KR100980731B1 - Apparatus and method for changing period of sync burst of base station based on satellite communication system - Google Patents

Abstract

The present invention relates to a satellite communication system, and in particular, to perform an adaptive coding and modulation (ACM) function for compensation for rainfall attenuation, to quickly perform compensation for a change in a reception environment of a terminal. An apparatus and method for changing a sync burst period of a base station in a satellite communication system in which the base station changes the period of the sync burst. To this end, the present invention provides a method for changing a sync burst period of a base station in a satellite communication system, the method comprising: receiving one or more quality information from a terminal, and corresponding to the current transmission period of the terminal by using the received one or more quality information. Extracting a group, and after the group is extracted, determining a group corresponding to a new transmission period of the terminal by using recently received quality information, and comparing the current transmission period with the new transmission period. If different, the method includes checking whether the current transmission period expires, and when the current transmission period expires, designating a current transmission period of the terminal as the new transmission period.

Description

Apparatus and method for changing the sink burst period of a base station in a satellite communication system {APPARATUS AND METHOD FOR CHANGING PERIOD OF SYNC BURST OF BASE STATION BASED ON SATELLITE COMMUNICATION SYSTEM}

The present invention relates to a satellite communication system, and in particular, to perform an adaptive coding and modulation (ACM) function for compensation for rainfall attenuation, to quickly perform compensation for a change in a reception environment of a terminal. An apparatus and method for changing a sync burst period of a base station in a satellite communication system in which the base station changes the period of the sync burst.

In general, a satellite communication system employs a method using a power control method and a diversity method to compensate for a change in a reception environment such as rainfall attenuation. However, recently, an adaptive transmission scheme in which a terminal measures a quality of a received signal and transmits the received signal to a base station and changes the encoding and modulation scheme of the transmitted signal from the base station to the terminal is mainly used. Among these methods, the rainfall attenuation compensation method using power control is a method of maintaining smooth communication by amplifying and using power as much as a signal attenuated by rainfall. This approach is uneconomical because it must have a high-power amplifier for rainfall and support for additional equipment for Uplink Power Control (UPC). In addition, the rainfall attenuation compensation method using diversity is also uneconomical because there are many things to be additionally provided according to the diversity method. In addition, methods for compensating for attenuation for rainfall by using an adaptive transmission technique include a modulation method and an encoding method in a base station on a transmitting side by measuring a quality of a received signal and transmitting information about the received signal to a base station. Coding is performed by changing the method. In order to transmit the quality information on the received signal to the base station, the terminal allocates and transmits a sync burst, and the base station measures the timing, frequency error, and transmission power error of the terminal transmission signal while receiving the sync burst. Error correction information is transmitted to the terminal.

When the terminal attempts to log in to the base station and succeeds, the resource manager of the base station allocates a sync burst to maintain synchronization of the terminal. The effective number of sync bursts is determined according to the frame structure, and the period of the sync burst is determined according to the number of UEs to which the sync burst is connected. When the terminal receives the program specific information / service information (PSI / SI) transmitted by the resource manager of the base station through the forwarding channel, the terminal includes the reception quality of the forwarding channel and the traffic resource request information in the sync burst to be transmitted. Transmit to base station. Then, the base station receives the forwarding channel reception quality transmitted by the terminal, and the modulation and code (Modulation & Coding) of the terminal based on the quality information (Carrier to Noise plus Interference ratio, CNI) transmitted by the terminal from the base station transmission processor , MODCOD). When transmitting IP traffic to a terminal, the traffic is transmitted by encoding and modulating according to the modulation and code of the corresponding terminal. In addition, the base station transmits correction information based on the error information measured while the base station receives the return channel transmitted by the terminal to maintain synchronization with the return channel.

1 is a schematic view showing a conventional satellite communication system.

As shown in the drawing, the first terminal 104 and the second terminal 106 communicate with each other via the satellite 102 while logged in to the base station 100. In the satellite communication system, the base station 100 allocates the same sync burst period to each terminal in a state in which a link is connected to the first terminal 104 and the second terminal 106. However, as shown in the drawing, since the first terminal 104 is sunny and the quality of the reception channel is good, a modulation and code having good transmission efficiency are selected to perform traffic communication, while the second terminal 106 is rainy. Because the attenuation occurs due to poor quality of the receiving channel, a modulation and code with a larger link margin than the transmission efficiency are selected to perform traffic communication.

