JP2008258700A - Signal transmission and reception system, transmission processor, reception processor, and signal transmitting and receiving method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To list and display all files such as image files that a plurality of transmission devices store on one display screen. <P>SOLUTION: Disclosed is a signal transmission and reception system wherein a transmission processor and a reception processor are connected by a connection interface such as an HDMI interface. The transmission processor has a means of having data on a list of files of image and/or sound data and sending out the data of the list to the reception processor through a transmission line for control signal before receiving a command requesting image and/or sound data through a transmission line for control signal of the connection interface from the reception processor after the transmission processor is connected to the reception processor by the connection interface. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a signal transmission / reception system including a transmission processing device and a reception processing device that are connected by a connection interface of, for example, HDMI (High Definition MULTITIMEDIA Interface) standard.

  In recent years, various electronic devices compliant with high-speed digital interface standards such as HDMI (High Definition Multimedia Interface) standard and DVI (Digital Visual Interface) standard have been developed.

  The specification of the HDMI standard is described in High Definition Multimedia Interface Specification Ver1.3. The connection interface of the HDMI standard relates to a high-speed bus for transmitting image data, audio data, and the like, and display means of a receiving device. A low-speed bus for transmitting EDID (Extended Display Identification Data) information as information, and a CEC (Commercial Electronic Control) line for transmitting control signals are provided.

  In the HDMI standard, the transmission device and the reception device are connected by an HDMI cable including the high-speed bus, the low-speed bus, and the CEC line. The names “transmission device” and “reception device” indicate the direction of transmission and reception of image data and audio data, but communication such as control signals between the transmission device and the reception device can be performed bidirectionally through the CEC line. It has become.

  For example, when a transmitting device is a DVD (Digital Versatile Disc) player and a receiving device is a television receiver, when a reproduction command is sent from the television receiver to the DVD player through the CEC line, the DVD player starts reproduction, and high speed The reproduced image data and the reproduced audio data are transmitted to the television receiver through the bus.

  For example, when an image recording / recording device such as a digital video camera or a digital still camera is connected to a television receiver through an HDMI standard connection interface, a menu list request command or the like is sent from the television receiver to the television receiver. As a response to the command, the list data including thumbnails is sent from the image recording / recording device via the high-speed bus, and the list is displayed on the display screen of the television receiver. can do.

  Then, when the user selects a specific photographed image through a list displayed on the display screen of the television receiver and requests the reproduction thereof, a command for requesting the reproduction of the photographed image is recorded through the CEC line. Sent to the device. The image shooting / recording device sends the image data of the shot image requested to be reproduced to the television receiver through the high-speed bus. The television receiver displays a reproduced image of the received captured image.

  Not only the above-mentioned HDMI standard CEC line, but also home appliance control standards, etc., the user can control one or more devices connected to the television receiver simply by operating the remote control to the television receiver. Making it possible is disclosed in Patent Document 1 (Japanese Patent Laid-Open No. 2004-208290), Patent Document 2 (Japanese Patent Laid-Open No. 2004-304220), and Patent Document 3 (Japanese Patent Laid-Open No. 2006-41584). .

The above-mentioned patent documents are as follows.
JP 2004-208290 A JP 2004-304220 A JP 2006-41584 A

  By the way, a television receiver as a receiving apparatus may have a plurality of HDMI standard connection interfaces instead of one. When a plurality of image recording / recording devices such as digital video cameras and digital still cameras are connected to the plurality of connection interfaces at the same time, the television receiver can record the captured images of all connected image recording / recording devices. It would be convenient if the list could be displayed on one screen. For example, if a list of images taken by all the image recording / recording devices connected to the television receiver is displayed on one screen, the user can select the image recording / recording device that he / she wants to play back. It becomes possible to select and play back without worrying about.

  However, in the HDMI standard, as described above, when a menu request command is sent to an image capturing / recording apparatus as a transmitting apparatus through the CEC line, the image capturing / recording apparatus displays a list of captured images stored in the apparatus itself. Image data of the screen is generated, and the image data of the display screen of the list is sent to a television receiver that is a receiving device through a high-speed bus.

  Therefore, conventionally, there is a problem that it is not possible to simultaneously display a list from a plurality of image recording / recording devices on one screen.

  In view of the above, an object of the present invention is to make it possible to display a list of all files such as image files stored in a plurality of transmission apparatuses on a single display screen.

In order to solve the above problems, the invention of claim 1
A transmission processing apparatus connected by a connection interface including at least a transmission path for transmitting at least image data and / or audio data and a transmission path for control signals, and transmitting at least the image data and / or audio data; In a signal transmission / reception system comprising a reception processing device comprising at least means for receiving and displaying and / or reproducing sound by receiving the image data and / or audio data,
The transmission processing device includes data of a list of files of the image data and / or audio data, and after being connected to the reception processing device via the connection interface, the transmission processing device includes the connection interface from the reception processing device. Before receiving a command for requesting the image data and / or audio data through a control signal transmission path, means for sending the list data to the reception processing device through the control signal transmission path; ,
The reception processing device includes a plurality of the connection interfaces, receives and stores data of the list from the transmission processing device connected to each of the connection interfaces through the plurality of connection interfaces, and From the list data from the plurality of transmission processing devices connected to the plurality of connection interfaces, the contents of the plurality of list lists of the plurality of transmission processing devices are reproduced as one screen. Provided is a signal transmission / reception system comprising means for generating and displaying a combined batch list.

  In the invention of claim 1, the transmission processing apparatus prepares and holds data of a list of files in advance. When the transmission processing apparatus is connected to the reception processing apparatus through a connection interface such as an HDMI standard connection interface, before the request command for the image data or audio data of the file is sent in the connection state. At the appropriate timing, the stored list data is sent through a control signal transmission line such as a CEC line.

  The reception processor re-synthesizes the list of all files held by all transmission processors from the list data received from a plurality of transmission processors via a control signal transmission line such as a CEC line. To generate a batch list. Then, the reception processing device displays the generated batch list on the display screen.

  As a result, the reception processing device can display a list of all the files included in the plurality of transmission processing devices connected thereto in a single screen. Therefore, the user can recognize all of the files that can be reproduced and enjoyed at that time by the reception processing device by viewing the collective list display.

  According to the present invention, a plurality of transmission processing apparatuses connected by a connection interface including at least a transmission path for transmitting at least image data and / or audio data, and a transmission path for control signals, and a reception processing apparatus In this system, all of the files such as image files stored in the plurality of transmission processing devices can be collectively displayed on one display screen of the reception processing device. The reception processing device can execute various processing functions for a plurality of transmission processing devices as simultaneous processing targets based on the list display collectively.

  Hereinafter, an embodiment of a signal transmission / reception system according to the present invention will be described with reference to the drawings, taking as an example a case where an HDMI standard connection interface is used as a connection interface.

  FIG. 1 is a diagram illustrating an embodiment of a signal transmission / reception system in which a transmission processing device and a reception processing device are connected via an HDMI interface. In this example, one reception processing device 10 has a plurality of HDMI interface terminals (connectors; not shown). In the example of FIG. 1, two transmission processing devices 21 and 22 receive processing. A case is shown in which the device 10 is connected by one HDMI standard cable (hereinafter referred to as an HDMI cable) 31 and 32.

  The HDMI cables 31 and 32 are respectively a high-speed bus (high-speed data transmission path) 31H and 32H for image data and audio data, and a low-speed bus 31L and 32L for bidirectionally transmitting device information and authentication information. , CEC lines 31C and 32C for bidirectionally communicating control data such as commands and responses thereof, respectively.

  In this embodiment, the reception processing device 10 is configured as an AV (Audio-Visual) monitor device in this example, and includes an image display 101 including an LCD (Liquid Crystal Display), for example. And a speaker 102 for reproducing an audio signal.

  In this example, the reception processing device 10 receives the image data and audio data transmitted from the transmission processing devices 21 and 22 through the high-speed buses 31H and 32H of the HDMI cables 31 and 32, respectively. , 104, a switching unit 105 for selecting one of reception data from the HDMI reception unit 103 and reception data from the HDMI reception unit 104, and image data is extracted from the reception data from the switching unit 105, and the display 101 The display signal generator 106 for generating an image signal to be displayed on the display, the display controller 107 for displaying an image on the display 101 using the display signal generated by the display signal generator 106, and the switching unit 105 An audio signal that extracts audio data from the received data and generates an audio signal to be reproduced by the speaker 102 A generating unit 108, and an audio output amplifier 109 is supplied to the speaker 102 amplifies the audio signal generated by the audio signal generator 108.

  Furthermore, the reception processing apparatus 10 includes a system control unit 110 for controlling the above-described units. The system control unit 110 is configured using, for example, a microcomputer. The system control unit 110 is connected to a remote control receiving unit 111 and wirelessly receives a remote control signal from a remote control transmitter 112 operated by a user using infrared rays or the like. The system control unit 110 analyzes the remote control signal received from the remote control transmitter 112 via the remote control reception unit 111, recognizes what the operation input by the user at the remote control transmitter 112 is, and displays the recognition result. A corresponding control process is executed.

  In this embodiment, a receiving side information memory 113 is further connected to the system control unit 110. The reception side information memory 113 includes information on display means of the reception side device, that is, EDID (Extended Display Identification Data) information. In particular, when the current DVI standard or HDMI standard is used, the information stored in the reception side information memory 113 indicates the same information as the EDID. This EDID information includes information such as resolution information and synchronization frequency information of the display 23D of the AV monitor device as the reception processing device 20, types of signals that can be displayed, pixel clock (pixel clock), horizontal effective period, vertical effective period, and the like. including.

  Further, in this embodiment, a list list memory 114 is connected to the system control unit 110, and as will be described later, a list of photographed image files sent through the CEC line of the HDMI cable and a generated batch list. List information is stored in this list memory 114.

  Next, the transmission processing devices 21 and 22 in this embodiment will be described. The transmission processing devices 21 and 22 of this embodiment are image photographing and recording devices such as digital video cameras and digital still cameras. FIG. 2 shows an example of a configuration block diagram of the transmission processing device 21. The example of FIG. 2 is a configuration example in the case of a digital video camera, and does not include an audio signal recording system.

  The transmission processing apparatus 21 in this example includes a captured image recording system 201, a captured image reproduction system 202, a recording medium 203, a system control unit 210, and a transmission system to the reception processing apparatus 10 as a basic configuration. . The recording medium 203 may be a removable medium such as a DVD (Digital Versatile Disc) or a memory card in addition to a medium built in the apparatus such as a hard disk device or a semiconductor memory.

