KR101155908B1 - Method for transferring movie stream of zigbee protocol - Google Patents

Abstract

This invention prevents the loss of video frames by preventing one frame from being generated until the next frame is generated until it is transmitted to the Zigbee network. As a video information transmission method of ZigBee communication to be able to continuously transmit information without interruption,
The video player transmits the video transmission start signal to the video encoder via the Zigbee receiver and the Zigbee transmitter, the video encoder encodes the video information of one frame, and the video encoder transmits the transmission start signal to the Zigbee transmitter. And requesting, by the Zigbee transmitter, to transmit the first packet of the encoded video frame to the video encoder, and transmitting the first packet of the video frame to the video player via the Zigbee transmitter and the Zigbee receiver. After receiving the packet, requesting the video encoder to transmit the next packet through the Zigbee receiver and the Zigbee transmitter, repeating the transmission of one frame, and when the transmission of one frame is completed, the video player receives the Zigbee receiver. And Zigbee Transmitting the next frame encoding signal to the video encoder through the air transmission, encoding the video information of the next frame by the video encoder, transmitting the transmission start signal to the Zigbee transmitter, and transmitting the video encoder by the Zigbee transmitter. Repeating the above process until the transmission of the next frame is completed, requesting the first packet of the encoded video frame to be transmitted to the video player. Transmitting an encoding stop signal to the encoder; and the video encoder comprises stopping the encoding.

Description

Method of transferring movie information of Zigbee communication {Method for transferring movie stream of Zigbee protocol}

The present invention relates to a method of transmitting video information of ZigBee communication. More specifically, it is possible to prevent the loss of a video frame by preventing the next frame from being generated until one frame of the video is transmitted to the Zigbee network. (Zigbee) The present invention relates to a method of transmitting video information of Zigbee communication, which enables continuous transmission of video information even at a slow communication speed of communication.

Passenger safety is the most important task in the railway sector, and despite the centralized management of railway safety, there are still many accidents due to safety accidents such as door jamming, escalator falling accidents, fire accidents and railway track accidents. Physical and human losses are occurring, and these safety accidents are emerging as the most urgent problems to be solved in the railway sector.

Recently, subway monitoring system using CCTV or various types of camera sensors has been attempted to prevent passenger safety accidents with the development of information technology (IT). In other words, CCTVs are installed in stations, escalators, and crowded areas of stations for the purpose of checking train operation, monitoring passenger movement, and getting on and off passengers. Various types of camera sensors have been applied for the purpose of verification.

However, the subway monitoring system installed in the boarding stations, escalators, and passenger areas of the conventional stations simply displays analog screens after installing analog CCTV at the place to be monitored (divided according to the number of CCTVs in the monitor). Because the screen must always be monitored by the worker at all times, there is a problem that it is difficult to quickly and accurately grasp the situation and cope with it.

In order to solve this problem, it is possible to quickly and accurately analyze and judge the risk situation in the platform and to disclose the technology of the elevating monitoring system that can guide train operators to deal quickly and accurately without embarrassment in case of a dangerous situation. It is disclosed by the applicant in patent publication No. 10-2009-0027409 (published March 17, 2009).

However, the conventional subway monitoring system has a problem in that the installation work conditions are difficult because it uses a wired CCTV.

Even if you want to install a wireless CCTV instead of a wired CCTV in order to facilitate the installation work conditions, since the Zigbee communication used as short-range wireless communication when installing the wireless CCTV is a low-speed communication of up to 250Kbps Zigbee communication is slower than the encoding speed of the buffer, causing a buffer overrun phenomenon, which makes it difficult to transmit video information without interruption.

An object of the present invention is to solve the conventional problems as described above, to prevent the loss of the video frame by preventing the next frame is not generated until one frame is transmitted to the Zigbee network, ZigBee The present invention provides a method of transmitting video information of communication.

Another object of the present invention is to provide a video information transmission method of ZigBee communication, which enables continuous transmission of video information even at a slow communication speed of Zigbee communication.