However, in the conventional satellite communication system, even when the rain clouds move or the first terminal 104 moves to the rainfall region, the reception quality is changed, the base station 100 transmits the quality information to the first terminal at the existing sink burst period. The first terminal 104 compensates for the rainfall attenuation because the quality information on the received signal is received in the period of the sync burst, and takes time by the sync burst period. In addition, the base station 100 has a large degree of risk in determining the modulation and code by actively believing the last received reception quality when comparing the reception quality currently transmitted by the first terminal 104 with the reception quality previously received. As a result, modulation and code are often determined by averaging based on the received quality collected over several times. Because of this, the base station 100 is slow to determine and reflect the modulation and code of each terminal. This is because it is difficult for the base station to determine whether one or two reception quality data are temporary attenuation or attenuation due to rainfall clouds.

The present invention has been conceived to solve the above-mentioned conventional problems, and in performing an adaptive coding & modulation (ACM) function for compensation for rainfall attenuation, the base station changes the period of the sync burst, thereby changing the reception environment. The present invention provides an apparatus and method for changing a sync burst period of a base station in a satellite communication system capable of quickly performing compensation for a change in channel forwarding and channel attenuation.

According to an aspect of the present invention, there is provided a method of changing a sync burst period of a base station in a satellite communication system, the method comprising: receiving one or more quality information from a terminal, and using the received one or more quality information to transmit current of the terminal. Extracting a group corresponding to a period, determining a group corresponding to a new transmission period of the terminal by using the recently received quality information after the group is extracted, the current transmission period and a new transmission If the periods are different from each other, checking whether the current transmission period expires, and if the current transmission period expires, designating a current transmission period of the terminal as the new transmission period.

In addition, the present invention for achieving the above-mentioned in the terminal grouping method of the base station in the satellite communication system, after calculating the average and standard deviation using one or more quality information received from the terminal, and the recently received quality information and Calculating the difference between the average and the quality information used to determine the recently received quality information value and the current modulation and coding value of the terminal if the calculated difference is equal to or more than the product of the standard deviation and the first weight. Calculating a difference between the values, and if the calculated difference is greater than or equal to a first threshold value, designates a first group in which a period of the sync burst transmitted to the terminal is shorter, and the calculated difference is greater than the first threshold value. If it is small, a process of designating a second group having a long period of the sync burst transmitted to the terminal, the terminal is the first group or the second After the specified group and includes the step of changing the one or more terminals located near the terminal period of a sync burst by a short group.

As described above, the present invention provides an apparatus and method for changing a sync burst period of a base station in a satellite communication system in which a base station changes a period of a sync burst in order to quickly compensate for a change in a reception environment of a terminal. By performing a fast compensation for the terminal has an effect that can maintain the synchronization and link continuously. In addition, the present invention has the effect that it is possible to quickly compensate for the terminal having a high possibility of changing the reception environment by changing the period group of the extracted terminal by extracting the adjacent terminal using the location information.

1 is a schematic view showing a conventional satellite communication system.
2 is a block diagram illustrating an apparatus for changing a sync burst period of a base station in a satellite communication system according to an exemplary embodiment of the present invention.
3 is a flowchart illustrating a method for grouping terminals by a base station according to an exemplary embodiment of the present invention.
4 is a flowchart illustrating a method for determining a period group of terminals by a base station according to an exemplary embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the operating principle of the preferred embodiment of the present invention. In the following description of the present invention, detailed descriptions of well-known functions or configurations will be omitted if it is determined that the detailed description of the present invention may unnecessarily obscure the subject matter of the present invention. In addition, terms to be described below are terms defined in consideration of functions in the present invention, and may be changed according to a user, a user's intention or custom. Therefore, the definition should be made based on the contents throughout the specification.

2 is a block diagram illustrating an apparatus for changing a sync burst period of a base station in a satellite communication system according to an exemplary embodiment of the present invention.

