JP2009055360A - Video transmitter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve transmission efficiency in transmitting video data through a plurality of kinds of transmission lines with different transmission rates. <P>SOLUTION: When an intercom master unit 1 transmits video data to intercom secondary master units 2A, 2B and 2C, for example, video data is transmitted by a standard pattern for a transmission line (a transmission line connected to the intercom secondary master unit 2A) Ls with the highest transmission rate, the video data is transmitted by a first thinning pattern for a transmission line (a transmission line connected to the intercom secondary master unit 2B) Ls with the second highest transmission rate and video data is transmitted by a second thinning pattern for a transmission line (a transmission line connected to a radio adapter 5 (the radio intercom secondary master unit 2C)) with the lowest transmission rate. An appropriate data amount of video data corresponding to the respective transmission lines Ls therefore can be transmitted, so that the transmission efficiency can be improved. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a video transmission device that transmits digital video data to a plurality of video reception devices.

2. Description of the Related Art Conventionally, interphone master units and the like in an interphone system have been provided as video transmission devices that transmit analog video signals to a plurality of video reception devices (see, for example, Patent Document 1). Such an interphone master unit (video transmitter) is connected via a transmission path at the same time as displaying a video signal received from a door phone slave installed outside the home on its own display device (liquid crystal display, etc.) In addition, it has a function of transmitting a video signal to an interphone sub-master device installed in the house.
JP 2004-295408 A

  By the way, when the video transmitting apparatus is connected to a plurality of video receiving apparatuses via a plurality of types of transmission paths having different transmission speeds, conventionally, only a low frame rate video matched to the transmission path having the slowest transmission speed is used. Even in a video receiving apparatus that cannot be transmitted and is connected to a transmission path having a high transmission speed, only low-quality video can be reproduced, resulting in a problem that transmission efficiency is significantly reduced.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a video transmission apparatus capable of improving the transmission efficiency when video data is transmitted through a plurality of types of transmission paths having different transmission speeds. It is to provide.

  In order to achieve the above object, the invention of claim 1 is connected to a plurality of video receiving devices via a plurality of types of transmission paths having different transmission speeds, and is connected to each video receiving device via the transmission paths. A video transmission apparatus for transmitting digital video data, comprising: a video compression unit that compresses video data of a moving image; a transmission unit that transmits the video data compressed by the video compression unit to the transmission path; Control means for controlling the transmission procedure of the video data to each transmission path, the video compression means generates a reference video frame that can be decompressed independently and a compensated video frame that compensates for the difference from the reference video frame, The control means includes a standard pattern for transmitting a predetermined number of compensated video frames between a plurality of reference video frames arranged at regular time intervals, and a standard video at regular intervals from the standard pattern. If there is a compensation video frame that has been thinned out without decimating the frame and the compensation video frame, either one of the thinning patterns is transmitted by rearranging the compensation video frame between the reference video frames at equal intervals. The video data is selected according to the transmission speed of the path and transmitted from the transmission means to the transmission path.

  According to the first aspect of the present invention, a standard pattern in which a predetermined number of compensated video frames are inserted and transmitted between a plurality of reference video frames arranged at regular time intervals, the standard video frames at regular intervals from the standard pattern, and If there is a compensation video frame that has been thinned out without being thinned out, the compensation video frame is rearranged between reference video frames at equal intervals and one of the thinning patterns is transmitted on the transmission path. Since the video data is selected according to the transmission speed and sent from the transmission means to the transmission path, video data having a data amount corresponding to the transmission speed of each transmission path can be transmitted. It is possible to improve the transmission efficiency when transmitting video data through different types of transmission paths.

  According to the present invention, there is an effect that it is possible to improve transmission efficiency when video data is transmitted through a plurality of types of transmission paths having different transmission speeds.

  DESCRIPTION OF EMBODIMENTS Hereinafter, an embodiment in which the technical idea of the present invention is applied to an intercom master used in an intercom system for a detached house will be described in detail with reference to the drawings. However, the video transmission apparatus to which the technical idea of the present invention can be applied is not limited to the interphone master unit. Also, in the following description, illustration and description of the configuration related to the telephone call (voice transmission) of the intercom system are omitted.

