also outputs information other than video / audio information (hereinafter also referred to as non-AV data) to the monitor device 110 via the HDMI cable 150. The present invention relates to transmission of information other than the video / audio information.

  First, the tuner device 10 according to the present embodiment includes a broadcast wave processing unit 20, an AV signal input unit 21, a network IF unit 22, an operation unit 31, a light receiving unit 32, a signal processing control unit 40, a communication unit 61, and a video output unit 62. , DRAM 51, connection terminal 70, and the like. The broadcast wave processing unit 20 is connected to an antenna ANT, and the light receiving unit 32 exchanges information with a remote controller (hereinafter referred to as a remote controller) RC.

  The tuner device 10 performs predetermined processing on input video / audio information and signals, and monitors video / audio information digitized using an HDMI cable 150 including a video path as a transmission path of the video / audio signals. Output to device 110. Further, the tuner device 10 uses the video path of the HDMI cable 150 to output not only video / audio information but also other information to the monitor device 110. Other information transmitted using the video path of the HDMI cable 150 is, for example, metadata or data used by the monitor device 110 that is an external device. Further, the tuner device 10 communicates with the monitor device 110 using a path for communicating with an external device.

  The broadcast wave processing unit 20 includes a tuner and a decoder corresponding to a ground wave or an analog / digital broadcast wave by a satellite received by the antenna ANT. The broadcast wave processing unit 20 acquires a signal received by the antenna ANT, performs channel selection processing and demodulation decoding processing on a specific channel on the acquired signal, and performs content video / audio information and content related information (metadata). Signal) is output to the signal processing control unit 40. The broadcast wave processing unit 20 may output data used by the tuner device 10 or the monitor device 110 which is an external device to the signal processing control unit 40 based on a signal received by the antenna ANT.

  The AV signal input unit 21 is a terminal for inputting information from an external video source in accordance with various standards such as the HDMI (registered trademark) standard, the USB standard, and the IEEE 1394 standard, and the input information conforms to these standards. An information extraction unit that extracts audio-video information based on the information is provided. The AV signal input unit 21 includes a terminal for inputting an analog video / audio signal, a selector for selecting a specific signal from a plurality of signals, and an AD conversion unit for performing A / D conversion processing. Furthermore, the AV signal input unit 21 outputs video / audio information of content based on information and signals input through these terminals to the signal processing control unit 40.

  The network IF unit 22 includes a terminal for connecting to a network such as the Internet, a LAN, and a WAN, and a communication processing unit that performs communication using a network connected through the terminal. The network IF unit 22 acquires a signal including video / audio information of the content, content-related information, and the like by communication using the connected network, and outputs the signal to the signal processing control unit 40. The network IF unit 22 performs signal processing on data used in the tuner device 10 or the monitor device 110 based on a signal acquired from a specific server on the connected network in accordance with control from the signal processing control unit 40. It may be output to the control unit 40.

  The operation unit 31 is an operation panel that receives operation input information for operating the tuner device 10 and outputs the information to the signal processing control unit 40. Similarly, the light receiving unit 32 receives (receives) operation input information from the remote controller RC and outputs the received information to the signal processing control unit 40. The operation unit 31 or the remote controller RC is a selection key for selecting whether to acquire a signal from the broadcast wave processing unit 20, the AV signal input unit 21, or the network IF unit 22, acquired from the outside, and used in the monitor device 110. An information output key for outputting data to the monitor device 110 is provided. (None shown)

  The signal processing control unit 40 responds to a signal input from the broadcast wave processing unit 20, the AV signal input unit 21, the network IF unit 22, or the like in accordance with operation input information from the operation unit 31 or the light receiving unit 32. Various processing such as decompression processing of compressed content data, video / audio information separation processing and other information extraction processing is performed, and video / audio information and other information are output to the video output unit 62. Further, the signal processing control unit 40 executes communication processing for communicating with an external device via the communication unit 61. Further, the signal processing control unit 40 stores a signal input from the broadcast wave processing unit 20, the AV signal input unit 21, the network IF unit 22, or the like, or outputs information via the video output unit 62. The process of writing / reading information to / from the DRAM 51 is executed.

  The signal processing control unit 40 includes a CPU or a microcomputer (not shown) as a control unit, and uses each module provided in the signal processing control unit 40 itself or each module connected to the signal processing control unit 40. To control the execution of a plurality of processes.

  In the present embodiment, the signal processing control unit 40 executes a process of storing data used by the monitor device 110 acquired via each block in a predetermined area (memory space) of the DRAM 51. The signal processing control unit 40 also outputs information used by the monitor device 110 via the video output unit 62 for mainly outputting video / audio information based on the communication content by communication with the external device. Execute output processing.

  In response to a communication request from the signal processing control unit 40, the communication unit 61 outputs transmission information that is a transmission signal to an external device via the connection terminal 70 based on the HDMI standard. The communication unit 61 is a reception signal from an external device via the connection terminal 70, receives reception information based on the HDMI standard, and notifies (outputs) the content indicated by the reception information to the signal processing control unit 40. To do. The communication unit 61 communicates (exchanges transmission information and reception information) with the monitor device 110 based on the HDMI-CEC standard in executing an information output process for outputting data used by the monitor device 110.

