KR20040101773A - Synchronization controlling method in satellite communication system - Google Patents

Abstract

PURPOSE: A synchronization control method in a satellite communication system is provided to easily acquire synchronization by using the probing channels and pilot channels between a base station and a satellite terminal in a satellite communication system. CONSTITUTION: A satellite terminal(100) carries out full searching for the pilot channels broadcasted from a base station(102) and acquires downlink synchronization(200,202). The satellite terminal(100) transmits a probing channel to the base station(102) in order to compensate for transmission time uncertainty(204). The base station(102) detects the received probing signal and calculates time and frequency errors(206). Then the base station(102) sets the use/nonuse flag of a frame to be transmitted as '1' so that another terminal cannot use the relevant signaling channel, and transmits signaling channel information, time error information, and frequency error information to the satellite terminal(100)(208). The satellite terminal(100) corrects the transmitting side's frequency and time errors using the received time and frequency error information(210). Then the satellite terminal(100) transmits an acknowledge signal to the base station(102)(212).

Description

Synchronous control method in satellite communication system {SYNCHRONIZATION CONTROLLING METHOD IN SATELLITE COMMUNICATION SYSTEM}

The present invention relates to a synchronization control method in a satellite communication system, and more particularly, to a control method for efficiently obtaining synchronization between a base station and a terminal in a satellite communication system.

Recently, with the rapid development of communication technology, satellite communication, which enables a user to make a call through a satellite of a subscriber located at a remote location, is becoming increasingly common. Since such satellite communication does not require a separate signal line for a call, mainly Long distance communication between countries, or as a communication method of a mountainous country like our country is usefully used. In addition, satellite communication provides a communication link with each base station using satellites, and a central station allocates channel frequencies to each base station, and each base station forms a communication path between base stations using channel frequencies allocated from the central station. Done. In such a satellite communication system, a random hit between the terminal and the terminal or the terminal and the base station is used for random access (Random Access) to generate a channel hit between the terminals (random hit) between the terminals could not be efficiently used. In addition, conventionally, when there is a call setup request, a synchronization is established after a channel is formed between the base station and the terminal. This consumed a lot of time for hop synchronization with the signaling channel. That is, in the conventional satellite communication, since a random access between terminals is used for communication, a random hit from another terminal is generated in a channel formed for a call between a base station and a predetermined terminal to efficiently use the channel. Could not.

As described above, in the conventional satellite communication, random access occurs between terminals, so that random interference occurs between terminals, so that a channel cannot be efficiently used.

Accordingly, an object of the present invention is to provide a method for preventing interference between channels during a call by maintaining synchronization between a terminal and a base station.

Another object of the present invention is to provide a method for efficiently using a channel between terminals.

1 is a block diagram illustrating a satellite communication system according to an embodiment of the present invention;

2 is a signal flow diagram illustrating a synchronization acquisition procedure of a synchronization channel in a satellite communication system according to an embodiment of the present invention;

3 illustrates a frame for switching from a synchronization channel to a signaling channel according to an embodiment of the present invention.

The method of the present invention for achieving the above object is a synchronization control method between a satellite terminal and a base station in a satellite communication system, the satellite terminal to search the hop code of all pilot channels transmitted from the base station to perform downlink synchronization And a probing channel for compensating transmission time uncertainty in order to synchronize transmission to the base station, and the base station receiving the probing channel transmitted from the satellite terminal so that the base station acquires uplink synchronization. And transmitting, by the base station, signaling channel information and time and frequency error information to the satellite terminal, and receiving, by the satellite terminal, transmitting a response signal, and then switching to a signaling channel. do.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a block diagram illustrating a satellite communication system according to an embodiment of the present invention. First, referring to the structure of a channel in a satellite communication system, a synchronization channel is composed of a pilot channel and a probing channel, and each channel corresponds to a downlink and an uplink, respectively, based on the satellite terminal 100. This synchronization channel is a channel used for synchronization with the system when the satellite terminal 100 is initially turned on or when the synchronization of the system is completely lost. As shown in FIG. 1, the synchronization channel includes a pilot channel and a probing channel. do. The pilot channel is a channel transmitted from the base station 102 to the satellite terminal 100, and the probing channel is a channel transmitted from the satellite terminal 100 to the base station 102. First, the base station 102 provides a call function between the satellite terminals, and transmits information for initial synchronization to the satellite terminal 100 through a pilot channel. The pilot channel is a channel for transmitting data from the base station 102 to the satellite terminal 100. The pilot channel is used for initial synchronization of time and frequency by the satellite terminal 100. The time and frequency error information of the terminal is transmitted. In addition, information transmitted to the satellite terminal 100 through the pilot channel is time control, frequency error, time phase, register, response, and the like. The satellite terminal 100 transmits information to the base station 102 through synchronization with the probing channel. This probing channel is a channel transmitted by the satellite terminal 100 to the base station 102 after synchronization of the downlink, that is, the pilot channel, and is used for uplink synchronization of the synchronization channel. In order to synchronize transmission, the satellite terminal 100 transmits several frames to compensate for transmission time uncertainty. Information transmitted through such a probing channel is an identifier of a terminal and phase information (-N to + N) of a probing signal. Here, N denotes the frequency hopping number of the system within the time delay difference between the center and the edge of the terminal use area. The identifier of the terminal consists of a group name and a terminal unique number. Phase is a counter from -N to N. In other words, it indicates the relative transmission timing to the base station calculated by the satellite terminal, '0' is the correct transmission timing in calculation, '-N' means to transmit as fast as the N hop (Hop) than the base station, 'N 'Means delayed compared to the base station by N hops. As described above, the data transmitted from the satellite terminal 100 to the base station 102 through the probing channel is composed of information of an identifier, a time phase, and responses of the terminal.