  First, the intercom system (video transmission system) in this embodiment will be described. As shown in FIG. 2, this intercom system includes a doorphone slave unit 100 installed at the exterior entrance of the dwelling unit H, an interphone master unit (video transmission device) 1 installed indoors in the dwelling unit H, and a transmission path (LAN cable). ) The router 3 connected to the interphone master unit 1 via Ls, the interphone sub-master unit 2A installed in the house and connected to the router 3 via the transmission path Ls, and the transmission path installed in the house The relay device 4 connected to the router 3 via Ls, the interphone sub-master 2B and the wireless adapter 5 installed in the house and connected to the relay device 4 via the transmission line Ls, and installed in the home A wireless intercom sub-master 2C communicating with the wireless adapter 5 and a home network including the router 3 connected to the router 3 via the transmission line Ls are connected to the wide area network (in Composed of the Internet connection device 6 for connection to Netto).

  The router 3 is a conventionally well-known one that complies with the LAN standard (IEEE 802.3) called Ethernet (registered trademark), and both 10BASE-T with a maximum communication speed of 10 Mbps and 100BASE-TX with a maximum communication speed of 100 Mbps. It corresponds to. The router 3 is provided with a plurality of ports (not shown), and a LAN cable (transmission path Ls) is connected to each port. The Internet connection device 6 includes a DSL modem, a cable modem, and an ONU (Optical Network Unit), and has a function of connecting the interphone master unit 1 and the interphone sub-master units 2A, 2B, and 2C to the Internet via the router 3. Yes. However, since this type of router 3 and Internet connection device 6 are well known in the art, a detailed description thereof will be omitted.

  The doorphone slave unit 100 includes a call microphone and speaker, an imaging device such as a CCD camera that images a visitor, a call button operated by the visitor, and a call signal via a signal line Ld when the call button is operated. And transmitting a video image (analog video signal) captured by the imaging device to the interphone base unit 1 via the signal line Ld, and a interphone base unit. An analog audio signal is transmitted and received bidirectionally to and from 1 via the signal line Ld.

  As shown in FIG. 1, the interphone master unit 1 serving as a video transmission device includes a video input unit 10 that captures an analog video signal transmitted from the doorphone slave unit 100 via the signal line Ld, and an analog captured by the video input unit 10. An A / D converter 11 that performs A / D conversion of the video signal, a video compression processor 12 that performs compression processing to be described later on the digital video signal converted by the A / D converter 11, and a microcomputer A control unit 13 serving as a main component, and a network interface unit 14 that interfaces between the control unit 13 and the transmission line Ls to transmit and receive packets are omitted. A speaker, a display device (for example, a liquid crystal display) for displaying an image, a response button operated when responding to a ringing tone, and a response button Also it includes such speech circuit for exchanging speech signals through speech path formed between the intercom slave unit 100 when it is created. The network interface unit 14 is compatible with both 10BASE-T and 100BASE-TX.

  The interphone sub-master units 2A and 2B, which are video receivers, have the same basic configuration as the interphone master unit 1 except for the video input unit 10, the A / D conversion unit 11, and the video compression processing unit 12. 1 to communicate with the doorphone slave unit 100 by transmitting and receiving digital audio data and video data in the form of packets, and display a video (moving image) captured by the imaging device of the doorphone slave unit 100 on a display device. Can do.

  Similarly, the wireless interphone sub-master 2C, which is also a video receiver, has the same basic configuration as the interphone master 1 except for the video input unit 10, the A / D converter 11, and the video compression processor 12, and the wireless adapter 5 To communicate with the doorphone slave unit 100 by transmitting and receiving digital audio data and video data with a wireless signal, and to display a video (moving image) captured by the imaging device of the doorphone slave unit 100 on a display device. Can do. Since the wireless adapter 5 is a conventionally known one corresponding to a wireless LAN standard (IEEE 802.11a / b / g, etc.), detailed description thereof is omitted.

  The relay device 4 has a plurality of ports (not shown) like the router 3 and relays a packet received at any port to another port. For example, the relay device 4 receives a packet received from the router 3. The packet is sent to both or one of the interphone sub-master 2B and the wireless adapter 5, and the packet received from the interphone sub-master 2B and the wireless adapter 5 is sent to the router 3. Here, a unique address (private IP address) is assigned to all devices constituting the home network, that is, the interphone master unit 1, the interphone sub-master units 2A, 2B, and 2C, the router 3, the relay device 4, and the wireless adapter 5. The devices are assigned to each other and can send and receive packets by identifying each other by the address.