  The video output unit 62 outputs information converted based on the HDMI standard based on various information read from the DRAM 51 and information input from the signal processing control unit 40 to an external device via the connection terminal 70. In the present embodiment, the video output unit 62 converts video / audio information read from a specific area of the DRAM 51 and data used by the monitor device 110 based on the HDMI standard to the monitor device 110, which is an external device, in a predetermined manner. Output by capacity.

  The DRAM 51 is a memory for storing information, and stores various information at a predetermined memory address under the control of the signal processing control unit 40. In addition, the DRAM 51 can read various information at a specific memory address by the signal processing control unit 40 and the video output unit 62. The DRAM 51 stores video / audio information and data used by the monitor device 110. The specific storage area of the DRAM 51 is used as an output buffer for storing information output from the video output unit 62.

  The connection terminal 70 is a connection terminal based on the HDMI standard, and is used for a TMDS data transmission path that is a transmission path for outputting video and audio and a CEC path that is a transmission path for communication information for communicating with an external device. The connection pin is provided. In the present embodiment, the connection terminal 70 transmits data used in the monitor device 110 using a TMDS data transmission path.

  In the present embodiment, a tuner device 10 in a television system is taken as an example of an information transmission device to which the configuration according to the present invention is applied. However, the information transmission device according to the present embodiment may be an HDD recorder, a DVD recorder, a personal computer, a portable mobile terminal, or the like having the same structure as the tuner device 10. In addition, the embodiment is an example of a set-top box, which is an information transmission device that receives not only television broadcasts and satellite broadcasts but also radio broadcasts, wired broadcasts using the Internet, and the like and outputs video and audio signals. Also good.

  In this embodiment, the communication unit 61 and the video output unit 62 communicate with an external device or output video / audio information via the connection terminal 70 based on the HDMI standard. However, the connection unit 70 is not provided. An example of communicating with an external device or outputting video / audio information by a radio signal may be applied. In this example, a wireless communication unit (not shown) is provided instead of the connection terminal 70.

  With such a configuration, the tuner device 10 according to the embodiment of the present invention is used in the video / audio information input from the broadcast wave processing unit 20, the AV signal input unit 21, the network IF unit 22, and the monitor device 110. Data can be output to an external device based on a predetermined standard. The plurality of processes are mainly executed by the signal processing control unit 40.

  Next, the monitor device 110 according to the present embodiment includes a communication unit 121, a video input unit 122, a DRAM 131, an NV memory (Non Volatile Memory) 132, a signal processing control unit 140, a display 151, a speaker 152, a connection terminal 160, and the like. It consists of

  The monitor device 110 distinguishes video / audio information and other information input via a transmission path for transmitting a video / audio signal, and performs different processing on each information.

  The communication unit 121 is a reception signal from an external device via the connection terminal 160, receives reception information based on the HDMI standard, and notifies (outputs) the content indicated by the reception information to the signal processing control unit 140. . Further, the communication unit 121 outputs transmission information that is a transmission signal to the external device via the connection terminal 160 based on the HDMI standard in accordance with the communication information from the signal processing control unit 140. The communication unit 121 communicates (exchanges transmission information and reception information) with the tuner device 10 based on the HDMI-CEC standard.

  The video input unit 122 outputs video audio information input from an external device via the connection terminal 160 and data used by the monitor device 110 to a predetermined area (memory space) of the DRAM 131 for storage. The video input unit 122 extracts information for outputting a video / audio signal based on information input from an external device via the connection terminal 160 and outputs the information to the signal processing control unit 140. In the present embodiment, the video input unit 122 receives information divided into a predetermined capacity from an external device based on the HDMI standard. Further, data of a program executed by the signal processing control unit 140 is applied as data used by the monitor device 110.

  The DRAM 131 is a memory for storing information, and stores various information at predetermined memory addresses under the control of the video input unit 122. In the DRAM 131, various information at a specific memory address is read by the signal processing control unit 140. The DRAM 131 stores video / audio information and data of a program executed by the signal processing control unit 140.

  The NV memory 132 is a non-volatile memory that stores information, and stores data of a program executed by the signal processing control unit 140 read from a specific memory address of the DRAM 131 under the control of the signal processing control unit 140. To do. Further, the NV memory 132 reads data of a program executed by the signal processing control unit 140 under the control of the signal processing control unit 140.

  Based on the information for outputting the video / audio signal input from the video input unit 122, the signal processing control unit 140 performs predetermined processing on the specific information read from the DRAM 131, and displays the video on the display device 151. A signal is output and an audio signal is output to the speaker 152. Further, the signal processing control unit 140 includes a CPU or a microcomputer (not shown) as a control unit, loads data of a program executed by the signal processing control unit 140 stored in the NV memory 132, and performs signal processing. The execution of a plurality of processes is controlled using each module provided in the control unit 140 itself and each module connected to the signal processing control unit 140.

  In the present embodiment, the signal processing control unit 140 reads video / audio information from the DRAM 131, converts the video / audio information into a video signal or an audio signal, and outputs each signal to each corresponding block. Further, the signal processing control unit 140 reads out data of a program executed by the signal processing control unit 140 from the DRAM 131 and stores it in the NV memory 132.

  The display 151 is a display module that displays the video signal input from the signal processing control unit 140. For example, the display 151 is a thin display such as a liquid crystal display (hereinafter also referred to as LCD) or a PDP (Plasma Display Panel).