  Further, the transmission system to the reception processing device 10 in the transmission processing device 21 of this embodiment includes an HDMI transmission unit 204, a transmission control unit (not shown) configured by software of the system control unit 210, and the above-described configuration. And an HDMI cable 31.

  In this embodiment, an operation unit 205 is connected to the system control unit 210 through an operation input interface unit 206, and a user operates a shutter button or a recording start button of the operation unit 205 or a playback button. When an operation (photographed image reading operation) is performed, the operation signal is supplied to the system control unit 210 through the operation input interface 206. The system control unit 210 analyzes the operation signal input through the operation input interface 206, recognizes what the operation input by the user at the operation unit is, and executes control processing according to the recognition result. To.

  The system control unit 210 is provided with a captured image file list generation unit 207 connected thereto, and is also provided with a memory 208 and a clock unit 209 connected thereto.

  In this embodiment, the photographed image file list generation unit 207 adds a photographed image file to the list of photographed image files each time a photographed image is recorded on the recording medium 203 by the photographed image recording system 201. In addition to generating image file data, data generated by adding the generated file data to a list stored in the memory 208 is generated, and the generated list data is written back to the memory 208. To.

  The clock unit 209 is provided with a calendar function, and is used for giving the system control unit 210 information on the date and time at the time of shooting and recording. The clock unit 209 can be realized as software processing by counting the internal clock in the microcomputer of the system control unit 209.

  Note that the captured image file list generation unit 207 may be configured as a software process by a microcomputer constituting the system control unit 210.

  The captured image recording system 201 includes a camera unit 211 including an optical lens system and an image sensor, an imaging signal processing unit 212, a recording encoder 213, and a writing unit 214. The captured image reproduction system 202 includes a reading unit 221, a reproduction decoder 222, a resolution determination unit 223, a resolution conversion unit 224, a display system interface 225, and a display 226.

  When the shooting / recording mode is designated based on the user's operation through the operation unit 205, each part of the shot image recording system 210 is activated under the control of the system control unit 210. Then, data of an image captured by the camera unit 211 is supplied to the recording encoder 213 through the imaging signal processing unit 212. In the recording encoder 213, image data compression processing, recording modulation, and the like are performed, and then the writing unit 214 writes the data in the recording medium 203.

  In addition, when a playback mode (image reading mode) is designated based on a user's operation through the operation unit 205 or by a playback command from the reception processing device 10, shooting is performed under the control of the system control unit 210. Each part of the image reproduction system 202 is activated.

  Then, the designated one of the captured images recorded from the recording medium 203 is read by the reading unit 221, supplied to the reproduction decoder 222, and the compressed data is expanded. The expanded image data is supplied to the resolution determination unit 223, the resolution selected at the time of shooting is determined, and the determination result is supplied to the resolution conversion unit 224 together with the expanded image data.

  In the playback mode in which the playback image is displayed on the display 226 of the transmission processing device 21, the resolution conversion unit 224 converts the resolution into a resolution that can be displayed on the display 226, and displays the resolution-converted image data through the display system interface 225. 226 to display a reproduced image.

  In the mode in which the reproduction image data is transmitted from the transmission processing device 21 to the reception processing device 10 through the HDMI interface, the resolution conversion unit 223 displays the display capability of the reception processing device 10 according to a control instruction from the system control unit 210. And the resolution-converted image data is transmitted from the HDMI transmission unit 204 to the reception processing apparatus 10 through the high-speed bus 31H.

  The system control unit 210 acquires the EDID stored in the reception-side information memory 113 of the reception processing device 10 through the low-speed bus 31L when the transmission processing device 21 is connected to the reception processing device 10, The resolution that can be displayed on the display 101 included in the reception processing device 10 is recognized in advance, and based on this recognition, the resolution conversion unit 224 is controlled, and an image is displayed as the resolution according to the display capability of the display 101 of the reception processing device 10. The data is sent to the reception processing device 10.

  The transmission processing device 21 in this example has been described as being executed by the system control unit 210 when the playback mode (image reading mode) is designated by the playback command from the reception processing device 10. The reproduction command is transmitted to the system control unit 210 through the CEC line 31C of the HDMI cable 31.

  The system control unit 210 analyzes the command sent through the CEC line 31C and executes processing corresponding to the command. Note that commands communicated through the CEC line 31C are predetermined in the HDMI standard.

  However, instead of a command, as described above, data of a list of captured image files prepared in advance by the transmission processing device 21 can be transmitted to the reception processing device 10 through the CEC line 31C. However, in that case, a mechanism is required that allows the reception processing device 10 to recognize and capture the transmitted list list data as a list and perform processing as described later.

  For example, the system control unit 110 of the reception processing device 10 sends a command for the CEC line that is open for device manufacturers to the transmission processing device 21 as a request command for the list of photographed image files, and as a response to the command. The data of the list of photographed image files may be sent from the transmission processing device 21 to the reception processing device 10 through the CEC line 31C. In this case, the system control unit 110 of the reception processing device 10 may recognize and import the data sent from the transmission processing device 21 as the list list data after sending the list list request command. Because.

  As another method, when the transmission processing device 21 is connected to the reception processing device 10 through the HDMI interface, the data of the list is transmitted from the transmission processing device 21 to the reception processing device 10 through the CEC line 31C. There is a way. In this method, no data is sent from the reception processing device 10, and the data first sent through the CEC line when the transmission processing device is connected by the HDMI interface is used as the data of the list. Is.

  In this embodiment, when a list of photographed image files of the transmission processing device 21 is updated while being connected through the HDMI interface, the data of the list is transmitted via the CEC line. In this case, the reception processing device 10 can recognize and receive data sent in a state where no command is sent as data of a list.

  In this embodiment, both the former method and the latter method can be adopted, but the latter method is particularly adopted.

  In this embodiment, when sending the data of the list of photographed image files from the transmission processing device 21, identification information indicating that the transmission data is data of the list is sent together, so that it is more reliable. The reception processing device 10 is notified that the data is a list list data. This identification information is predetermined between the transmission processing device and the reception processing device. As described above, it is possible to transmit / receive data in the list without using this identification information.

  As described above, FIG. 2 shows the configuration in the case of the digital video camera, but the digital still camera can also have a substantially similar configuration. However, in the case of a digital video camera, the photographic recording image data is moving image data from the photographic recording start time to the photographic recording stop time, and the photographic image recording system 201 and the photographic image reproduction system 202 are the moving image data. Data is recorded on the recording medium 203 and can be reproduced. On the other hand, in the case of a digital still camera, the photographic recording image data is still image data, and the photographic image recording system 201 and the photographic image reproduction system 202 store the still image data in the recording medium 203. It is the structure which can record and reproduce | regenerate. Except for this point, the digital video camera and the digital still camera can have the configuration shown in FIG.

  Next, in this embodiment, the reception processing device 10 re-synthesizes the data of the list received from the plurality of transmission processing devices, and the image photographing devices connected to the plurality of HDMI interfaces at that time point. A list of all the photographed image files is generated so that the list can be displayed simultaneously on one screen, and this list is displayed on the screen.

  In this embodiment, the batch list list generating means is configured as a software processing function executed by a microcomputer constituting the system control unit 110. In this case, in this embodiment, the batch list list displays the list lists from the transmission processing devices (image capturing devices) connected to the plurality of HDMI interfaces in a single screen. It is supposed to be possible.

  In this case, each of the list lists from the transmission processing devices (image capturing devices) connected to the plurality of HDMI interfaces is identified with identification information for enabling identification from each other, for example, from a list number or the like. A list ID (or a device ID of a transmission processing device) may be assigned.

  Further, each of the photographed image files included in the list list from each image photographing device has a file ID such as a file number as identification information for distinguishing it from other files in the list list. Are given when the list is generated.

  Then, the list ID and the file ID are given as identification information to each captured image file included in the list of each image capturing device included in the batch list. When a specific photographed image file is selected on the collective list by the identification information given to each photographed image file, the selected photographed image file is connected to which HDMI interface. It is configured so that it can be recognized whether it is a photographed image file included in the list of devices and which photographed image file is in the list.

  As will be described later, in this embodiment, the reception processing device 10 is configured to accept designation of a specific captured image file to be reproduced from the user on the screen of the batch list.

  As will be described later, for example, when the system control unit 110 receives a reproduction designation of a specific captured image file through the user's remote control transmitter 112, the system control unit 110 is connected to any HDMI interface by the list ID of the file. It recognizes whether the file is stored in the transmission processing device (image photographing device). Then, the system control unit 110 sends the file ID of the file designated for reproduction and a reproduction command to the recognized transmission processing apparatus through the CEC line of the HDMI interface.

  Upon receiving this, the transmission processing apparatus reads out the image data of the captured image file designated by the file ID, reproduces and decodes it, and sends it to the reception processing apparatus 10 through the high-speed bus of the HDMI interface. The reception processing device 10 displays the reproduced image on the display 101 based on the image data received through the high-speed bus.

  Further, as will be described later, the reception processing device 10 sequentially, for example, in order of shooting time, for shot image files stored in a plurality of image shooting devices connected through the HDMI interface based on this batch list. In addition, a function for realizing a so-called slide show function for sequentially reproducing images is also provided. In this embodiment, the slide show function is realized by software processing of a microcomputer constituting the system control unit 110.

  In order to realize the functions as described above, in this embodiment, in the case of a photographic image device, the transmission processing device 21 displays a list of captured image files in the case of a photographic image device. It is updated every time it is shot, and is also updated in the same way when the captured image is deleted. When the transmission processing device 21 is connected to the reception processing device 10 via the HDMI interface or when the list of photographed image files is updated, the data of the list of the photographed image files is transferred to the CEC line 31C. To send through.

  As described above, the HDMI transmission path connecting the transmission processing devices 21 and 22 and the reception processing device 10 transmits a high-speed bus for transmitting video data and audio data, EDID and data for authentication described later. And a CEC line.

  FIG. 3 shows a detailed example of the HDMI transmission path. FIG. 3 shows an example in which the transmission processing device 21 and the reception processing device 10 are connected by the HDMI cable 31 as an example.

  As shown in FIG. 3 and as shown in FIG. 1, a high-speed bus 31H included in the HDMI cable 31 is provided between the HDMI transmission unit of the transmission processing device 21 and the HDMI reception unit 103 of the reception processing device 10. Connected by

  The high-speed bus 31H is a TMDS (Transmission Minimized Differential Signaling) type serial transmission path, and includes three data transmission lines and a clock transmission line.

  Each of the red, green, and blue video data is transmitted as separate channels (three channels of TMDS channel 0, TMDS channel 1, and TMDS channel 2) through three data transmission lines. Then, a clock synchronized with transmission data is transmitted through a clock transmission line (TDMS clock channel). Accordingly, the high-speed bus 31H includes serial transmission paths for four channels as shown in FIG.