As shown, in the satellite communication system according to an embodiment of the present invention, the apparatus for changing a sync burst period of a base station receives a sink burst including quality information of a forwarding channel (channel transmitted from a base station to a terminal) transmitted by a terminal. A receiver 202 for measuring transmission power error, frequency error, and timing error information of the terminal, and transmitting a satellite access control (SAC) message included in the quality information to a resource manager; Superframe, frame, timeslot, time slot allocation information for each terminal, and the like, and changes the time slot allocation information according to the traffic resource request of the terminal and allocates the information to the terminal, and receives and measures the quality information. A resource management unit 204 for managing resources of the terminal by maintaining synchronization with the terminal by using the terminal correction information, and the terminal. It controls the login / logoff function, collects the status information of the base station and the status information of the terminal, provides the information on the entire satellite network to the operator, collects the transmission status of the forwarding link and the return channel and the location information of the terminal. Receives control information and PSI / SI data from the network manager 206 for managing the satellite system network, the resource manager 204 and the network manager 206, and transmits the encoded information to the terminal through encoding and modulation. The transmitter 208 receives quality information (Carrier to Noise plus Interference ratio, CNI), performs encoding and modulation according to modulation and code for each terminal, and transmits the same to the terminal.

Hereinafter, an apparatus for changing a sync burst period of a base station in a satellite communication system according to an embodiment of the present invention will be described in detail with reference to FIG. 2.

The base station according to the present invention includes a receiver 202, a resource manager 204, a network manager 206, a transmitter 208.

The receiver 202 receives the configuration information from the network manager 206 and the resource manager 204 to demodulate and decode the return channel to receive data. The data received through the traffic burst is converted into an IP datagram through a channel identifier for each terminal and transmitted to the ground network, and the terminal login information received through the common signaling channel (CSC) burst is transmitted to the resource manager 204. Transfer to perform the login of the terminal. In addition, the receiving unit 202 receives the quality information transmitted by the terminal to measure the transmission power error, frequency error, timing error information of the terminal and the resource management unit 204 to transmit a satellite access control (SAC) message included in the sync burst It transmits to maintain the synchronization and determines the terminal modulation and code.

The resource manager 204 schedules the information of the forwarding channel and the superframe, the frame, the timeslot, the time slot allocation information for each terminal, and transmits the information to the terminal through the transmitter 208 at regular intervals. In addition, the time slot allocation information is changed and allocated to the terminal according to the traffic resource request of the terminal, and the terminal correction information, which has received and measured the sync burst, is transmitted to the terminal through the transmitter 208 to maintain synchronization. The terminal correction information includes information such as timing, frequency offset, and transmission power. In addition, the resource manager 204 collects received signal quality information (CNI) received from the terminals, obtains the average and standard deviation of the received signal quality information collected to date by using a statistical method, and recently received The difference between the received signal quality information and the standard deviation, and the difference between the received signal quality information corresponding to the modulation and code currently used by the terminal and the received signal quality information of the next step modulation and code. Accordingly, the UE is divided into three groups and differently assigned a sync burst period. A more detailed process of grouping the aforementioned terminals will be described later. The CNI, which is a received signal quality transmitted by the terminal, is transmitted to the transmitter 208 to determine modulation and code for each terminal. The terminal performs a login process in cooperation with the network manager 206 and assigns a channel identifier to the terminal that has successfully logged in to the terminal and the receiver 202.

The network manager 206 performs a login and logoff function of the terminal together with the resource manager 204, and collects the status information of the base station and the status information of the terminal to provide the operator with information about the entire satellite network. Also, it manages the entire satellite network by collecting transmission status and terminal location information about forwarding link and return link.

The transmitter 208 receives control information and PSI / SI data from the resource manager 204 and the network manager 206, converts the control information and PSI / SI data into MPEG-TS2, and transmits the encoded information to the terminal through encoding and modulation. In addition, the transmitter 208 receives modulation code information corresponding to the received signal quality information (CNI) of the terminal from the resource manager 204 to determine the modulation and coding method for each terminal. When traffic data is transmitted to the terminal, the IP traffic data is converted back to MPEG-TS2 after DSM-CC conversion, and then encoded and modulated according to modulation and code, and then transmitted to the terminal.

3 is a flowchart illustrating a method for grouping terminals by a base station according to an exemplary embodiment of the present invention.