Then, in the satellite communication system according to an embodiment of the present invention with reference to Figure 2 which is a signal flow diagram illustrating a procedure for synchronization acquisition between the satellite terminal 100 and the base station 102 to switch from the synchronization channel to the signaling channel Explain the process. First, in step 202, the satellite terminal 100 searches for all of the pilot channels transmitted from the base station 102 in a broadcast casting manner to obtain downlink synchronization. In this case, the transmitted pilot channel includes information used by the satellite terminal 100 for initial time synchronization and frequency synchronization. Upon receiving this, the satellite terminal 100 reads information for synchronization of transmission in step 202 and transmits data including the identifier of the terminal and phase information of the probing signal to the base station 100 in step 204. At this time, the satellite terminal 100 transmits several frames to the base station 102 to compensate for the transmission time uncertainty. The probing signal is transmitted by -N to + N, that is, 2N + 1 times of phase information of the probing signal. The base station 102 receives the received probing signal, calculates time and frequency errors, and in step 208, the base station 102 transmits the frame to the satellite terminal 100 to prevent other satellite terminals from using the corresponding signaling channel. Set the enable / disable flag to '1' and send signaling channel information, time and frequency error information to the satellite terminal. The satellite terminal 100 receives the correction using the time and frequency error information received from the base station 102 to correct the frequency and time error of the transmitting side, and transmits a response signal in step 212. The base station 102 then transmits the information of the signaling channel. At this time, the information of the signaling channel transmitted is configured to hop with a long hop period, and the length of one frame corresponds to 1/4 of the length of one frame of the synchronization channel, as shown in FIG. Therefore, the frame start position of the sync channel is coincident with the frame start position of the signaling channel. In order to move from a synchronization channel to a signaling channel, a base station first transmits a register value of a high / low speed channel and a jump sequence generator of an access and control channel to a satellite terminal. Here, as shown in FIG. 3, the base station uses the control channel corresponding to the next or subsequent synchronization channel in the current pilot channel and the pseudo random number register value corresponding to the first start of the access channel, based on the satellite terminal, twice in the frame of the synchronization channel. Or send it out three times. After receiving the pseudo random register value of the signaling channel, the satellite terminal returns a response to the base station and switches to the signaling channel.

As described above, in the present invention, synchronization can be easily obtained by using a probing channel and a pilot channel between the base station and the satellite terminal, and after synchronization acquisition, hop synchronization of the signaling channel can be achieved by transmitting a pseudo random number generator register value. Will be. In this way, if all the satellite terminals are synchronized with the base station and maintain the signaling channel, inter-channel interference does not occur during the inter-terminal call so that a large number of terminals can be efficiently allocated to the given channel and operated. do.

In the foregoing detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. For example, the present invention exemplifies synchronization between the satellite terminal and the base station. However, the present invention can be synchronized with all satellite terminals equipped with a frequency hopping-code division multiple access modem instead of the satellite terminal. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

As described above, the present invention can easily acquire synchronization using a probing channel and a pilot channel between a base station and a terminal in a satellite communication system, and in this state, a pseudo random number generator register value is transmitted to match hop synchronization of a signaling channel. Can be. In this way, if a signaling channel synchronized to all terminal base stations is maintained, there is an advantage in that a large number of terminals can be efficiently allocated to a given channel and operated because interference between channels does not occur when a terminal-to-device call is performed. .

Claims (5)

In a synchronous control method between a satellite terminal and a base station in a satellite communication system, A first step of the satellite terminal searching the hop codes of all pilot channels transmitted from the base station to synchronize downlink, and transmitting a probing channel to compensate for transmission time uncertainty in order to synchronize transmission to the base station; And a second process of receiving, by the base station, the probing channel transmitted from the satellite terminal, and acquiring uplink synchronization by the base station. The method of claim 1, wherein the pilot channel includes information used by the satellite terminal to synchronize initial time synchronization and frequency synchronization. The synchronization control method of claim 1, wherein data including an identifier of the satellite terminal and phase information of a probing signal is transmitted through the probing channel. The method of claim 1, wherein the base station transmits signaling channel information and time and frequency error information to the satellite terminal to switch to a signaling channel after performing the process of acquiring uplink synchronization. And receiving a response and transmitting a response signal, and then switching to a signaling channel. The synchronization system of claim 4, wherein the base station transmits a pseudo random number generator register value for transmitting information for synchronizing hop code synchronization of a signaling channel after performing a process of acquiring uplink synchronization. Control method.