  Audio data, horizontal and vertical synchronization signals, control data, status data, attribute data, and the like are also transmitted through the three transmission lines together with the image data. In this case, audio data, horizontal and vertical sync signals, control data, status data, and attribute data are inserted and transmitted in the vertical blanking period and horizontal blanking period of the red, green, and blue image data, respectively. The The HDMI transmission unit 204 performs time-division multiplexing of these video data, audio data, synchronization signal, control data, and status data in each channel and transmits the data, and also transmits a clock synchronized with the transmission data.

  FIG. 4 shows data transmitted through one (one TDMS channel) data transmission line corresponding to one screen. As shown in FIG. 4, data transmission according to the HDMI standard is performed in three periods called “Video Data Period”, “Data Island Period”, and “Control Period”. FIG. 4 shows a transmission image in each period. However, the example of FIG. 4 is an example when one screen is composed of 720 × 480 (pixels).

  The image data is arranged in the period of “Video Data Period”, and pixel data (pixel data) of the image data formatted according to the EIA / CEA-861B standard is transmitted.

  The audio signal is arranged in a “Data Island Period” period arranged in a blanking section avoiding the “Video Data Period” period, and packet data of an audio stream signal formatted according to the IEC06958 standard is transmitted.

  Similarly to “Data Island Period”, the synchronization signal is arranged in the “Control Period” period arranged in the blanking interval, and is encoded horizontal synchronization signal (HSYNC), encoded vertical synchronization signal (VSYNC). Is transmitted in the form of

  In addition to this, “AVI Infoframe”, which is attribute data of image data, is arranged in the “Data Island Period” period and transmitted as packet data. The data content of the “AVI Infoframe” includes, for example, resolution information, frequency information, color space information (Y, Cr, Cb or R, G, B) of image data to be transmitted, and an effective area of image data ( In the case of an image with black bands on the top, bottom, left and right of the image, the start position of the black band), the aspect ratio of the image, etc.

  Next, the low speed bus 31L included in the HDMI cable 31 will be described.

  In the HDMI standard, plug and play is realized, and the transmission processing device 21 transmits a video signal in accordance with the resolution of the display for display included in the reception processing device 10. The low speed bus 31L is used to realize this plug and play.

The low-speed bus 31L is called a DDC (Display Data Channel) and employs an I ² C bus that is a bidirectional bus. The I ² C bus is a low-speed serial bus having a maximum transfer clock frequency of 400 kHz. The system control unit 210 obtains EDID data as reception side information from the reception processing device 20 via the low-speed bus 31L, thereby realizing plug and play.

  That is, when the transmission processing device 21 and the reception processing device 10 are connected by the HDMI cable 31, the system control unit 21 of the transmission processing device 21 uses the DDC control signal and the reception processing device 10 via the low-speed bus 31L. EDID information which is reception side information is acquired from the reception side information memory 113. Then, as described above, the system control unit 2H leaves the resolution conversion unit 224 in the transmission data transmission process so that the video signal having the horizontal scanning frequency and the vertical scanning frequency optimum for the display 101 of the reception processing apparatus 10 is obtained. Output. As a result, the captured image recorded on the recording medium 203 can be displayed on the display 101 in an always optimal state.

  The low speed bus 32 is not used only for plug and play as described above. In other words, the DDC line 31L is also used for encryption procedure processing in HDCP (High-bandwidth Digital Content Protection) technology.

  In HDCP, the transmission processing device 21 authenticates that the receiving device is not an unauthorized device, and after the authentication has succeeded (successful authentication), encrypted transmission of transmission data from the transmission processing device 21 to the reception processing device 10 is not performed. Is possible. Information necessary for this authentication is transmitted via the low-speed bus 31L. Since the present invention is not directly related to the authentication operation using the HDCP technology, a detailed description thereof will be omitted.

  Next, the CEC line 31C is for transmitting a control signal between a signal output device (transmission processing device) and a display device (reception processing device) which are consumer devices. The reception processing device transmits a “play” command, a “menu on” command, and the like to the transmission processing device via the CEC line 31C, or a predetermined command from the transmission processing device to the reception processing device. Or response data can be transmitted.

  Next, processing operations in the signal transmission / reception system including the transmission processing devices 21 and 22 and the reception processing device 10 configured as described above will be described. The processing operation described below will be described as a case where the reception processing device 10 is a television monitor device, the transmission processing device 21 is a digital video camera, and the transmission processing device 22 is a digital still camera, as shown in FIG. . The digital video camera is abbreviated as CAM, the digital still camera is abbreviated as DSC 22, and the television monitor device is abbreviated as TV.

[Generate List List of Captured Image Files in CAM21 and DSC22]
As described above, the CAM 21 and the DSC 22 according to this embodiment store the captured image data and the accompanying information such as the recording / recording start time, the recording / recording end time, and the shooting condition information on the recording medium 202, such as the file number. The photographed images are recorded in association with each other by the file identification information, and a list of photographed image files recorded on the recording medium 203 is generated.

  FIG. 6 shows an example of a list of photographed image files in the case of CAM21. That is, the list of photographed image files of the CAM 21 is recorded with the photographing recording start date and time and the photographing recording end date and time of the moving image as the recording date corresponding to the file identification information such as the file number.

  In the case of this example, as shown in FIG. 5, the recording medium 203 of the CAM 21 has three moving image files “Movie 1”, “Movie 2”, and “Movie 3” recorded as a list. As shown in FIG. 6, for “Movie 1”, the shooting recording start date / time and shooting recording end date / time of the moving image is recorded corresponding to the file identification information “File 1”, and “Movie 2” Corresponds to the file identification information “file 2”, and the recording / recording start date / time and the recording / recording end date / time of the moving image are recorded. “Movie 3” corresponds to the file identification information “file 3”. The shooting record start date and time and the shooting record end date and time of the moving image are recorded.

  FIG. 7 shows an example of a list of photographed image files in the case of the DSC 22. That is, the list of photographed image files of the DSC 22 records the photographing date and time of the still image corresponding to the file identification information such as the file number.

  In this example, as shown in FIG. 5, eight still image files “Still 1”, “Still 2”, “Still 3”... “Still 8” are recorded on the recording medium 203 of the DSC 22. In this case, as shown in FIG. 7, as a list, for “Still 1”, the shooting recording date and time of the still image is recorded corresponding to the file identification information “File 1”, and “Still 2” is recorded. ”Is recorded in correspondence with the file identification information“ file 2 ”, and the shooting recording date and time of the still image is recorded...“ Still 8 ”is recorded in correspondence with the file identification information“ file 8 ”. The recording date and time of the still image is recorded.

  As will be described later, in this embodiment, when each of the CAM 21 and the DSC 22 is connected to the TV 10 or when the list is updated, the data of the list is transmitted through the CEC lines 31C and 32C, respectively. , To be transmitted to the TV 10.

  When the TV 10 acquires the list list data from the CAM 21 and DSC 22, as described later, based on the acquired list list data, both TV lists can be integrated and displayed on one screen. 8 has a function of generating and displaying a collective list as shown in FIG. 8 as an example.

  The TV 10 is configured to accept selection input of a specific file posted in the collective list. For example, when the user selects a reproduction instruction for the file 2 of the CAM 21, the TV 10 Then, a command for instructing playback of “Movie 2” is sent to the CAM 21 connected to the HDMI cable 31 through the CEC line 31C.

  Then, the system control unit 210 of the CAM 21 analyzes the command through the CEC line 31C, reads out the image data of “Movie 2” from the recording medium 203, and transmits the reproduced image data to the TV 10 through the high-speed bus 31H. To do. In response to this, the TV 10 displays the reproduced image on the display 101.

  As will be described later, the TV 10 has a function of executing a slide show in which a plurality of photographed image files in the batch list are sequentially reproduced in order of photographing recording time. The operation of this shooting time order slide show will be described in detail later.

  The CAM 21 and the DSC 22 according to this embodiment each list a photographed image data recorded on the recording medium 203 such as deleting the recorded image file every time the photographed image file is recorded on the recording medium 203. When it becomes necessary to update the list, the list update process is executed.

[Generation of List in CAM21]
FIG. 9 and FIG. 10 that is a continuation thereof are flowcharts for explaining an example of processing for creating a list of photographed image files in the CAM 21. The processing of each step in this flowchart is executed by the microcomputer of the system control unit 210 of the CAM 21 as software processing. In this example, the recording medium 210 is a removable recording medium.

  First, the system control unit 210 waits for the recording medium 203 to be loaded (step S1), and when determining whether or not the recording medium is loaded, the captured image file in which the captured image is already recorded on the recording medium. Is determined (step S2).

  When it is determined in step S2 that there is a captured image file, the system control unit 210 reads necessary incidental information such as a shooting / recording start time and a shooting / recording end time from the recorded captured image file. The file list is transferred to the file list generation unit 207 to generate a list of captured image files that have already been recorded, and the generated list is stored in the memory 208 (step S3). In this example, the list generated at this time includes a file number as an example of a file identifier and recording date and time (imaging recording start time and imaging recording end time) as shown in FIG.

  If it is determined in step S2 that the captured image file is not recorded on the recording medium 203, the system control unit 210 prepares a list of empty captured image files, and then the captured image file is recorded. It is stored in the memory 208 and prepared for the time (step S4).

  Next, the system control unit 210 determines whether or not a shooting / recording start operation has been performed by the user by analyzing an operation signal input through the operation unit 205 and the operation input interface 206 (step S5).

  When it is determined in this step S5 that the photographing / recording start operation has been performed, the system control unit 210 activates the photographed image recording system 201 to set the CAM 21 to the photographing / recording mode, and starts recording the photographed image data on the recording medium 203. (Step S6). At this time, the system control unit 210 reads the time of the clock unit 209 and holds the photographing recording start time (year / month / day and time).

  Next, the system control unit 210 determines whether or not a shooting / recording stop operation has been performed by the user by analyzing an operation signal input through the operation unit 205 and the operation input interface 206 (step S7). If it is determined in step S7 that the shooting / recording stop operation has not been performed, the system control unit 210 continues the shooting / recording mode.

  If it is determined in step S7 that the shooting / recording stop operation has been performed, the system control unit 210 stops the shooting / recording mode and stops recording the shot image data on the recording medium 203. At this time, the system control unit 210 reads the time of the clock unit 209 and holds the photographing recording end time (year / month / day and time) (step S8).

  Then, the system control unit 210 assigns a file number to the photographic image data recorded on the recording medium 203 and combines it with accompanying information such as the photographic recording start time, photographic recording end time, and photographic condition data. Then, the captured image data of the recording medium 203 is converted into a captured image file (step S11 in FIG. 10).