The speaker 152 outputs the audio signal input from the signal processing control unit 140.
The connection terminal 160 is a connection terminal based on the HDMI standard, and is used for a TMDS data transmission path that is a transmission path for inputting a video signal and a CEC path that is a transmission path for communication information for communicating with an external device. The connection pin is provided. In the present embodiment, the connection terminal 160 transmits data of a program executed by the signal processing control unit 140 using a TMDS data transmission path.

  In the present embodiment, a monitor device 110 in a television system is taken as an example of an information receiving device to which the configuration according to the present invention is applied. However, as the information receiving apparatus according to the present embodiment, an HDD recorder, a DVD recorder, a personal computer, a portable mobile terminal, a television receiver, or the like having the same structure as that of the monitor apparatus 110 may be used as an example.

  In the present embodiment, an example is shown in which the communication unit 121 and the video input unit 122 communicate with an external device or input video / audio information via the connection terminal 160 based on the HDMI standard. However, the connection unit 160 is not provided. An example of communicating with an external device or inputting video / audio information by a wireless signal may be applied. In this example, a wireless communication unit (not shown) is provided in place of the connection terminal 160.

  With such a configuration, the monitor device 110 according to the embodiment of the present invention distinguishes each of the audio / video information input from the external device and the data used by the monitor device 110 based on the HDMI standard, Different processing can be applied to the information. The plurality of processes are mainly executed by the signal processing control unit 140.

  That is, according to the television system including the tuner device 10 and the monitor device 110 according to the present embodiment, the transmission path of video / audio information is lower than the transmission path having a low information transmission speed such as CEC in HDMI connection, for example. As described above, since information other than video / audio information is transmitted using a transmission path having a remarkably high information transmission speed, it is possible to shorten the time for transmitting information other than video / audio information between devices.

  Next, referring to FIG. 2, the signal processing control unit 40 of the tuner device 10 described with reference to FIG. 1 executes information transmission processing for transmitting non-AV data using a transmission path for video / audio information. Each block to be described will be described.

FIG. 2 is a system configuration diagram of each block that executes information transmission processing for transmitting non-AV data using a transmission path for video and audio information in the present embodiment.
The signal processing control unit 40 according to the present embodiment includes a video processing unit 201, an information acquisition unit 202, a synchronization control unit 203, a memory control unit 204, an information transmission processing unit 205, and the like.

  The video processing unit 201 executes a demodulation / decoding process on the video / audio information included in the data input from the broadcast wave processing unit 20, the AV signal input unit 21, and the like, and converts the video / audio into a format that can be processed later. Information is output to the memory control unit 204. The video processing unit 201 outputs the video / audio information to the memory control unit 204 in accordance with the synchronization information indicating the output timing of the video / audio information input from the synchronization control unit 203. In addition, the video processing unit 201 outputs or stops outputting the video / audio information to the memory control unit 204 according to the output permission information indicating that the video / audio information input from the information transmission processing unit 205 is output / stopped. .

  The information acquisition unit 202 acquires data used by the monitor device 110 that is non-AV data via the network IF unit 22 and outputs this data to the memory control unit 204.

  Based on a clock signal (not shown) having a predetermined cycle, the synchronization control unit 203 outputs a frame having a predetermined cycle to synchronization information indicating the timing at which the video processing unit 201 outputs video / audio information and information output from the video output unit 62. Frame synchronization information for adding a synchronization signal is output to the corresponding block.

  The memory control unit 204 stores the video / audio information input from the video processing unit 201 in a specific area allocated as an output buffer having a predetermined capacity used by the video output unit 62. Further, the memory control unit 204 stores the data used by the monitor device 110 input from the information acquisition unit 202 in another area different from the area for the output buffer in the DRAM 51. Further, the memory management unit 204 divides data used by the monitor device 110 stored in a specific area in the DRAM 51 with the same capacity as the output buffer at a predetermined timing requested by the information transmission processing unit 205, and outputs the output buffer. A data writing process for writing to a specific area assigned as is executed.

  The information transmission processing unit 205 executes a transmission side communication process for communicating with the external device via the communication unit 61 in accordance with operation input information for communicating with the external device. Further, the information transmission processing unit 205 outputs output permission information to the video processing unit 201 based on the communication content of the transmission side communication processing, and requests the memory control unit 204 to execute the data writing processing.

  With the system configuration of the plurality of blocks, the signal processing control unit 40 according to the embodiment of the present invention has a monitor device that is an external device in an area for an output buffer in the DRAM 51 in accordance with the content of communication with the external device. Data used in 110 is written. Data written to the output buffer can use a capacity corresponding to the video of one video frame. Since the video output unit 62 sequentially outputs the data stored in the output buffer and used by the external device, it is possible to shorten the information transmission time other than the video / audio information.

  Next, referring to FIG. 3, each block that is provided in the signal processing control unit 140 of the monitor device 110 described in FIG. 1 and performs different processing on each of the input video / audio information and information other than the video information. explain.

FIG. 3 is a system configuration diagram of blocks that perform different processing on input video / audio information and information other than video information.
The signal processing control unit 140 according to the present embodiment includes a video processing unit 301, an audio processing unit 302, a memory control unit 303, an information reception processing unit 304, and the like.
The video processing unit 301 executes video output processing for displaying on the display 151 a video signal obtained by performing DA conversion processing, scaling processing, image quality adjustment processing, etc. on the video information input from the DRAM 131 via the memory control unit 303. To do. The video processing unit 301 executes or stops the video output process based on the process execution information input from the information reception processing unit 304 and indicating the execution / stop of the video / audio output process.

