KR0130406B1 - Structure of multiple frame using time division - Google Patents

Abstract

The present invention relates to a time division multiple (TDM) frame structure using a common control channel technique of a satellite communications system having a central control station and plural base stations. The length of plural control messages for transmission from the central control station to the base stations is 16 bytes, and this structure has an identifier at the initial point of a frame and protective time period for frame synchronizing start of the base stations at both sides of the identifier, thus increasing the use of common control channel.

Description

Time Division Multiple Frame Structure

Figure is a TDM frame structure diagram according to the present invention

The present invention relates to a time division multiple (hereinafter, referred to as TDM) frame structure for transmitting control messages to a plurality of base stations using a common control channel in a satellite communication system.

In general, a satellite communication system uses a time division multiple (TDM) common control channel to transmit control messages to one central control station and multiple base stations. The common control channel of the satellite communication system is a control pattern to be transmitted to a plurality of base stations in the central control and a specific pattern (RUN Reference Unique Ward) for distinguishing each time division multiple (TDM) frame, that is, the beginning of each TDM frame. It has the structure of the frame unit comprised. However, since the length of a control message to be transmitted to a base station in a satellite communication system may vary depending on a target to be controlled, in order to adopt a simple message transmission method, each message length is generally the same.

However, if the control message is not optimized, the usage efficiency of the common control channel is reduced as follows.

First, when the control message length is fixed based on the maximum control message length, the number of control messages per unit time is accompanied. Secondly, when the control message length is specified based on the minimum control message length, the control message length is transmitted to the base station using two or more control messages for the large control message length, thereby reducing the efficiency of the usage message per unit time.

Accordingly, an object of the present invention is to provide a time division multiple frame structure that increases the usability of a common control channel by optimizing the control message length.

In the time division multiple frame structure for using a common control channel scheme of a satellite communication system having a central control station and a plurality of base stations according to the present invention, the central control station is transmitted to the plurality of base stations The length of a plurality of control messages is set to 16 bytes, and a recognizer is placed at a frame start point to recognize a frame start point, and both sides of the recognizer have a guard time zone, which is a working time for starting frame synchronization of a base station.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure is a TDM frame structure diagram according to the present invention.

The TDM frame according to the present invention should enable each base station to recognize the start of the TDM frame when the central control station transmits the TDM frame to elicit the control message in the TDM frame. Therefore, the satellite communication switch supporting voice and data communication using the cited satellite has been optimized by combining the control message length between the central control station and each base station. As a result, the optimal message length is 16 bytes. Therefore, the use efficiency of common control channel is increased by using the optimal control message length to perform the exchange function which is inherent in the system operation.

In the figure, the length of each control message (PK1, PK2, *** PKm) in each TDM frame structure (N-1) (N) (N + 1) is set to 16 bytes, which is the optimal message length of the system. In this case, an identifier (Reference Unique Ward: RUW) is placed at the beginning of the TDM frame to recognize the beginning of the frame.

In addition, both sides of the recognizer (RUW) are provided with a guard time (GT), which is a working time for starting the frame synchronization of the base station. The length in each TDM frame structure (N-1) (N) (N + 1) has a structure that can be increased or decreased according to the number of control messages (PK1, PK2, *** PKm).

As described above, the present invention can easily recognize the starting point of each frame at each base station by optimizing the length of the entire frame and the control message for communicating using a common control channel between the central control station and a plurality of base stations in the satellite communication system. In addition, the control message can be transmitted to a plurality of base stations, thereby improving the utility of the common control channel.

Claims (2)

In a time division multiple frame structure for using a common control channel scheme of a satellite communication system having a central control station and a plurality of base stations, a length of a plurality of control messages for transmission from the central control station to the plurality of base stations is 16; A time division multiple frame structure having a guard time period in bytes, and having a recognizer at a frame start point to recognize a frame start point, and having a guard time zone on both sides of the recognizer as a working time for starting frame synchronization of a base station. The time division multiple frame structure of claim 1, wherein a length of the time division multiple frame is increased or decreased according to the number of control messages.