  Then, the system control unit 210 lists data about the newly captured image file, that is, in this example, a file number as an example of a file identifier and a recording date and time (imaging recording start time and imaging recording end time). Are added to the list stored in the memory 208 (step S12).

  Then, the system control unit 210 determines whether or not a deletion instruction for the captured image file recorded on the recording medium 203 has been issued by the user through the operation unit 205 (step S13).

  When it is determined in this step S13 that a deletion instruction has been issued, the system control unit 210 deletes the shot image file for which deletion has been instructed from the recording medium 203 (step S14), and also deletes it from the list in the memory 208. The list data for the instructed captured image file is deleted (step S15).

  Then, the system control unit 210 returns from step S15 to step S5 in FIG. 9, and determines whether or not the next shooting / recording start operation has been performed. When it is determined in step S5 that a shooting / recording start operation has been performed, the system control unit 210 repeats the processing from step S6 described above. If it is determined in step S5 that there has been no shooting / recording start operation, the system control unit 210 jumps to step S13 and repeats the processing from step S13 described above.

  If it is determined in step S13 that no deletion instruction has been given, the system control unit 210 determines whether the recording medium 203 has been ejected (ejected) (step S16). When the system control unit 210 determines that it has not been taken out, the system control unit 210 determines whether an operation for instructing another process has been performed through the operation unit 205 (step S17), and an operation for instructing another process is performed. If it is determined that the process has been performed, the instructed process is executed (step S18). Then, the system control unit 210 returns to step S5 in FIG. 9 and repeats the processing after step S5. Also, when it is determined in step S17 that an operation for instructing another process has not been performed, the system control unit 210 returns to step S5 in FIG. 9 and repeats the processes after step S5.

  If it is determined in step S16 that the recording medium 203 has been removed, the system control unit 210 deletes the list data stored in the memory 208 (step S19), and the processing routine ends.

[Generation of List in DSC 22]
FIG. 11 and FIG. 12, which is a continuation thereof, are flowcharts for explaining an example of processing for creating a list of photographed image files in the DSC 22. The processing of each step in this flowchart is executed as software processing by the microcomputer of the system control unit 210 of the DSC 22. In this example, the recording medium 203 in the DSC 22 is a removable recording medium. Further, since the DSC 22 has the same configuration as that shown in FIG. 2, for the sake of convenience, description will be made using the reference numbers of the respective processing blocks in FIG.

  First, the system control unit 210 of the DSC 22 waits for the recording medium to be loaded (step S21), and when determining whether or not the recording medium 203 has been loaded, a captured image has already been recorded on the recording medium 203. It is determined whether or not a captured image file exists (step S22).

  When it is determined in step S22 that there is a captured image file, the system control unit 210 of the DSC 22 reads out necessary accompanying information such as a recording start time and a recording end time from the recorded captured image file. A list of captured image files that have already been recorded is generated by passing it to the captured image file list generation unit, and the generated list is stored in the memory 208 of the DSC 22 (step S23). In this example, the list generated at this time is composed of a file number as an example of a file identifier and a still image shooting / recording date and time, as shown in FIG.

  If it is determined in step S22 that the captured image file is not recorded on the recording medium, the system control unit 210 of the DSC 22 prepares a list of empty captured image files, and then the captured image file is recorded. In preparation for this, it is stored in the memory 208 and prepared (step S24).

  Next, the system control unit 210 of the DSC 22 determines whether or not the shutter button has been pressed by the user by analyzing an operation signal input through the operation unit 205 and the operation input interface 206 (step S25). .

  If it is determined in step S25 that the shutter button has been pressed, the system control unit 210 activates the captured image recording system 201 to place the DSC 22 in the captured recording mode, and the captured image data of the still image is used as a new captured image file. Recording is performed on the recording medium 203 (step S26). At this time, the system control unit 210 reads the time of the clock unit 209 and stores the shooting recording time (year / month / day and time) as accompanying information of the shot image file of the still image.

  Then, the system control unit 210 of the DSC 22 stores, in the memory 208, a list of newly captured image files recorded, that is, a pair of a file number as an example of a file identifier and an image recording date / time in this example. The list is added to the stored list (step S27).

  Then, the system control unit 210 of the DSC 22 determines whether or not the user has issued an instruction to delete the captured image file recorded on the recording medium 203 (step S31 in FIG. 12).

  If it is determined in this step S31 that a deletion instruction has been issued, the system control unit 210 of the DSC 22 deletes the shot image file instructed to be deleted from the recording medium 203 (step S32), and also from the list in the memory 208. Then, the list data for the photographed image file instructed to be deleted is deleted (step S33).

  Then, the system control unit 210 of the DSC 22 returns from step S33 to step S25 of FIG. 11, and determines whether or not the next shutter button pressing operation has been performed. If it is determined in step S25 that the shutter button has been pressed, the system control unit 210 repeats the processing from step S6 described above. If it is determined in step S5 that there has been no shooting / recording start operation, the system control unit 210 of the DSC 22 jumps to step S31 and repeats the processing from step S31 described above.

  If it is determined in step S31 that no deletion instruction has been issued, the system control unit 210 of the DSC 22 determines whether the recording medium 203 has been ejected (ejected) (step S34). When the system controller 210 of the DSC 22 determines that it has not been taken out, it determines whether or not an operation for instructing other processing has been performed through the operation unit 205 (step S35), and an operation for instructing other processing. When it is determined that the process has been performed, the instructed process is executed (step S36). Then, the system control unit 210 returns to step S25 in FIG. 11 and repeats the processing after step S25. In addition, when it is determined in step S35 that an operation for instructing another process is not performed, the system control unit 210 returns to step S25 in FIG. 11 and repeats the processes after step S25.

  If it is determined in step S34 that the recording medium 203 has been removed, the system control unit 210 deletes the list data stored in the memory 208 (step S37), and the processing routine ends.

[List list transmission process to TV10 of CAM21 and DSC22]
FIG. 13 shows an example of processing performed by the CAM 21 or DSC 22 regarding the transmission of the list list data after the CAM 21 or DSC 22 is connected to the TV 10 through the HDMI interface (HDMI cable) until the connection state is released. Show. As the case of the CAM 21, the processing of the flowchart of FIG. 13 will be described. That is, here, each processing step in the flowchart of FIG. 13 is executed by the system control unit 210 of the CAM 21.

  First, when the CAM 21 serving as a transmission processing device and the TV 10 serving as a reception processing device are connected by the HDMI cable 31, the system control unit 210 of the CAM 21 acquires information on a connection state in the HDMI interface (step S41). This is because the HDMI cable 31 has a signal line called HPD (Hot Plug Detected) controlled by the receiving device, and the system control unit 210 monitors this HPD, so that the receiving device is connected by HDMI. It uses a mechanism to know whether or not.

  Then, based on the acquisition of the connection state information through HPD in step S1, the system control unit 210 determines whether or not the receiving device is connected through the HDMI interface (step S42), and the connection state If it is determined that it is not, the process returns to step S41 to continue monitoring the connection state.

  When it is determined in step S42 that the connection state is established, the system control unit 210 receives the reception side information stored in the reception side information memory 113 of the TV 10 through the low-speed bus (DDC) 31L, in this example, EDID. And the EDID, which is binary data, is analyzed to recognize information such as the horizontal synchronization frequency, vertical synchronization frequency, and video resolution that can be displayed on the display 101 of the TV 10 (step S43).

  Next, the system control unit 210 sends data of a list of photographed image files stored in the memory 208 to the TV 10 through the CEC line 31C of the HDMI cable 31 (step S44).

  Then, the system control unit 210 waits to transmit all the data of the list list (step S45), and when determining that all of the data of the list list has been transmitted, whether the contents of the list list have been updated or not. (Step S46), and when it is determined that the list has been updated, the process returns to Step S44, and the updated list data is transmitted to the TV 10, and the processes after Step S44 are repeated.

  If it is determined in step S46 that the contents of the list are not updated, the system control unit 210 determines the connection status with the TV 10 through the HDMI interface based on the acquisition of the connection status information through the HPD. Is determined (step S47), and if it is determined that the connection state has not been released, the process returns to step S46, and monitoring of whether the list has been updated is continued. If it is determined in step S47 that the connected state has been released, the system control unit 210 ends this processing routine.

[TV 10 list reception process]
FIG. 14 shows an example of a list list data reception process in the TV 10 after the CAM 21 or DSC 22 is connected to the TV 10 through the HDMI interface (HDMI cable) until the connection state is released. Each processing step in the flowchart of FIG. 14 is executed by the system control unit 110 of the TV 10. In this example, the HDMI terminal connected to the HDMI receiving unit 103 is referred to as an HDMI terminal T1, and the HDMI terminal connected to the HDMI receiving unit 104 is referred to as an HDMI terminal T2.

  First, the system control unit 110 determines whether or not a transmission processing apparatus is newly connected to any one of the plurality of HDMI terminals through the HDMI cable by monitoring the HPD of each HDMI cable (step). S51). In the process of step S51, for example, the system control unit 110 first determines whether or not the transmission processing apparatus is connected to the HDMI terminal T1 through the HDMI cable, and if it is determined that the transmission processing apparatus is not connected, the system control unit 110 continues to the HDMI terminal T2. It is possible to sequentially search all the HDMI terminals by determining whether or not the transmission processing apparatus is connected through the HDMI cable.

  As described above, in step S51, it may be possible to search sequentially for all the HDMI terminals of the TV 10, but for the HDMI terminal to which the transmission processing apparatus is already connected through the HDMI cable, the search is skipped. Of course it is good.

  When it is determined in step S51 that there is no transmission processing apparatus newly connected to the HDMI terminal, the system control unit 110 determines whether there is an HDMI terminal already connected (step S52). ). If it is determined that there is no connected HDMI terminal, the system control unit 110 returns to step S51 and waits for the transmission processing device to be connected to one of the plurality of HDMI terminals T1 and T2. .

  If it is determined in step S51 that the transmission processing device is newly connected to any HDMI terminal, the system control unit 110 recognizes the HDMI terminal to which the transmission processing device is connected and holds the recognition information. (Step S53).

  Then, the system control unit 110 reads the EDID information from the reception side information memory 113 and sends the EDID information to the transmission processing device through the low-speed bus (DDC) of the HDMI cable (step S54).

  When the CAM 21 or DSC 22 is connected as a transmission processing device through an HDMI cable, as described above, the data of the list of photographed image files is sent from the transmission processing device through the CEC line. Therefore, the system control unit 110 proceeds to step S55 after step S54, and determines whether or not the list data is sent through the CEC line of the newly connected HDMI cable.