  The sound processing unit 302 executes sound output processing for outputting from the speaker 152 a sound signal obtained by performing DA conversion processing or sound quality adjustment processing on the sound information input from the DRAM 131 via the memory control unit 303. The voice processing unit 302 executes or stops the voice output process based on the process execution information input from the information reception processing unit 304.

  The memory control unit 303 reads the video / audio information from the area of a predetermined capacity for the input buffer in the DRAM 131 based on the information for outputting the video / audio signal input from the video input unit 122, and reads this Video information is output to the video processing unit 301, and audio information is output to the audio processing unit 302. In response to a request from the information reception processing unit 304, the memory control unit 303 stores the program data stored in the input buffer in the DRAM 131 and executed by the signal processing control unit 140 divided by the same capacity as the input buffer. A data writing process for writing to another area different from the area for the input buffer in the DRAM 131 is executed. Further, the memory control unit 303 causes the NV memory 132 to store data written to another area different from the area for the input buffer. At this time, the memory control unit 303 also executes processing for integrating data separated by the same capacity as the input buffer so as to be handled as one data.

  The information reception processing unit 304 executes reception side communication processing for communicating with an external device via the communication unit 121. Further, the information reception processing unit 304 outputs processing execution information to the video processing unit 301 and the audio processing unit 302 based on the communication content of the reception side communication processing. Further, the information reception processing unit 304 requests the memory control unit 303 to execute the data writing process based on the communication content of the reception side communication process.

  The signal processing control unit 140 according to the embodiment of the present invention is transmitted by shortening the transmission time of information other than the video / audio information according to the contents of communication with the external device by the system configuration including the plurality of blocks. The data used in the monitor device 110 stored in the area for the input buffer in the DRAM 131 can be written to another area in the DRAM 131 and further managed in the NV memory 132.

  Next, referring to FIG. 4, non-transmission using the transmission path for video / audio information executed by the system configuration of the tuner apparatus 10 described in FIG. 2 and the system configuration of the monitor apparatus 110 described in FIG. An operation of information transmission processing for transmitting AV data will be described.

  FIG. 4 is a sequence diagram of information transmission processing for transmitting non-AV data using a transmission path for video / audio information, which is executed between the tuner device 10 and the monitor device 110.

  In this information transmission process, each apparatus executes a plurality of processes in order to transmit information between these apparatuses according to the content of communication executed between the tuner apparatus 10 and the monitor apparatus 110. It is.

  First, in each block provided in the tuner device 10 on the information transmission side, preparations such as securing an area in the DRAM 51 for transmitting non-AV data through a predetermined transmission path are performed (S401). When this preparation is completed, the information transmission processing unit 205 provided in the tuner device 10 transmits a transmission start notification indicating that transmission of non-AV data is started to the monitor device 110 via the communication unit 61 (S421). ). After this notification, each block of the tuner device 10 stands by (S402), in order to receive non-AV data through a predetermined transmission path in each block provided in the monitor device 110 on the information receiving side that has received this notification. Preparation for securing the area in the DRAM 131 is performed (S411).

  When this preparation is completed, the information reception processing unit 304 included in the monitor device 110 transmits a preparation completion notification indicating that preparation for receiving non-AV data is completed to the tuner device 10 via the communication unit 121. (S422). After this notification, each block of the monitor device 110 stands by (S412).

  When receiving the preparation completion notification via the communication unit 61, the information transmission processing unit 205 outputs output availability information to the video processing unit 201, and the video processing unit 201 outputs video / audio information to the memory control unit 204. Stop. Further, the information transmission processing unit 205 requests the memory control unit 204 to execute data write processing, and the memory control unit 204 sends the data used by the monitor device 110 to an area allocated as an output buffer to the DRAM 51. Data writing processing to be written is executed (S403).

  Here, since the output buffer has a capacity corresponding to one frame or one field of the video signal, when the data used by the monitor device 110 is larger than the capacity of the output buffer, the memory control unit 204 is the monitor device 110. The data to be used is divided and written to the output buffer for each capacity of the output buffer.

  At this time, since the video output unit 62 outputs the data in the output buffer to the monitor device 110 in accordance with the synchronization information input from the synchronization control unit 203, the data in the output buffer during the execution of the data writing process May be output. Therefore, it is necessary to notify the monitor device 110 that the data writing process has been completed and correct data can be output. Further, the memory control unit 204 or the video output unit 62 can attach error correction information for correcting a data error to the data in the output buffer, and the accompanying error correction information is effective in data transmission. Means.

  When the data write process is completed, that is, when the data write for the capacity of the output buffer is completed, the information transmission processing unit 205 sends a write completion notification indicating that the data write to the output buffer is completed to the monitor device 110. (S423). After this notification, a specific block of the monitor device 110 waits (S404).

  Here, the data sequentially transmitted from the tuner device 10 is input to the video input unit 122 provided in the monitor device 110. The video input unit 122 sequentially stores the input data in an input buffer assigned to a specific area of the DRAM 131.