  Thus, when a visitor operates the call button of the door phone slave unit 100, a call signal is transmitted from the door phone slave unit 100 to the interphone master unit 1 via the signal line Ld, and the imaging device is activated in the door phone slave unit 100. Then, the video signal obtained by imaging the visitor is transmitted to the intercom base unit 1 through the signal line Ld. In the intercom base unit 1, when the call signal is received, the control unit 13 sounds a ringing tone from the speaker and displays the video of the visitor on the display device by the analog video signal received by the video input unit 10. When the resident of the dwelling unit H operates the response button of the interphone master unit 1, the control unit 13 forms a communication path with the door phone slave unit 100 and activates the call circuit, so that the interphone master unit 1 A call can be made with the doorphone slave unit 100. When the control unit 13 of the interphone master unit 1 receives the call signal, the control unit 13 sends a packet including a ringing sound command to all video receiving devices (interphone sub-master units 2A, 2B, 2C) from the network interface unit 14. In addition to transmission (multicast), the video compression processing unit 12 performs video compression processing as will be described later, and packets including compressed video data are individually transmitted to each interphone sub-master unit 2A, 2B, 2C (unicast). Cast). Interphone sub-master units 2A, 2B, and 2C, when receiving a call signal packet, ring a ringing tone from a speaker, and when receiving a video data packet, expand the video data and display a visitor's video on the display device. Let Then, if the resident of the dwelling unit H operates the response button of any of the interphone secondary master units 2A, 2B, 2C, the voice data is included between the interphone secondary master unit 2A, 2B, 2C and the interphone master unit 1. Packets are transmitted and received, and a call can be made between any of the interphone sub-master units 2A, 2B, 2C and the doorphone slave unit 100 via the interphone master unit 1.

  By the way, among the interphone secondary master units 2A, 2B, and 2C that are video receivers, only the interphone secondary master unit 2A supports 100BASE-TX, and the interphone secondary master unit 2B only supports 10BASE-T. The transmission speeds of the transmission lines Ls that transmit packets to the two interphone sub-master units 2A and 2B are different from each other. Also for the wireless interphone secondary master 2C, the communication speed with the wireless adapter 5 is limited to the maximum speed (about 11 Mbps) in the IEEE 802.11b standard, so the other two interphone secondary masters 2A, 2B The transmission speed Ls and the transmission speed are different from each other. Since the transmission speeds (communication speeds) of the transmission lines Ls for transmitting the video data to the interphone sub-master units 2A, 2B, and 2C that are the video receivers are different from each other as described above, the video If the amount of data is fixed, the transmission line Ls having the slowest communication speed, for example, the transmission line Ls connected to the wireless intercom sub-master 2C (wireless adapter 5) becomes a bottleneck and the transmission efficiency decreases. It will end up. Specifically, if the amount of video data is increased in accordance with the transmission line Ls with a high communication speed, the video reception device (for example, the wireless interphone sub-master 2C) connected to the transmission line Ls with a low communication speed displays the video. Conversely, if the data amount of the video data is reduced in accordance with the transmission line Ls having a low communication speed, the video receiving device (for example, the interphone sub-master 2A connected to the transmission line Ls having a high communication speed) ), It is necessary to reproduce the video with a lower quality than the image that can be originally reproduced. As a result, the transmission efficiency of the video data is lowered.

  Therefore, in the present embodiment, as described below, transmission efficiency is improved by increasing or decreasing the amount of video data according to the communication speed of the transmission line Ls.

  First, the compression processing in the video compression processing unit 12 of the intercom base unit 1 will be described in detail. The video compression processing unit 12 compresses video data by a compression method compliant with the MPEG standard (for example, MPEG-4). Specifically, it is temporally adjacent to a first compression processing unit (not shown) that compresses video data using an intra-frame predictive coding method that predicts a target pixel using only neighboring pixels in the same frame. A second compression processing unit (not shown) that compresses video data by a unidirectional inter-frame predictive encoding method that predicts a difference between target pixels using pixels of a past frame among frames, The compression processing unit compresses the video data simultaneously and in parallel. Here, the frame compressed by the first compression processing unit is a frame (reference video frame) that can be expanded independently, and is usually called an I (Intra coded) frame, and is compressed by the second compression processing unit. A frame is a frame (compensated video frame) that can be decompressed only in pairs with an I frame, and is usually called a P (Predictive coded) frame. Note that the I and P frames generated by compression by the first and second compression processing units are sequentially stored in a memory (not shown).