  In step S55, for example, the list list within a predetermined time (when the transmission processing apparatus is a CAM or DSC, the time when the list list data will be transmitted after connection is added). When the system control unit 110 determines that the received data is received via the CEC line, the system control unit 110 corresponds the received data of the list to the transmission terminal identification information or HDMI terminal identification information such as the HDMI terminal number. Then, it is stored in the list list memory 114 (step S56). Thereafter, the system control unit 110 proceeds to step S57.

  If the transmission processing apparatus connected to the HDMI terminal is not an image capturing device such as a CAM or DSC, and if it is determined in step S55 that the list data through the CEC line has not been received, step S56 is performed. Without jumping to step S57.

  In step S57, the system control unit 110 determines whether or not the transmission processing apparatus connected to the currently connected HDMI terminal is disconnected by monitoring the HPD. If it is determined in step S57 that the transmission processing apparatus is still connected to the HDMI terminal being connected, the system control unit 110 returns to step S51 and repeats the processes in and after step S51.

  If it is determined in step S57 that the connection of the transmission processing device with respect to the currently connected HDMI terminal is disconnected, the disconnected HDMI terminal is recognized (step S58), and the corresponding list is displayed in the list list memory 114. (Step S59).

  When it is determined in step S59 that the corresponding list is stored in the list list memory 114, the system control unit 110 uses the list list data from the transmission processing apparatus disconnected as a list list. It deletes from the memory 114 (step S60). Thereafter, the system control unit 110 performs processing at the time of disconnection of the connection for the HDMI terminal (step S61), and returns to step S51.

  Further, as described above, a transmission processing apparatus such as a connected CAM or DSC is configured to send the updated list through the CEC line every time the list is updated. Therefore, in this example, when the system control unit 110 determines in step S52 that there is an HDMI terminal to which the transmission processing apparatus is connected, the system control unit 110 proceeds to step S62 and transmits it through the CEC line of the connected HDMI cable. It is determined whether or not the received list data has been received.

  When it is determined in step S62 that the list list data has been received, the system control unit 110 connects to the HDMI terminal that has received the list list stored in the memory 114 based on the received list list data. The data of the list corresponding to the transmitted processing apparatus is updated (step S63). Then, the system control unit 110 proceeds to step S57 after step S63. Also, when it is determined in step S62 that the list data has not been received, the system control unit 110 jumps from step S62 to step S57. Then, the processes after step S57 described above are repeated.

  With the above processing operation, when a CAM or DSC is connected to the HDMI terminal of the TV 10, data of a list of photographed image files of the CAM or DSC is sent in advance to the TV 10 through the CEC line, and the list list memory 114. Is stored. In addition, when the photographed image file is updated by the CAM or DSC, the data of the list is also updated, so that the latest list list data of the latest photographed image file of the connected CAM or DSC is always present. It is stored in the list list memory 114.

  Next, some examples of processing in the TV 10 using list list data stored in the list list memory 114 will be described.

[Processing of User Operation Input (Remote Control Input) on TV 10]
15, 16, and 17 are diagrams for explaining an example of processing operations in the TV 10 when a command is input to the TV 10 from the remote control transmitter 112 for a captured image recording device such as CAM or DSC. It is a flowchart. Also in this case, each step is executed by the system control unit 110 in the same manner as described above.

  First, the system control unit 110 determines whether, for example, a button operation related to reproduction of a captured image has been performed in the remote control transmitter 112 (step S71). Here, the button operation related to the reproduction of the captured image includes not only a reproduction instruction operation specifying a specific captured image file but also a slide show instruction operation. If it is determined in step S71 that no button operation related to reproduction of the captured image is performed, the system control unit 110 performs other processing (step S72).

  If it is determined in step S71 that a button operation related to reproduction of a captured image has been performed, the system control unit 110 is a transmission processing apparatus connected to the HDMI terminal at that time, and transmits from the CAM or DSC. The display information of the collective list that enables listing of all the list lists that have been generated is generated, and the collective list is displayed on the screen of the display 101 (step S73).

  In this example, the collective list is, as shown in FIG. 8 described above, for photographed image files corresponding to identification information (or HDMI terminal identification information such as HDMI terminal number) connected to each HDMI terminal. It is composed of information on the shooting and recording time.

  Next, the system control unit 110 determines whether or not an instruction to select a reproduction mode of a specific captured image file for a specific transmission processing device of either CAM or DSC has been given through the remote control transmitter 112 (step S74). ).

  When it is determined in step S74 that an instruction to select a reproduction mode of a specific captured image file for a specific transmission processing device of either CAM or DSC has been made, the system control unit 110 performs a plurality of batch list lists. The designation of a specific one of the photographed image files is accepted (step S75). At this time, for the captured image file selected from the batch list, the system control unit 110 identifies an identifier (or HDMI terminal) of a transmission processing device such as CAM or DSC in which the selected captured image file is recorded on a recording medium. And a file identifier such as a file number.

  As can be seen from the above, the selection of the photographic image file such as CAM and DSC is not necessary for the designation of the photographic image file at this time, and only the selection operation of the photographic image file is sufficient.

  Next, the system control unit 110 recognizes the HDMI terminal to which the transmission processing apparatus that stores the designated captured image file in the recording medium is connected, and the CEC line of the HDMI cable connected to the HDMI terminal. Then, a reproduction request for the photographed image file designated in step S75 is sent (step S76).

  The transmission processing device comprising a CAM or DSC that has received this reproduction request reads out the image data of the photographed image file requested for reproduction from the recording medium, decodes it, and transmits it to the TV 10 through the high-speed bus of the HDMI cable.

  Therefore, the system control unit 110 of the TV 10 receives the image data sent through the high-speed bus, and controls the display 101 to perform processing for displaying the reproduced image (step S77).

  Next, the system control unit 110 determines whether or not the reproduction mode of the specific captured image file for the specific transmission processing device of either CAM or DSC has been changed to another function mode (step S78). If it is determined that it has not been changed, the process returns to step S75 to accept designation of a photographed image file to be reproduced next, and the processes after step S75 are repeated.

  When it is determined in step S78 that the mode has been changed to another mode, or in step S74, a specific captured image file reproduction mode for a specific transmission processing device of either CAM or DSC is not selected. When it is determined that the slide show has been selected, the system control unit 110 determines whether or not a slide show has been selected (step S81 in FIG. 16). When it is determined that the slide show is not a slide show, the system control unit 110 proceeds to other processing (step S82).

  Here, in the slide show of this embodiment, the reproduction is executed sequentially for a fixed time in order of the photographing time regardless of whether the photographed image file is in CAM or DSC.

  When it is determined in step S81 that the slide show has been selected, the system control unit 110 displays an inquiry as to whether the photographed image files to be subjected to the slide show are all in the batch list or only the photographed image files to be selected. Is performed on the display 101 (step S83).

  In response to the user's reply operation to this inquiry, the system control unit 110 determines whether or not the shot image files to be subjected to the slide show are all in the batch list (step S84), and determines that they are all. In some cases, a command indicating that all photographed image files in the list are selected for reproduction is transmitted to each of the transmission processing devices (captured image recorders) such as CAM and DSC connected to the HDMI terminal. And transmitted through the CEC line (step S85). At this time, the system control unit 110 recognizes the batch list as a playlist of the slide show on the TV side.

  In response to this command, the CAM or DSC recognizes that all photographed image files in the list of its own device are to be reproduced, and waits for the next command to arrive.

  Next, the system control unit 110 waits for a slide show start instruction operation from the user through the remote control transmitter 112 (step S86), and when it is determined that there is a slide show start instruction operation, the slide show in order of shooting time according to this embodiment. Is executed (step S87). The details of the slide show processing in step S87 will be described in detail later.

  Also, by the user's reply operation to the inquiry in step S83, it is determined in step S84 that the photographed image file to be the slide show is not all of the batch list but only the photographed image file selected by the user. In this example, in this example, the system control unit 110 first receives a selection designation for a transmission processing apparatus to be a slide show target (step S88). In the selection designation of the transmission processing device to be the target of the slide show in step S88, not only the selection designation of one transmission processing device but also the selection designation of a plurality of transmission processing devices and all transmission processing devices connected to the HDMI terminal. It is configured so that selection can be specified.

  When the reception of the selection designation of the transmission processing device to be the target of the slide show in step S88 is completed, the system control unit 110 performs the list list for the first transmission processing device selected and designated through the CEC line. A command for requesting a thumbnail image for each of the photographed image files is sent (step S91 in FIG. 17).

  In response to this request, the transmission processing apparatus sends thumbnail images for each of the photographed image files in the list through the high-speed bus of the HDMI cable. Therefore, the system control unit 110 receives the thumbnail image through the HDMI receiving unit 103 or 104 and controls the display unit 101 to display the thumbnail image through the switching unit 105, the display signal generation unit 106, and the display control unit 107 (step S92). .

  At this time, on the display screen of the display 101, when the transmission processing device is the CAM 21, as shown in FIG. 18A, the top of the captured image files “Movie 1”, “Movie 2”, and “Movie 3” of the moving image are displayed. When the transmission processing apparatus is the DSC 22, as shown in FIG. 18B, the still image shot image files “Still 1”, “Still 2”, “Still 3” are displayed. ..., “Still 8” thumbnail images are displayed.

  Since the user selects and designates the captured image file to be the slide show while viewing the thumbnail images displayed on the display 101, the system control unit 110 allows the user of the captured image file to be the target of the slide show. The selection designation by is accepted (step S93).

  Next, the system control unit 110 transmits a selection designation command for the selected and designated captured image file to the corresponding transmission processing apparatus via the CEC line (step S94). As will be described later, a transmission processing apparatus such as a CAM or DSC that has received this selection command for selecting a captured image file generates and holds a slide show playlist.

  Then, the system control unit 110 determines whether or not selection of a captured image file to be a slide show for one transmission processing apparatus (one HDMI terminal) has been completed based on a user's input operation. If it is determined that the selection designation has not ended (step S95), the process returns to step S93 to accept selection designation for the next photographed image file.

  If it is determined in step S95 that selection of a shot image file to be a slide show target for one transmission processing device (one HDMI terminal) has been completed, the target transmission processing device for the TV 10 is used. Playlists (CAM playlists and DSC playlists to be described later) are created, and the created playlists are stored in the list list memory 114 in association with the identifiers of the transmission processing device or the HDMI terminal (step S96). ).