  When the information reception processing unit 304 receives the write completion notification, the information reception processing unit 304 requests the memory control unit 303 to perform a data check on the area allocated as the input buffer. In response to this request, the memory control unit 303 A check is executed (S413). The data check is a process for checking whether the data in the input buffer is correct. For data checking, it is possible to apply a method for checking whether the data is correct using error correction information, or a method for checking this information when there is information indicating non-AV data. It is.

  The memory control unit 303 determines whether or not the result of the data check is OK (S414). If the data check is NG (No in S414), the memory control unit 303 checks the data in the input buffer again. (S413). On the other hand, if the data check is OK (Yes in S414), the memory control unit 303 stores the program data stored in the input buffer in the DRAM 131 and executed by the signal processing control unit 140 for the input buffer. Data acquisition processing is performed in which the data is acquired by moving or copying to another area different from the area (S415).

  That is, the memory control unit 303 performs a data check on the data sequentially input to the input buffer, and even if it takes time for correct data to be transmitted from the tuner device 10, the data control is performed at any time. It can be expected to be OK.

  When the data acquisition process is completed, the information reception processing unit 304 notified of the result transmits a confirmation completion notification indicating that the data check of the input buffer and the data acquisition are completed to the tuner device 10 ( S424). After transmitting this notification, the specific block of the monitor device 110 waits (S416).

  Upon receiving the confirmation completion notification, the information transmission processing unit 205 determines whether all data used by the monitor device 110 has been transmitted (transmission by the video output unit 62) (S405). When all the data has not been transmitted (No in S405), the information transmission processing unit 205 requests the memory control unit 204 to execute the data write process again, and executes the data write process to the memory control unit 204 (S403). )

  On the other hand, when all the data has been transmitted (Yes in S405), the information transmission processing unit 205 transmits a transmission completion notification indicating that all of the data used by the monitor device 110 has been transmitted to the monitor device 110 (S425). Then, the processing of the tuner device 10 ends.

  The information reception processing unit 304 provided in the monitor device 110 waits (S416), and then determines whether or not there is a transmission completion notification from the tuner device 10 (S417). When there is no transmission completion notification (No in S417), the information reception processing unit 304 waits again for a writing completion notification from the tuner device 10 (S412). On the other hand, when there is a transmission completion notification (Yes in S417), the processing of the monitor device 110 ends.

  Note that the information transmission processing for transmitting non-AV data of such an operation is preferably executed except for the timing at which the tuner device 10 should output the video / audio information. For example, the timing to be output can be applied at the time of channel switching at the time of broadcast wave reception, at the time of switching of the input means, or at the time of power OFF.

  In this way, information other than the video / audio information is transmitted using the transmission path for the video / audio information according to the content of the communication executed between the tuner device 10 and the monitor device 110. Information transmission time other than video / audio information can be shortened.

Next, a timing chart of information transmission processing for transmitting non-AV data executed based on the sequence of FIG. 4 will be described with reference to FIG.
FIG. 5 is a diagram showing a timing chart of information transmission processing executed based on the sequence of FIG.
This timing chart shows an example in which the data used in the monitor device 110 is larger than the capacity of the output buffer, so that data is divided into two data, data 1 and data 2, and two data transmissions are executed. Yes. In the description of the timing charts thereafter, attention is focused on the transition of data contents recorded in the output buffer in the DRAM 51 provided in the tuner device 10.

  When the information transmission process is started and the tuner device 10 receives a “preparation completion notification” transmitted from the monitor device 110 in response to the transmission start notification by communication between the tuner device 10 and the monitor device 110, “ “Data writing to output buffer” is started. The data content of the output buffer is “being rewritten” to data 1 which is a part of data used in the monitor device 110.

  When the “data writing to the output buffer” is completed, the data content of the output buffer becomes “data 1” and the tuner device 10 transmits a “write completion notification” to the monitor device 110. After this, since the output buffer is “data 1”, the data “data 1” is surely stored in the input buffer of the monitor device 110 instead of “data being rewritten”.

  Upon receiving the “write completion notification”, the monitor device 110 starts “data acquisition from the input buffer”, performs data check and data acquisition, and transmits a “confirmation completion notification” to the tuner device 10.

  The tuner device 10 that has received the “confirmation completion notification” has not yet transmitted all the data (has not transmitted the data 2). Therefore, similarly to the procedure of the “data 1” transmission process, the “output buffer” again. Start writing data to. Thereafter, the same processing is performed with the difference that “data 1” is replaced with “data 2”, and the monitor device 110 sends a “confirmation completion notification” for “data 2” to the tuner device 10. Send.

  The tuner device 10 that has received the “confirmation completion notification” has transmitted all the data (data 1 and data 2 have been transmitted), and therefore transmits the “transmission completion notification” to the monitor device 110 and the processing is terminated. .

  In this way, even if the capacity of data to be transmitted is larger than the capacity of the output buffer, transmission for video / audio information is performed according to the contents of communication executed between the tuner apparatus 10 and the monitor apparatus 110. Since information other than the video / audio information is transmitted at a minimum number of times using the path, it is possible to shorten the information transmission time other than the video / audio information.

  Next, a conceptual diagram of the memory space of the DRAM 51 of the tuner device 10 and the memory space of the DRAM 131 of the monitor device 110 relating to data transition in information transmission processing for transmitting non-AV data will be described with reference to FIG.

  FIG. 6 is a conceptual diagram of the memory space of the DRAM 51 of the tuner device 10 and the memory space of the DRAM 131 of the monitor device 110 regarding data transition in the information transmission process.