As a means for achieving the above object, the configuration of the present invention, the video player transmits the video transmission start signal to the video encoder via the Zigbee receiver and the Zigbee transmitter, the video encoder encodes the video information of one frame And, the video encoder sends a transmission start signal to the Zigbee transmitter, the Zigbee transmitter requests the video encoder to transmit the first packet of the encoded video frame, and the video encoder sends the first packet of the video frame to the Zigbee transmitter and Zigbee. Transmitting through the receiver to the video player, and the video player repeats the transmission of one frame after completing the first packet and requests the video encoder to transmit the next packet through the Zigbee receiver and the Zigbee transmitter. With one frame When the transmission is completed, the video player transmits the next frame encoding signal to the video encoder via the Zigbee receiver and the Zigbee transmitter, the video encoder encodes the video information of the next frame, and the video encoder starts transmitting to the Zigbee transmitter. Transmitting the signal, requesting the Zigbee transmitter to transmit the first packet of the encoded video frame, repeating the above process until the transmission of the next frame is completed, and when the transmission of all the frames is completed, The video player may include transmitting an encoding stop signal to the video encoder through the Zigbee receiver and the Zigbee transmitter, and the video encoder may stop the encoding.

The configuration of the present invention, it is preferable that the video encoder further comprises the step of switching to the standby state after stopping the encoding.

In the configuration of the present invention, it is preferable that the packet of the above video frame is formed by cutting the video information into the maximum transmission unit (MTU).

The present invention prevents the loss of the video frame by preventing the next frame from being generated until one frame of the video is transmitted to the Zigbee network, and the video information is lost even at the slow communication speed of Zigbee communication. It has the effect of being able to transmit continuously without.

1 is a signal flowchart of a method for transmitting video information of Zigbee communication according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings in order to describe in detail enough to enable those skilled in the art to easily carry out the present invention. . Other objects, features, and operational advantages, including the purpose, operation, and effect of the present invention will become more apparent from the description of the preferred embodiments.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred embodiment in order to help those skilled in the art from the various possible examples, the technical spirit of the present invention is not necessarily limited or limited only by this embodiment Rather, various changes, additions, and changes are possible within the scope without departing from the spirit of the present invention, as well as other equivalent embodiments.

1 is a signal flowchart of a method for transmitting video information of Zigbee communication according to an embodiment of the present invention.

As shown in FIG. 1, the configuration of the video information transmission method of ZigBee communication according to an embodiment of the present invention, the video player 1 sends a video transmission start signal to the ZigBee receiver 2 (S1), The Zigbee receiver 2 transmits a video transmission start signal to the Zigbee transmitter 3 (S2), and the Zigbee transmitter 3 transmits a video transmission start signal to the video encoder 4 (S3), and the video encoder (4) is a step (S4) of encoding the video information of one frame, the video encoder (4) transmits a transmission start signal to the ZigBee transmitter (S5), and the ZigBee transmitter (3) is a video encoder Requesting (4) to transmit the first packet of the encoded video frame (S6), and the video encoder 4 cuts the information of the video frame encoded by the ZigBee transmitter 3 into the maximum transmission unit (MTU) to make the first packet. (S7), Zigbee transmitter (3 ) Transmits the received packet to the Zigbee receiver 2 (S8), and the Zigbee receiver 2 transmits the received packet to the video player 1 (S9), and the video player 1 is the first packet. After receiving the request to transmit the next packet to the Zigbee receiver (2) (S10), the Zigbee receiver (2) requests the transmission of the next packet to the Zigbee transmitter (S11) (S11), the Zigbee transmitter (3) is a video Repeating the above steps (S6 to S12) until the transmission of one frame is completed while requesting the encoder 4 to transmit the next packet (S12), and when the transmission of one frame is completed, the video player 1 ) Requests the next frame to the Zigbee receiver 2 (S13), the Zigbee receiver 2 requests the next frame to the Zigbee transmitter 3 (S14), and the Zigbee transmitter 3 is the video encoder (4) (S15) and the video encoder 4 transmits the next frame to the next frame encoding signal. Encoding (S16) the video information, transmitting the start signal of transmission to the ZigBee transmitter 3 by the video encoder 4 (S17), and encoding the video by the ZigBee transmitter 3 to the video encoder 4 Requesting transmission of the first packet of the frame (S18), repeating the above steps (S13 to S18) until the transmission of the next frame is completed, and when the transmission of all the frames is completed, the video player 1 performs the Zigbee The transmission stop signal is transmitted to the receiver 2 (S19), the ZigBee receiver 2 transmits the transmission stop signal to the ZigBee transmitter 3 (S20), and the ZigBee transmitter 3 is encoded to the video encoder 4 The step S21 of transmitting a stop signal and the video encoder 4 include a step of stopping encoding and switching to a standby state.

The operation of the video information transmission method of the Zigbee communication according to an embodiment of the present invention by the above configuration is as follows.

First, the video player 1 constituting a part of the monitoring system using Zigbee communication sends a video transmission start signal to the Zigbee receiver 2 (S1).