  Next, the system control unit 110 determines whether there is another target device (the device selected and specified in step S88) connected to the HDMI terminal (step S97). The control unit 110 returns to step S91 and sends a command requesting a thumbnail image for each of the photographed image files in the list to the target device through the CEC line. Then, the processing after step S91 described above is performed, and selection designation by the user of the photographic image file to be the slide show is received from the photographic image files stored in the recording medium of the target device, and the target The device is made to create a playlist, and a playlist for the target device is also created and held on the TV 10 side.

  Then, the above processing is performed for all the target devices connected to the HDMI terminal, and when it is determined in step S97 that all the processing for the target device connected to the HDMI terminal is completed, the system control unit 110 Then, after waiting for a slide show start instruction from the user through the remote control transmitter 112 (step S86 in FIG. 16), when it is determined that the slide show start instruction has been issued, the slide show processing operation is started (step S87). ).

[Slideshow processing operation (TV 10 side)]
19 to 24 show examples of flowcharts of processing operations in the TV 10 when a slide show is executed. The processing of this flowchart is also executed by the system control unit 110. In FIG. 19 to FIG. 24, the CAM is connected to the HDMI terminal T1, the DSC is connected to the HDMI terminal T2, and the captured image files recorded on the respective recording media 203 are stored in the above-described playlist. Based on the recording time, the slide show is executed.

  Whether the device connected to the HDMI terminals T1 and T2 is a CAM or a DSC, for example, time information of a list sent from a transmission processing device has a configuration of a start time to an end time. In this case, it is recognized as CAM, and when the time information in the list is only the recording time, it can be recognized as DSC.

  When a slide show start operation is performed, the system control unit 110 in this example, the playlist for CAM stored in the memory 114 (if the playlist is a batch list, the list list portion for CAM). Is recognized as time X (time X is the photographic recording time in CAM) (step S101 in FIG. 19).

  Next, the system control unit 110 transmits a command requesting image data of the first frame of the first captured image file of the playlist to the CAM through the CEC line (step S102). Here, this command does not require an identifier for specifying a captured image file, and is simply a command for requesting image data of the first frame of the first captured image file in a slide show playlist generated in the CAM. Good.

  For this command transmission, since the first frame of image data of the first captured image file in the slide show playlist is sent from the CAM via the high-speed bus, the system control unit 110 transmits this image data. , Received through the HDMI receiving unit 103 or 104, and controlled to display a pause (display as a still image) on the left half of the screen 101D of the display 101 through the switching unit 105, the display signal generation unit 106, and the display control unit 107 (step S1). S103).

  Next, in this example, the system control unit 110 uses the first captured image file of the DSC playlist stored in the memory 114 (or the list list portion of the DSC if the playlist is a batch list). Is recognized as time Y (time Y is shooting recording time in DSC) (step S104).

  Next, the system control unit 110 transmits a command requesting still image data of the first captured image file of the playlist to the DSC through the CEC line (step S105). Here, this command does not require an identifier for specifying the captured image file, and may simply be a command for requesting still image data of the first captured image file of the slide show playlist generated in the DSC.

  In response to this command transmission, since the still image data of the first captured image file of the slide show playlist is sent from the DSC through the high-speed bus, the system control unit 110 transmits the image data to the HDMI. Control is performed so that still images are displayed on the right half of the screen 101D of the display 101 through the switching unit 105, the display signal generation unit 106, and the display control unit 107 (step S106). A display example on the screen 101D at this time is shown in FIG.

  Next, the system control unit 110 compares the time X and the time Y, and determines whether or not the time X is earlier than the time Y (step S107). When it is determined in step S107 that the time Y is before the time X, the system control unit 110 determines whether or not an unreproduced target file remains in the DSC playlist. If it is determined (step S111 in FIG. 20) and it is determined that it remains, the recording time of the next photographed image file in the DSC playlist on the TV 10 side is recognized as time Y (step S112).

  Next, the system control unit 110 transmits a command requesting still image data of the next captured image file of the playlist included in the DSC to the DSC through the CEC line (step S113). Here, this command does not require an identifier for specifying a captured image file, and may simply be a command for requesting still image data of a captured image file next to a slide show playlist generated in the DSC.

  In response to this command transmission, since the still image data of the next captured image file in the slide show playlist is transmitted from the DSC through the high-speed bus, the system control unit 110 transmits the image data to the HDMI. Control is performed so that a still image is displayed on the right half of the screen 101D of the display 101 and the display image is updated through the switching unit 105, the display signal generation unit 106, and the display control unit 107 (Step S104). S114).

  Next, the system control unit 110 compares the time X and the time Y, and determines whether or not the time X is earlier than the time Y (step S115). If it is determined in step S115 that the time Y is earlier than X, the system control unit 110 returns to step S111 and repeats the processing from step S111 onward.

  When it is determined in step S115 that the time X is earlier than the time Y, or when it is determined in step S107 that the time X is earlier than the time Y, the system control is performed. The unit 110 transmits, via the CEC line, a command for requesting pause of the image being played back to the DSC, and a command for canceling pause and requesting playback of the moving image to the CAM (step S121 in FIG. 21). ).

  In response to these command requests, since the same imaged image data is sent from the DSC through the high-speed bus, it is continuously displayed (still image display) on the right half of the display screen 101D of the display 101, and The image data for reproducing the image in the pause state and displaying the moving image is sent from the CAM through the high-speed bus, and accordingly, the moving image is reproduced and displayed on the left half of the display screen 101D of the display 101. (Step S122).

  Next, the system control unit 110 determines whether or not a predetermined time has elapsed from the time point when the CAM is instructed to play a moving image (step S123). If it is determined in step S123 that a certain time has elapsed, the time of the reproduced image scene (frame) from the CAM at that time is acquired as time X (step S124).

  Then, the system control unit 110 compares the time X and the time Y, and determines whether or not the time X is earlier than the time Y (step S125). If it is determined in step S125 that X is earlier than time Y, the system control unit 110 returns to step S122, and the right side of the screen of the display 101 has the same still image from the DSC. The image is continuously displayed, and on the left side, the moving image of the same captured image file from the CAM is continuously reproduced. And the process after this step S122 is repeated.

  If it is determined in step S125 that the time Y is earlier than the time X, the system control unit 110 sets the recording time of the next captured image file in the DSC playlist on the TV 10 side to the time Y. (Step S126).

  Next, the system control unit 110 transmits a command requesting still image data of the next photographed image file of the playlist included in the DSC to the DSC through the CEC line (step S127). Here, this command does not require an identifier for specifying a captured image file, and may simply be a command for requesting still image data of a captured image file next to a slide show playlist generated in the DSC.

  In response to this command transmission, since the still image data of the next captured image file in the slide show playlist is transmitted from the DSC through the high-speed bus, the system control unit 110 transmits the image data to the HDMI. Control is performed so that a still image is displayed on the right half of the screen 101D of the display 101 and the display image is updated through the switching unit 105, the display signal generation unit 106, and the display control unit 107 (Step S104). S128).

  After step S128, the system control unit 110 returns to step S125, and repeats the processing after step S125 described above.

  If it is determined in step S123 that the predetermined time has not elapsed since the reproduction request to the CAM, the system control unit 110 determines whether or not the image reproduction of the captured image file requested to be reproduced to the CAM has ended (step S129). ). This determination can be made by comparing the shooting / recording end time in the TV-side play list with the time of the playback frame, or by detecting the absence of image data from the CAM.

  If it is determined in step S129 that the image reproduction of the captured image file has not ended, the system control unit 110 returns to step S122 and continues the moving image reproduction on the left half of the screen 101D of the display 101. And the process after this step S122 is repeated.

  When it is determined in step S129 that the image reproduction of the captured image file has been completed, the system control unit 110 determines whether or not a slide show target file remains in the CAM playlist on the TV 10 side ( Step S131 in FIG.

  When it is determined in step S131 that the target file remains in the CAM, the system control unit 110 sets the recording start time of the first frame of the next photographed image file from the playlist for the CAM on the TV side. Recognized as X (step S132).

  Next, the system control unit 110 transmits a command requesting image data of the first frame of the next photographed image file in the playlist to the CAM through the CEC line (step S133). Here, this command does not require an identifier for specifying a shot image file, and is simply a command for requesting image data of the first frame of the next shot image file in the slide show playlist generated in the CAM. Good.

  In response to this command transmission, the image data of the first frame of the next captured image file in the slide show playlist is sent from the CAM through the high-speed bus, and the system control unit 110 receives this image data. , Received through the HDMI receiving unit 103 or 104, and controlled to display a pause (display as a still image) on the left half of the screen 101D of the display 101 through the switching unit 105, the display signal generation unit 106, and the display control unit 107 (step S1). S134).

  Then, after step S134, the process proceeds to step S125 in FIG. 21, and the processing after step S125 described above is repeated.

  When it is determined in step S131 that no target file remains in the CAM, the system control unit 110 determines whether or not the target file remains in the DSC (step S135), and determines that no target file remains. In some cases, the system control unit 110 ends the slide show processing routine.

  In step S135, when it is determined that the target file remains in the DSC, the system control unit 110 requests the still image data of the next photographed image file of the playlist included in the DSC through the CEC line. A command to be transmitted is transmitted (step S136). Here, this command does not require an identifier for specifying a captured image file, and may simply be a command for requesting still image data of a captured image file next to a slide show playlist generated in the DSC.

  In response to this command transmission, since the still image data of the next captured image file in the slide show playlist is transmitted from the DSC through the high-speed bus, the system control unit 110 transmits the image data to the HDMI. Control is performed so that a still image is displayed on the right half of the screen 101D of the display 101 and the display image is updated through the switching unit 105, the display signal generation unit 106, and the display control unit 107 (Step S104). S137).

  When the still image of the photographed image file is displayed for a predetermined time in step S137, the system control unit 110 returns to step S135 and continues from step S135 to step S135 until the end of the target file of the DSC playlist. The process of S137 is repeated.

  When it is determined in step S111 in FIG. 20 that the target file does not remain in the DSC, the system control unit 110 sends a pause request command for the image being played to the CAM via the CEC line. Transmits a command for canceling the pause and requesting the reproduction of the moving image (step S141 in FIG. 23).

  In response to these command requests, since the same imaged image data is sent from the DSC through the high-speed bus, it is continuously displayed (still image display) on the right half of the display screen 101D of the display 101, and The image data for reproducing the image in the pause state and displaying the moving image is sent from the CAM through the high-speed bus, and accordingly, the moving image is reproduced and displayed on the left half of the display screen 101D of the display 101. (Step S142).

  Next, the system control unit 110 determines whether or not a predetermined time has elapsed from the time point when the CAM is instructed to play a moving image (step S143). If it is determined in step S143 that a predetermined time has not elapsed since the reproduction request to the CAM, the system control unit 110 determines whether or not the image reproduction of the captured image file requested to be reproduced to the CAM has ended (step S143). S144).