  Also in the conceptual diagram shown in FIG. 6, since the data used in the monitor device 110 is larger than the capacity of the output buffer, similarly to the example of the timing chart shown in FIG. In this example, data transmission is performed twice.

  That is, in the memory space of the DRAM 51 of the tuner device 10, an area for an output buffer that is an area to be read by the video output unit 62 and data that is an area in which data used by the monitor device 110 is stored (stored). Storage area is allocated. Further, in the memory space of the DRAM 131 of the monitor device 110, an area for an input buffer that is an area written in the video input unit 122 and data that is an area where data used in the monitor device 110 is stored (stored). Storage area is allocated.

  In the tuner device 10 on the data transmission side in the information transmission process, the data 1 stored in the data storage area is first written in the output buffer, read out to the video output unit 62, and output to the monitor device 110. Next, the data 2 stored in the data storage area is written into the output buffer, read out to the video output unit 62, and output to the monitor device 110.

  In the monitor device 110 on the data receiving side in the information transmission process, first, the data 1 input to the video input unit 122 is written to the input buffer, and the data 1 stored in the input buffer is used by the monitor device 110. Stored in an area where data is stored. Then, the data 2 input to the video input unit 122 is written to the input buffer, and the data 2 stored in the input buffer is stored in an area where data used by the monitor device 110 is stored.

  In this way, since information other than video / audio information is also transmitted through the same transmission path as the transmission of video / audio information using the output buffer and the input buffer, the transmission time of information other than video / audio information is shortened. Can be achieved.

(Modification)
Next, referring to FIG. 7, a modification of the information transmission process for transmitting non-AV data using transmission paths for video / audio information, which is executed by the system configuration of the tuner device 10 and the monitor device 110, respectively. The operation will be described.

  FIG. 7 is a sequence diagram of a modified example of information transmission processing for transmitting non-AV data using a transmission path for video / audio information, which is executed between the tuner device 10 and the monitor device 110.

  The sequence diagram of this modification is different from the sequence diagram of the information transmission process shown in FIG. 4 in that the number of communications between the tuner device 10 and the monitor device 110 is reduced and the memory access to the DRAM 51 is reduced. The operation contents of each step differ depending on the method. Specifically, this modification is an embodiment in which the memory control unit 204 of the tuner device 10 can operate as a DMA controller for a specific area of the DRAM 51, and the sequence of FIG. Will execute a different sequence.

  Also in this modification, each device executes a plurality of processes in order to transmit information between these devices according to the contents of communication executed between the tuner device 10 and the monitor device 110. To do.

  First, preparation for transmitting non-AV data through a predetermined transmission path is performed in each block included in the tuner device 10 on the information transmission side. In particular, data used in the monitor device 110 stored in a specific area of the DRAM 51 provided in the tuner device 10 is read and further written into a specific area of the DMA area in the DRAM 51 (S701).

The video output unit 62 sequentially outputs data in the output buffer to the monitor device 110 in accordance with the synchronization information input from the synchronization control unit 203.
When the data used in the monitor device 110 is larger than the capacity of the output buffer allocated to other areas of the DMA area, the memory control unit 204 converts the data used in the monitor device 110 into the capacity unit of the output buffer. The data is divided and written in a plurality of data areas. When it is necessary to divide such data, a serial number for each data area with respect to the number of divisions, a data capacity of each data area, and the like are written in each divided data area.

  When the preparation of each block is completed, the information transmission processing unit 205 provided in the tuner device 10 transmits a transmission start notification indicating that transmission of non-AV data starts to the monitor device 110 via the communication unit 61. (S721). At this time, the information transmission processing unit 205 also notifies the number of data areas to be transmitted.

  After transmitting this notification, each block of the tuner device 10 continues to operate (S702), and the non-AV data is predetermined in each block provided in the monitor device 110 on the information receiving side that has received this notification. Preparation for reception is performed through the transmission path. In particular, the memory control unit 303 notified of the number of data areas to be transmitted secures the same number of input buffers as the number of data areas to be transmitted in the DRAM 131 (S711). This input buffer is treated as a ring buffer.

  When this preparation is completed, the information reception processing unit 304 provided in the monitor device 110 transmits a preparation completion notification indicating that preparation for receiving the non-AV data is completed to the tuner device 10 via the communication unit 121. (S722). After this notification, the specific block of the monitor device 110 waits for a while (S712).

  When receiving the preparation completion notification via the communication unit 61, the information transmission processing unit 205 outputs output availability information to the video processing unit 201, and the video processing unit 201 outputs video / audio information to the memory control unit 204. Stop. Further, the information transmission processing unit 205 requests the memory control unit 204 to execute data write processing by the DMA operation, and the memory control unit 204 moves to a region assigned as an output buffer in a part of the DMA region in the DRAM 51. Data used by the monitor device 110 stored in another area of the DMA area is read out, and a data writing process to be written by the DMA operation is executed (S703). After execution of this process, each block of the tuner device 10 continues to operate and waits (S704).

  Here, when the data used in the monitor device 110 is larger than the capacity of the output buffer, the data used in the monitor device 110 is divided into a plurality of data areas in accordance with the capacity of the output buffer and is sent from the tuner device 10. It is transmitted to the monitor device 110. In the DRAM 131 of the monitor device 110, the same number of input buffers as the data areas to be transmitted are prepared as ring buffers, so that the respective data areas with serial numbers are stored in different input buffers. .