ZigBee is a data communication protocol operating in the 868/915 MHz and 2.4 GHz bands based on the IEEE 802.15.4 (LR-WPAN: Low Rate-Wireless Personal Area Network) PHY / MAC.

The Zigbee receiver 2 receiving the video transmission start signal from the video player 1 transmits the video transmission start signal to the Zigbee transmitter 3 (S2), and the Zigbee transmitter 3 transmits the video to the video encoder 4 The start signal is transmitted (S3).

After receiving the video transmission start signal from the Zigbee transmitter 3, the video encoder 4 encodes the video information of one frame (S4), and then transmits the transmission start signal to the ZigBee transmitter 3 (S5).

Upon receiving the transmission start signal from the video encoder 4, the Zigbee transmitter 3 requests the video encoder 4 to transmit the first packet of the encoded video frame (S6).

The video encoder 4 receiving the first packet of the video frame from the Zigbee transmitter 3 transmits the first packet to the Zigbee transmitter 3 by cutting the information of the encoded video frame into the maximum transmission unit (MTU) (S7). .

The ZigBee transmitter 3, which has received the first packet from the video encoder 4, transmits the received packet to the ZigBee receiver 2 (S8), and the ZigBee receiver 2 sends the received packet to the video player 1 It is to be transmitted (S9).

After receiving the first packet, the video player 1 requests the next packet to the Zigbee receiver 2 (S10), and the Zigbee receiver 2 requests the next packet to the Zigbee transmitter 3 (S11). The Zigbee transmitter 3 requests the video encoder 4 to transmit the next packet (S12), and repeats the above processes (S6 to S12) until the transmission of one frame is completed.

When the transmission of one frame is completed, the video player 1 requests the next frame to the Zigbee receiver 2 (S13), and the Zigbee receiver 2 requests the next frame to the Zigbee transmitter 3 (S14). ), The Zigbee transmitter 3 transmits the next frame encoding signal to the video encoder 4 (S15).

After receiving the next frame encoding signal from the ZigBee transmitter 3, the video encoder 4 encodes the video information of the next frame (S16), and then transmits a transmission start signal to the ZigBee transmitter 3 (S17).

The Zigbee transmitter 3 receiving the transmission start signal from the video encoder 4 requests the video encoder 4 to transmit the first packet of the encoded video frame (S18), until the transmission of the next frame is completed. Repeat the process (S13 ~ S18). Accordingly, the next frame is not generated until one frame of the video is transmitted to the Zigbee network.

When the transmission of all frames is completed, the video player 1 transmits a transmission stop signal to the Zigbee receiver 2 (S19), and the Zigbee receiver 2 transmits a transmission stop signal to the Zigbee transmitter 3 (S20). ), The Zigbee transmitter 3 transmits an encoding stop signal to the video encoder 4 (S21).

The video encoder 4 receiving the encoding stop signal from the Zigbee transmitter 3 stops the encoding and switches to the standby state.

1: video player 2: zigbee receiver
3: Zigbee Transmitter 4: Video Encoder

Claims (3)

delete delete A video player transmitting a video transmission start signal to a video encoder via a Zigbee receiver and a Zigbee transmitter;
The video encoder encodes video information of one frame,
The video encoder transmitting a transmission start signal to a Zigbee transmitter;
Requesting the Zigbee transmitter to send the first packet of the encoded video frame to the video encoder;
The video encoder sends the first packet of the video frame to the video player via the Zigbee transmitter and the Zigbee receiver,
After the video player receives the first packet, the video player sends a request to the video encoder to transmit the next packet through the Zigbee receiver and the Zigbee transmitter, and repeats the transmission until one frame is completed.
When the transmission of one frame is completed, the video player transmits the next frame encoding signal to the video encoder through the Zigbee receiver and the Zigbee transmitter,
The video encoder encodes video information of the next frame,
The video encoder transmitting a transmission start signal to a Zigbee transmitter;
The Zigbee Transmitter requests the Video Encoder to send the first packet of the encoded video frame, repeating the above process until the transmission of the next frame is completed. Prevent it from being generated,
When the transmission of all frames is completed, the video player transmits an encoding stop signal to the video encoder via the Zigbee receiver and the Zigbee transmitter,
The video encoder comprises the step of switching to the standby state after stopping the encoding,
The packet of the video frame is a video information transmission method of Zigbee communication, characterized in that formed by cutting the video information to the maximum transmission unit (MTU).

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