  If it is determined in step S144 that the image reproduction of the captured image file has not ended, the system control unit 110 returns to step S142 and continues the moving image reproduction on the left half of the screen 101D of the display 101. And the process after this step S142 is repeated.

  When it is determined in step S144 that the image reproduction of the captured image file has been completed, the system control unit 110 determines whether or not a slide show target file remains in the CAM playlist on the TV 10 side (step S144). Step S145).

  If it is determined in step S145 that no target file remains in the CAM, the system control unit 110 ends this processing routine.

  If it is determined in step S145 that the target file remains in the CAM, the system control unit 110 issues a playback request command requesting the CAM to request image data of the next photographed image file in the playlist through the CEC line. Transmit (step S146). Here, this command does not require an identifier for specifying the captured image file, and may simply be a command for requesting reproduction of image data of the next captured image file in the slide show playlist generated in the CAM.

  In response to this command transmission, the image data of the next captured image file in the slide show playlist is sent from the CAM via the high-speed bus, so the system control unit 110 sends the image data to the HDMI receiving unit. Control is performed so that a moving image is displayed on the left half of the screen 101D of the display 101 through the switching unit 105, the display signal generation unit 106, and the display control unit 107 (step S147).

  After step S147, the process returns to step S143, and the processes after step S143 are repeated.

  If it is determined in step S143 that a certain time has elapsed, the time of the reproduced image scene (frame) from the CAM at that time is acquired as time X (step S148).

  Then, the system control unit 110 compares the time X and the time Y, and determines whether or not the time X is earlier than the time Y (step S149). If it is determined in step S149 that X is earlier than time Y, the system control unit 110 returns to step S142, and the right side of the screen of the display 101 has the same stationary from the DSC. The image is continuously displayed, and on the left side, the moving image of the same photographed image file from the CAM is continuously reproduced. And the process after this step S142 is repeated.

  If it is determined in step S149 that time Y is earlier than time X, system control unit 110 transmits a playback stop request command to the DSC through the CEC line (step S150). Therefore, thereafter, no image is displayed on the right side of the screen 101D of the display 101.

  Next, the system control unit 110 waits for the end of the image playback of the captured image file requested to be played back to the CAM (step S151 in FIG. 24), and when determining that the image playback of the captured image file has ended, It is determined whether or not a slide show target file remains in the playlist for CAM on the TV 10 side (step S152).

  If it is determined in step S152 that no target file remains in the CAM, the system control unit 110 ends this processing routine.

  If it is determined in step S152 that the target file remains in the CAM, the system control unit 110 issues a playback request command requesting the CAM to request image data of the next photographed image file in the playlist through the CEC line. Transmit (step S153). Here, this command does not require an identifier for specifying the captured image file, and may simply be a command for requesting reproduction of image data of the next captured image file in the slide show playlist generated in the CAM.

  In response to this command transmission, the image data of the next captured image file in the slide show playlist is sent from the CAM via the high-speed bus, so the system control unit 110 sends the image data to the HDMI receiving unit. Control is performed so that a moving image is displayed on the left half of the screen 101D of the display 101 through the switching unit 105, the display signal generation unit 106, and the display control unit 107 (step S154).

  After step S154, the process returns to step S151, and the processes after step S151 are repeated.

[Processing operation during slide show in CAM or DSC]
FIG. 26 shows an example of a flowchart for explaining the processing operation of the CAM or DSC corresponding to the processing operation of the TV 10 in the slide show described above. The processing of each step in this flowchart is executed by the system control unit 210 shown in FIG.

  First, the system control unit 210 determines whether or not a thumbnail request command has been received from the TV 10 through the CEC line (step S161). If it is determined that the thumbnail request command has not been received, the system control unit 210 proceeds to other processing (step S162).

  If it is determined in step S161 that a thumbnail request command has been received through the CEC line, the system control unit 210 transmits a thumbnail image for each of the captured image files in the list of its own device through the high-speed bus of the HDMI cable. It transmits to TV10 (step S163).

  Next, the system control unit 210 determines whether or not a captured image file selection command has been received (step S164), and when determining that a selection command has been received, the captured image specified by the captured image file selection command is determined. The file is added to the playlist and stored in the memory 208 (step S165). Then, the system control unit 210 sorts the photographed image files of the generated playlist in order of photographing time from the oldest (Step S166).

  Next, the system control unit 210 determines whether or not a playback start command (corresponding to a slide show start command) for the first captured image file in the playlist has been received from the TV 10 (step S167). The process returns to step S164 to wait for reception of the next captured image file selection command. If it is determined in step S164 that the command for selecting a captured image file is not received, the system control unit 210 jumps to step S167 and monitors the playback start command for the first captured image file in the playlist from the TV 10. .

  Note that, here, a case has been described where a command for sequentially selecting captured image files is received, but as described above, all captured image files in the list may be subject to a slide show. In that case, a playlist having the same contents as the list is generated, or the list is set to be used as a playlist. Of course, this list is also sorted in order of photographing time.

  If it is determined in step S167 that the playback start command for the first captured image file in the playlist has been received from the TV 10, the system control unit 210 reads the image data of the first captured image file in the playlist from the recording medium. The decoded image data is transmitted to the TV 10 through the high-speed bus of the HDMI cable (step S168).

  Next, the system control unit 210 determines whether or not a playback start command for the next captured image file in the playlist has been received via the CEC line (step S169). The image data of the next photographed image file in the playlist is read from the recording medium and decoded, and the decoded image data is transmitted to the TV 10 through the high-speed bus of the HDMI cable (step S170).

  Then, the system control unit 210 determines whether or not all of the photographed image files in the playlist have been reproduced (step S171). If there is a photographed image file that has not been reproduced yet, the system control unit 210 returns to step S169, and after this step S169. Repeat the process. If it is determined in step S171 that all captured image files have been reproduced, this processing routine is terminated.

  Also, when it is determined in step S169 that the playback start command for the next photographed image file in the playlist has not been received through the CEC line, the system control unit 210 proceeds to step S171 and takes the photographed image file in the playlist. It is determined whether or not all of the photographed image files have been reproduced. If there is a photographed image file that has not yet been reproduced, the process returns to step S169 to repeat the processing after step S169, and all photographed image files are reproduced in step S171. If it is determined that the processing has been performed, the processing routine is terminated.

[Example of playback image order of slide show in order of shooting time]
FIG. 27 shows a case where the list of photographed image files of CAM and DSC is as shown in FIG. 6 and FIG. 7, and the images of each file are displayed as “Movie i” ( i = 1, 2, 3) and “Still j” of DSC (j = 1, 2,..., 8), when the target file of the slide show is all photographed image files. FIG. 4 is a diagram for explaining the playback order of a CAM moving image and a DSC still image. In the following description, the time point relates to the shooting recording time based on the shot image file.

  In the case of this example, as shown in FIG. 27, when the slide show is started, the image “Still 1” of the first captured image file 1 of the DSC is displayed on the right half of the screen 101D and the left half of the screen. The still image of the first frame of the first captured image file “Movie 1” of CAM is displayed.

  The recording time of the image “Still 1” of the first captured image file 1 of the DSC is the oldest time “9:58”, while the first captured image file “Movie 1” of the CAM is “10:00”. -10: 03 ”, and in the left half of the screen, the still image of the first frame of the first CAM image file“ Movie 1 ”is paused (paused), It continues until “10:00”. At time “10:00”, the reproduction of the movie “Movie 1” of the first captured image file 1 of the CAM on the left half of the screen starts.

  At time “10:02”, the image “Still 2” of the second captured image file 2 of the DSC is displayed on the right half of the screen. In the left half, the moving image “Movie 1” of the first captured image file 1 of CAM is continuously reproduced and displayed.

  At the time “10:03”, when the reproduction of the movie “Movie 1” of the first captured image file 1 of the CAM is finished, the recording / recording start time X (of the movie “Movie 2” of the second captured image file 2 of the CAM is completed. “10:05”) is compared with the recording time Y (“10:02”) of the image “Still 2” of the second captured image file 2 of DSC, and X is later in time. Therefore, the image on the right half of the screen is updated to the image “Still 3” of the third captured image file 3 of the DSC. Then, the shooting recording time “10:13” of the image “Still 3” of the third shot image file 3 of DSC is set as the time Y, and the moving image “Movie 2” of the second shot image file 2 of CAM is again displayed. Is compared with the recording / recording start time X (“10:05”).

  Then, since the time Y is later in time, the moving image reproduction of the moving image “Movie 2” of the second captured image file 2 of the CAM is started in the left half of the screen. In this example, when 5 minutes have elapsed and the time “10:05” is reached, the time X (this is the shooting recording time of the frame at that time, that is, “10:05” in this case) and the time Y are again displayed. They are compared (steps S123 to 125 described above).

  In the case of this example, since the time X is still earlier, in the left half of the screen, the video playback of the video “Movie 2” of the second captured image file 2 of the CAM is continued, and the right side of the screen In half, the image “Still 3” of the third captured image file 3 of the DSC continues to be displayed.

  Next, at the time “10:17”, when the moving image playback of the movie “Movie 2” of the second captured image file 2 of the CAM ends, the movie “Movie 3” of the third captured image file 3 of the CAM ends. Is compared with the recording / recording time Y (“10:13”) of the image “Still 3” of the third captured image file 3 of the DSC being played back. . Then, since X is later in time, the image on the right half of the screen is updated to the image “Still 4” of the fourth captured image file 3 of the DSC.

  Then, the shooting recording time “10:18” of the image “Still 4” of the fourth shot image file 4 of DSC is set as the time Y, and the moving image “Movie 3” of the third shot image file 3 of CAM is again obtained. Is compared with the recording / recording start time X (“10:20”).

  Then, since time X is later in time, in the left half of the screen, a still image in a paused state is reproduced and displayed by the first frame of the movie “Movie 3” of the third captured image file 3 of CAM. Is done.

  At the time “10:19”, the third captured image file 3 of the CAM is larger than the recording time Y (“10:19”) of the image “Still 5” of the fifth captured image file 5 of the DSC. Since the shooting recording start time X (“10:20”) of the movie “Movie 3” is later, the image on the right half of the screen is the image “Still 5” of the fifth shot image file 5 of DSC. Updated to

  At time “10:20”, in the left half of the screen, video playback of the video “Movie 3” of the third captured image file 3 of the CAM that has been paused is started, and time “10:23” is started. The video playback ends.