  The memory control unit 303 performs a data check, which is a process for checking whether the data stored in all the input buffers prepared in the DRAM 131 is correct (S713). For data checking, it is possible to apply a method for checking whether the data is correct using error correction information, or a method for checking this information when there is information indicating non-AV data. It is. Further, the determination as to whether or not there is a data area with the same serial number as the number of notified data areas is also executed as a data check.

  Further, the memory control unit 303 determines whether or not the result of the data check is OK, and determines whether or not all transmitted data has been normally received (S714), and has not been able to receive normally. In the case (No in S714), the memory control unit 303 executes data check for all the input buffers again (S713).

  On the other hand, if normal reception is possible (Yes in S714), the information reception processing unit 304 notified of this result transmits a reception completion notification indicating that all transmitted data has been normally received to the tuner device 10. (S723). Then, the memory control unit 303 acquires the data of all the input buffers by moving or copying to another area different from the area for the input buffer (S715), and the process of the monitor device 110 ends.

  Further, after the memory control unit 204 waits for a while after executing the data write processing by the DMA operation (S704), the information transmission processing unit 205 determines whether or not there is a reception completion notification from the monitor device 110 (S705). ). When there is no reception completion notification (No in S705), the memory control unit 204 executes the data write process by the DMA operation again (S703). On the other hand, when there is a reception completion notification (Yes in S705), the processing of the tuner device 10 ends.

  In addition, it is preferable that the modification of the information transmission process which transmits the non-AV data of such operation | movement is performed except the timing which the tuner apparatus 10 should output video / audio information. For example, the timing to be output can be applied at the time of channel switching at the time of broadcast wave reception, at the time of switching of the input means, or at the time of power OFF.

  In this manner, information other than the video / audio information uses the DMA operation using the transmission path for the video / audio information according to the content of the communication executed between the tuner device 10 and the monitor device 110. Therefore, information transmission time other than video / audio information can be shortened.

Next, the operation of a modification of the information transmission process for transmitting non-AV data, which is executed based on the sequence of FIG. 7, will be described with reference to FIG.
FIG. 8 is a diagram showing a timing chart of a modified example of the information transmission process executed based on the sequence of FIG.
This timing chart shows an example in which the data used in the monitor device 110 is larger than the capacity of the output buffer, so that data transmission is executed by being divided into data 1 and data 2. In the explanation of the timing charts thereafter, the transition of data contents recorded in the output buffer in the DRAM 51 provided in the tuner device 10 and the input buffer in the DRAM 131 provided in the monitor device 110 will be mainly focused. .

  When the information transmission process is started and the tuner device 10 receives a “preparation completion notification” transmitted from the monitor device 110 in response to the transmission start notification by communication between the tuner device 10 and the monitor device 110, “ “Data writing to output buffer” is started. This data writing is executed by a DMA operation, and the data content of the output buffer is rewritten to “data 1” in a short time. At a predetermined timing, the data in the output buffer is “data transmitted” to the input buffer 1.

  When “data write to output buffer” and “data transmission” are completed, “data 1” is stored in “input buffer 1 data” and “data write to output buffer” of data 2 to the output buffer starts. Is done. Similar to data 1, this data write is executed by a DMA operation, and the data content of the output buffer is rewritten to “data 2” in a short time. At a predetermined timing, the data in the output buffer is “data transmitted” to the input buffer 2.

  When the “data writing to the output buffer” and “data transmission” are completed, “data 2” is stored in the “input buffer 2 data”, and “data writing to the output buffer” of data 1 to the output buffer again. Is started, and the same operation as described above is executed.

  In this way, data 1 and data 2 are sequentially transmitted to the input buffer 1 and the input buffer 2. Here, since the input buffers 1 and 2 are ring buffers and serial numbers are attached to the data 1 and 2, even if the data 1 is transmitted to the input buffer 2 and the data 2 is transmitted to the input buffer 1, There is no problem because the data order is determined by the data check to be executed.

  When the data check on the input buffers 1 and 2 confirms that there is no problem with the received data, the monitor device 110 transmits a “reception completion notification” to the tuner device 10.

  In this way, even when the capacity of data to be transmitted is larger than the capacity of the output buffer, the transmission path for video / audio information depends on the content of communication performed between the tuner apparatus 10 and the monitor apparatus 110. Since the information other than the video / audio information is transmitted in a short time using the DMA operation using, the time for transmitting information other than the video / audio information can be shortened.

  Next, with reference to FIG. 9, a conceptual diagram of the memory space of the DRAM 51 of the tuner device 10 and the memory space of the DRAM 131 of the monitor device 110 regarding data transition in a modified example of the information transmission processing for transmitting information other than video / audio information. Will be explained.

  FIG. 9 is a conceptual diagram of the memory space of the DRAM 51 of the tuner device 10 and the memory space of the DRAM 131 of the monitor device 110 regarding data transition in a modification of the information transmission process.

  Also in the conceptual diagram shown in FIG. 9, since the data used in the monitor device 110 is larger than the capacity of the output buffer, similarly to the example of the timing chart shown in FIG. An example is shown in which data transmission using the DMA operation is performed after being divided.