  Here, normally, as shown in FIG. 3A, a predetermined number (five in the illustrated example) of P frames FP11˜ between a plurality of I frames FI1, FI2,... Arranged at a constant time interval T0. FP15, FP21 to FP25,... Are inserted and transmitted. However, as shown in FIGS. 3B and 3C, video data is obtained by thinning out I frames FI2, FI4,. The amount of data can be reduced. That is, the pattern shown in FIG. 3A (hereinafter referred to as “standard pattern”) has the largest amount of data and high image quality, and the pattern shown in FIG. 3B (hereinafter referred to as “first thinning pattern”). 3) has the second largest amount of data and medium image quality, and the pattern shown in FIG. 3C (hereinafter referred to as “second thinning pattern”) has the smallest data amount and low image quality. It becomes. The first thinning pattern is inserted between every other I frame FI2, FI4,..., Which is thinned and thinned out, and the immediately preceding I frame FI1, FI3,. P frames FP11 to FP15, FP31 to FP35,... Are rearranged at equal intervals between the remaining I frames FI1, FI3, FI5,. Further, the second thinning pattern is obtained by thinning out every four I frames FI2 to FI5 and all P frames FP11,.

  Thus, when video data is transmitted from the interphone master unit 1 serving as a video transmitting device to the interphone sub master units 2A, 2B, and 2C serving as video receiving devices, for example, a transmission path having the fastest transmission speed (to the interphone sub master unit 2A). For the connected transmission line) Ls, the video data is transmitted in the standard pattern shown in FIG. 3A, and the transmission speed having the second highest transmission speed (the transmission line connected to the interphone sub-master unit 2B). For Ls, the video data is transmitted in the first thinning pattern shown in FIG. 3B, and the transmission line with the slowest transmission speed (the transmission line connected to the wireless adapter 5 <wireless interphone sub-master 2C>) is transmitted. ) For Ls, if video data is transmitted in the second thinning pattern shown in FIG. 3C, video data having an appropriate amount of data corresponding to each transmission line Ls can be transmitted. De It is possible to improve the transmission efficiency as compared with the case of fixing the data amount of data. The transmission speed (communication speed) for each transmission line Ls is notified in advance from each interphone sub-master unit 2A, 2B, 2C to the interphone master unit 1 in a packet or manually set, and each interphone sub-master is set. It may be stored in the memory in association with the addresses of the machines 2A, 2B, 2C.

  Here, since the intercom system according to the present embodiment is connected to the Internet via the router 3 and the Internet connection device 6, video data is transmitted from the interphone master unit 1 to a video receiving device outside the home via the Internet. Is also possible. And when transmitting video data to a video receiving device outside the home in this way, the same procedure as when transmitting video data to the above-described video receiving device (interphone sub-master 2A, 2B, 2C) is performed. By transmitting the video data, it is possible to transmit video data having an appropriate amount of data according to the transmission speed of the transmission path from the intercom base unit 1 as the video transmission device to the video reception device outside the home via the Internet.

It is a block diagram which shows embodiment of the intercom main unit which is a video transmission apparatus which concerns on this invention. It is a system configuration | structure figure of the intercom system using the same as the above. It is operation | movement explanatory drawing same as the above.

Explanation of symbols

1 Video transmission device (interphone master unit)
DESCRIPTION OF SYMBOLS 10 Video input part 11 A / D conversion part 12 Video compression process part 13 Control part 14 Network interface part

Claims (1)

A video transmission device that is connected to a plurality of video reception devices via a plurality of types of transmission paths having different transmission speeds and transmits digital video data to each video reception device via the transmission channels,
Video compression means for compressing video data of a moving image, transmission means for sending the video data compressed by the video compression means to the transmission path, and control for controlling a video data transmission procedure from the transmission means to each transmission path Means and
The video compression means generates a reference video frame that can be expanded independently and a compensation video frame that compensates for a difference from the reference video frame,
The control means inserts and transmits a predetermined number of compensated video frames between a plurality of reference video frames arranged at regular time intervals, and thins the standard video frames and the compensated video frames from the standard pattern at regular intervals. In addition, if there is a compensation video frame that remains without being thinned, either one of the thinning patterns for rearranging and transmitting the compensation video frame between the reference video frames at equal intervals depends on the transmission speed of the transmission path. A video transmission apparatus characterized by selecting and transmitting video data from a transmission means to the transmission path.

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