  At time “10:22”, the right half of the screen is updated to the playback state of the image “Still 6” of the sixth captured image file 6 of the DSC. At time “10:24”, the right half of the screen is updated to the playback state of the image “Still 7” of the seventh captured image file 7 of the DSC. Furthermore, at time “10:25”, the playback state of the image “Still 8” of the eighth captured image file 8 of the DSC is updated in the right half of the screen.

  As shown in FIG. 27, in this example, after all the images of the three captured image files of CAM have been reproduced, nothing is displayed in the left half, for example, in a blue background state. This is the end of the slide show.

  As described above, in this embodiment, a slide show in which still images and moving images recorded by two photographed image recording devices are sequentially reproduced along the time axis in the order of photographing recording time based on the batch list. Can be realized.

[Other Embodiments or Modifications]
In the above-described embodiment, since a CAM moving image and a DSC still image are displayed on one screen of the display, simultaneous display is performed as a two-screen display in which one screen of the display is divided into left and right. However, for example, when a slide show is performed along the time axis in the order of shooting recording time on one screen for still images of a plurality of DSCs, the still images of a plurality of DSCs are switched and displayed sequentially. It may be.

  As a function using the batch list, in the above-described embodiment, the case of instructing playback of a specific captured image file and the case of a slide show in the order along the time axis have been described. A reverse slide show can be performed, and a slide show in a random order is also possible.

  In the above-described embodiment, the transmission processing apparatus is described as a captured image recording apparatus. However, the transmission processing apparatus may be, for example, an audio recording or reproducing apparatus that records a music file on a recording medium. It may be a device that sends out other content, for example, an image file such as a stored picture. In particular, when the transmission processing device is an audio recording or playback device, special playback such as random playback is performed for a plurality of music files existing on recording media of a plurality of audio recording or playback devices. Can do.

  In the above-described embodiment, the connection interface is an HDMI interface. However, in addition to the high-speed bus and / or the low-speed bus, control signal transmission lines and buses are provided, and data that can be sent by the high-speed bus The present invention can be applied to any connection interface defined in the standard so that only predetermined data such as image data and audio data can be sent.

1 is a block diagram of an embodiment of a reception processing device according to the present invention. FIG. It is a block diagram of one Embodiment of the transmission processing apparatus by this invention. It is a figure for demonstrating the HDMI interface as an example of the connection interface used by embodiment of this invention. It is a figure for demonstrating the HDMI interface as an example of the connection interface used by embodiment of this invention. It is a block diagram which shows the structural example of the signal transmission / reception system by this invention. It is a figure which shows an example of the list with which embodiment of the transmission processing apparatus by this invention is provided. It is a figure which shows another example of the list list with which embodiment of the transmission processing apparatus by this invention is provided. It is a figure which shows an example of the collective list which the embodiment of the reception processing apparatus by this invention produces | generates and hold | maintains. It is a figure which shows a part of flowchart for demonstrating the production | generation process of the list in the embodiment of the transmission processing apparatus by this invention. It is a figure which shows a part of flowchart for demonstrating the production | generation process of the list in the embodiment of the transmission processing apparatus by this invention. It is a figure which shows a part of flowchart for demonstrating the production | generation process of the list in the embodiment of the transmission processing apparatus by this invention. It is a figure which shows a part of flowchart for demonstrating the production | generation process of the list in the embodiment of the transmission processing apparatus by this invention. It is a figure which shows the flowchart for demonstrating the transmission process to the reception processing apparatus of the list in the embodiment of the transmission processing apparatus by this invention. It is a figure which shows the flowchart for demonstrating the reception process of the list in the embodiment of the reception processing apparatus by this invention. It is a figure which shows a part of flowchart for demonstrating the example of the processing operation using the batch list list in embodiment of the reception processing apparatus by this invention. It is a figure which shows a part of flowchart for demonstrating the example of the processing operation using the batch list list in embodiment of the reception processing apparatus by this invention. It is a figure which shows a part of flowchart for demonstrating the example of the processing operation using the batch list list in embodiment of the reception processing apparatus by this invention. It is a figure for demonstrating the example of the batch list list in embodiment of the reception processing apparatus by this invention. It is a figure which shows a part of flowchart for demonstrating the example of the processing operation using the batch list list in embodiment of the reception processing apparatus by this invention. It is a figure which shows a part of flowchart for demonstrating the example of the processing operation using the batch list list in embodiment of the reception processing apparatus by this invention. It is a figure which shows a part of flowchart for demonstrating the example of the processing operation using the batch list list in embodiment of the reception processing apparatus by this invention. It is a figure which shows a part of flowchart for demonstrating the example of the processing operation using the batch list list in embodiment of the reception processing apparatus by this invention. It is a figure which shows a part of flowchart for demonstrating the example of the processing operation using the batch list list in embodiment of the reception processing apparatus by this invention. It is a figure which shows a part of flowchart for demonstrating the example of the processing operation using the batch list list in embodiment of the reception processing apparatus by this invention. It is a figure which shows the example of the display screen for demonstrating the example of the processing operation using the batch list list in embodiment of the reception processing apparatus by this invention. It is a figure which shows the flowchart for demonstrating the example of the processing operation in embodiment of the transmission processing apparatus by this invention. It is a figure used in order to demonstrate an example of the processing operation in embodiment of the signal transmission / reception system by this invention.

Explanation of symbols

  10: reception processing device, 21, 22 ... transmission processing device, 31, 32 ... HDMI cable, 31H, 32H ... high speed bus, 31L, 32L ... low speed bus, 31C, 32C ... CEC line

Claims (13)

A transmission processing apparatus connected by a connection interface including at least a transmission path for transmitting at least image data and / or audio data and a transmission path for control signals, and transmitting at least the image data and / or audio data; In a signal transmission / reception system comprising a reception processing device comprising at least means for receiving and displaying and / or reproducing sound by receiving the image data and / or audio data,
The transmission processing device includes data of a list of files of the image data and / or audio data, and after being connected to the reception processing device via the connection interface, the transmission processing device includes the connection interface from the reception processing device. Before receiving a command for requesting the image data and / or audio data through a control signal transmission path, means for sending the list data to the reception processing device through the control signal transmission path; ,
The reception processing device includes a plurality of the connection interfaces, receives and stores data of the list from the transmission processing device connected to each of the connection interfaces through the plurality of connection interfaces, and From the list data from the plurality of transmission processing devices connected to the plurality of connection interfaces, the contents of the plurality of list lists of the plurality of transmission processing devices are reproduced as one screen. A signal transmission / reception system comprising means for generating and displaying a combined batch list. The signal transmission / reception system according to claim 1,
The transmission processing device sends data of the list to the reception processing device when connected to the reception processing device through the connection interface and when the contents of the list are changed. Signal transmission / reception system. The signal transmission / reception system according to claim 1,
The reception processing device is a file of the image data and / or audio data selected based on the re-synthesized batch list list for each of the transmission processing devices connected through the plurality of connection interfaces. A signal transmission / reception system comprising: means for transmitting a reproduction request command through a transmission path of the control signal. The signal transmission / reception system according to claim 1,
The reception processing device sends the plurality of transmission processing devices to the plurality of transmission processing devices in the order of the recording times of the files based on the batch list re-synthesized for the plurality of transmission processing devices connected through the plurality of connection interfaces. On the other hand, a signal transmission / reception system comprising means for transmitting a command for requesting reproduction of the file of the image data and / or audio data through a transmission path of the control signal. The signal transmission / reception system according to claim 1,
The signal transmission / reception system, wherein the connection interface is an HDMI standard connection interface. A transmission path for transmitting at least image data and / or audio data to a reception processing device comprising at least means for receiving and displaying and / or reproducing sound data at least image data and / or audio data; and a control signal A transmission processing device for transmitting the image data and / or the audio data by a connection interface including at least a transmission line,
The image data and / or audio data file list data is provided, and after being connected to the reception processing device via the connection interface, the control signal of the connection interface from the reception processing device is transmitted through the transmission path. Before receiving a command requesting the image data and / or audio data, the list data is sent to the reception processing device through a transmission path of the control signal. Processing equipment. The transmission processing device according to claim 6,
The transmission processing device, wherein the data of the list is sent to the reception processing device when connected to the reception processing device through the connection interface and when the contents of the list are changed. The transmission processing device according to claim 6,
The transmission processing apparatus, wherein the connection interface is an HDMI standard connection interface. A connection interface comprising at least a transmission path for transmitting at least image data and / or audio data and a transmission path for control signals, and is connected to a transmission processing device for sending at least the image data and / or audio data; A reception processing device comprising at least means for receiving and displaying and / or reproducing sound of the image data and / or audio data,
A plurality of the connection interfaces, through the plurality of connection interfaces, from each of the transmission processing devices connected to each of the connection interfaces, data of a list of files of the image data and / or audio data, Means for receiving and storing the control signal through a transmission path;
From the list data from the plurality of transmission processing devices connected to the plurality of connection interfaces, the contents of the plurality of list lists of the plurality of transmission processing devices are reproduced as one screen. Means for generating and displaying a combined batch list. The reception processing device according to claim 9, wherein
For each of the transmission processing devices connected through the plurality of connection interfaces, a command for requesting reproduction of the file of the image data and / or audio data selected based on the re-combined batch list. A reception processing apparatus comprising: means for transmitting the control signal through a transmission path. The reception processing device according to claim 9, wherein
The image data is transmitted to the plurality of transmission processing devices in the order of recording times of the files based on the batch list recombined for the plurality of transmission processing devices connected through the plurality of connection interfaces. And / or a means for transmitting a command for requesting reproduction of a file of audio data through each transmission path of the control signal. The reception processing device according to claim 9, wherein
The reception processing apparatus, wherein the connection interface is an HDMI standard connection interface. A transmission processing apparatus connected by a connection interface including at least a transmission path for transmitting at least image data and / or audio data and a transmission path for control signals, and transmitting at least the image data and / or audio data; A signal transmission / reception method in a signal transmission / reception system comprising a reception processing device comprising at least means for receiving and displaying and / or reproducing sound of the image data and / or audio data,
The transmission processing device includes:
The image data and / or audio data file list data is provided, and after being connected to the reception processing device by the connection interface, the connection signal from the reception processing device is transmitted through the control signal transmission path. Before receiving a command for requesting the image data and / or audio data, comprising sending the list data to the reception processing device through a transmission path of the control signal;
The reception processing device includes:
A plurality of the connection interfaces; receiving and storing the list data from the transmission processing device connected to each of the connection interfaces through the plurality of connection interfaces;
From the list data from the plurality of transmission processing devices connected to the plurality of connection interfaces, the contents of the plurality of list lists of the plurality of transmission processing devices are reproduced as one screen. A signal transmission / reception method comprising a step of generating and displaying a combined batch list.

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