  That is, the memory space of the DRAM 51 of the tuner device 10 is provided with a DMA area and other areas. In the DMA area, an area for an output buffer, which is an area read by the video output unit 62, and a data storage area, which is an area in which data used in the monitor device 110 is stored (stored), are allocated. . A data storage area, which is an area in which data used by the monitor device 110 is stored (stored), is also allocated to areas other than the DMA area. In this example, since the capacity of data used by the monitor device 110 is larger than the capacity of the output buffer having a predetermined capacity, the data used by the monitor device 110 is divided into two and stored.

  Further, in the memory space of the DRAM 131 of the monitor device 110, an area for an input buffer that is an area written in the video input unit 122 and data that is an area where data used in the monitor device 110 is stored (stored). Storage area is allocated. In this example, since it is notified that the data divided into two is transmitted from the tuner device 10, two input buffers and an area for storing data used by the monitor device 110 are provided. Yes.

  In tuner device 10 on the data transmission side in the modification of the information transmission process, first, data 1 and 2 stored in areas other than the DMA area are written in an area for storing data 1 and 2 provided in the DMA area. The data 1 and 2 in the DMA area are alternately written in the output buffer by the DMA operation, read out to the video output unit 62, and sequentially output to the monitor device 110.

  In the monitor device 110 on the data receiving side in the information transmission process, the data 1 and 2 sequentially input from the tuner device 10 are alternately stored in the input buffers 1 and 2. After confirming that the data in the input buffers 1 and 2 is correct, the data in the input buffers 1 and 2 is written and stored in another area different from the input buffers 1 and 2.

  In this way, information other than video / audio information is transmitted in a short time using the DMA operation through a transmission path similar to the transmission of video / audio information using the output buffer and the input buffer. It is possible to shorten the information transmission time other than the above.

  As described above, according to the present embodiment, it is possible to transmit information other than video / audio information in place of video / audio information to be transmitted using a transmission path for transmitting video / audio information. Information transmission time other than video / audio information between devices can be shortened.

  The present invention is not limited to the above-described embodiments, and various changes and modifications can be made without departing from the scope of the present invention.

  DESCRIPTION OF SYMBOLS 10 ... Tuner apparatus, 20 ... Broadcast wave process part, 21 ... AV signal input part, 22 ... Network IF part, 31 ... Operation part, 32 ... Light-receiving part, 40 ... Signal processing control part, 51 ... DRAM, 61 ... Communication part , 62 ... Video output section, 70 ... Connection terminal, 110 ... Monitor device, 121 ... Communication section, 122 ... Video input section, 131 ... DRAM, 132 ... NV memory, 140 ... Signal processing control section, 151 ... Display, 152 ... Speaker, 160 ... Connection terminal, 201 ... Video processing unit, 202 ... Information acquisition unit, 203 ... Synchronization control unit, 204 ... Memory control unit, 205 ... Information transmission processing unit, 301 ... Video processing unit, 302 ... Audio processing unit 303: Memory control unit 304: Information reception processing unit

Claims (8)

A video path for transmitting the video information to an information receiving device that receives the video information via a connection terminal;
Output means for sequentially outputting video information divided by the predetermined capacity using a buffer of a predetermined capacity by the video path;
Control means for controlling the output means to output specific information of the predetermined capacity different from the video information divided by the predetermined capacity, using the buffer of the predetermined capacity;
An information transmitting apparatus comprising: A communication path for communicating with the information receiving device through which the output means outputs the video information via the connection terminal;
A communication means for notifying the information receiving device that the specific information is output in place of the video information via the communication path;
Comprising
The control means controls the output means to output the specific information after receiving a response from the information receiving device to the notification of the communication means.
The information transmitting apparatus according to claim 1. The control means controls the output means to output the specific information except for a timing at which the video information should be output.
The information transmitting apparatus according to claim 2.   4. The information transmitting apparatus according to claim 3, wherein the specific information output by the output unit is program information executed by the information receiving apparatus. A video path for receiving the video information from a video transmission device that transmits the video information via the connection terminal;
An input unit that sequentially inputs the specific information of the predetermined capacity different from the video information divided by the predetermined capacity or the video information divided by the predetermined capacity by using the buffer of the predetermined capacity by the video path;
Processing means for performing different processing on each of the video information of the predetermined capacity and the specific information input by the input unit;
An information receiving apparatus comprising: A communication path for communicating with the information transmission device that transmits the video information or the specific information input by the input means via the connection terminal;
In response to being notified from the information transmitting device that the specific information is output via the communication path, the processing means responds that preparation for performing the different processing is completed.
The information receiving apparatus according to claim 5.   The information receiving apparatus according to claim 6, wherein the specific information is program information executed in the information receiving apparatus. An information transmission method for transmitting information from an information transmitting device to an information receiving device,
The information transmitting apparatus sequentially outputs video information divided by the predetermined capacity using a buffer of a predetermined capacity to the information receiving apparatus,
The information transmitting device notifies the information receiving device to output specific information of the predetermined capacity different from the video information divided by the predetermined capacity,
In response to being notified that the information receiving apparatus outputs the specific information from the information transmitting apparatus, preparations for performing different processing on the video information and the specific information of the predetermined capacity are provided. Respond to completion,
After the information transmitting device receives a response from the information receiving device, it outputs the specific information of the predetermined capacity,
The information receiving device performs different processing on each of the video information and the specific information input from the information transmitting device.
An information transmission method characterized by the above.

Images