As shown, when the base station according to the present invention receives one or more signal quality information from the terminal, the base station extracts the current period group of the terminal using the received one or more signal quality information (S301-S303). That is, when a base station transmits CNI, which is quality information of a forwarding channel, the base station extracts which sync period group the terminal is currently included in. After the current period group of the terminal is extracted, a new period group is determined using quality information received thereafter (S305). The criterion for determining the new period group is to collect the quality information transmitted by the terminal, and obtain a mean and standard deviation of the quality information collected so far using a statistical method, and the recently received quality information value is the standard deviation. The period of the sync burst is determined differently by dividing into three groups according to how much difference occurs and how the modulation and code values currently used by the terminal differ from the modulation and code values of the next stage. After the current period group of the terminal is extracted, a more detailed process of determining the period group using the received quality information will be described in detail with reference to FIG. 4. When the period group is extracted or determined in the processes S303 and S305, it is compared whether the extracted current period group and the determined new period group are the same (S307). As a result of the comparison, if the same, the period group of the terminal is maintained as the current period group (S317). However, if it is not the same, the period of the current group of the terminal and the period of the new group are compared (S309). As a result of the comparison, if the period of the current group is greater than the period of the new group, the period group of the terminal is designated as a new period group. , Store the specified time in the group (S313, S315). If the period of the current group is not greater than the period of the new group, it is checked whether the time designated for the current group has expired (S311). As a result of the check, if the time specified for the current group has not expired, the period group of the terminal is maintained as the current period group (S317). In addition, when the time specified for the current group expires in step S311, the cycle group of the terminal is designated as a new cycle group, and the times designated for the group are stored (S313 and S315).

4 is a flowchart illustrating a process of determining a period group of UEs by a base station according to an exemplary embodiment of the present invention.

As shown, the present invention changes the sync burst period to quickly compensate for the change in the receiving environment of the terminal. As such, in order to change the sync burst period, each terminal is divided into groups according to the period. That is, the base station collects quality information transmitted by the terminal and statistics it. Then, the average value and the standard deviation of the quality information transmitted so far by the terminal are obtained by using the statistical value, and how much difference has occurred between the recently received quality information and the standard deviation, and the modulation currently used by the terminal. And the quality information corresponding to the code is divided into three groups according to the difference between the quality information of the modulation and code values of the next stage. After each terminal is divided into groups according to a cycle, the base station receives quality information transmitted for each terminal.

The base station calculates an average CNI _mean of quality information transmitted for each terminal by using Equation 1 below (S401).

In Equation 1, n is the nth collected data of the quality information CNI, and l is the recently collected quality information value. After the average of the quality information is calculated, a standard deviation σ is calculated using Equation 2 below (S403).

Through Equation 2, it can be seen that quality information of l-n + 1 is reflected. As such, after the average CNI _mean and the standard deviation σ are calculated, when the new quality information (ie, recently received quality information) is received, the base station receives the received recently received quality information CNI _l. ) and the difference (in average _(mean CNI) | _l CNI -CNI _mean | calculates a) (S405).

Comparing the difference (| CNI _l -CNI _mean |) calculated in the process (S405) and the value (σ × W ₁ ) multiplied by the standard deviation and the weight (W ₁ ) as shown in Equation 3 below, If the calculated difference (| CNI _l -CNI _mean |) is smaller than the product of the standard deviation and the weight W ₁ , the terminal is designated as three groups (S407 and S409). If the difference calculated in step S409 is less than the product of the standard deviation and the weight W ₁ , the group to which the terminal belongs is not changed, which means that the transmission and reception environment of the terminal is not changed.

The weight W ₁ may be set to another value to adjust the sensitivity of the difference between the average and recently received quality information. For example, if the weight W ₁ is greater than or equal to 1, the difference between CNI ₁ and CNI _mean is insensitive to the standard deviation σ, and if less than 1, it is sensitively reflected. That is, if the weight W ₁ is greater than or equal to 1, it is true only when the difference between CNI _l and CNI _mean is relatively large, and is reflected to change the sync period group, but if less than 1, the difference between CNI _l and CNI _mean Otherwise, it may be applied to change the sync period group because it is sensitively reflected even if it is relatively small.

If the calculated difference in step S407 is equal to or more than the product of the standard deviation and the weight W ₁ , the difference between the quality information value corresponding to the latest modulation and coding value and the quality information value corresponding to the current modulation and coding value To calculate (S411). The recent modulation and code values are modulation and code values of recently received quality information CNI _l , and the current modulation and code values are modulation and code values of current quality information CNI _cur . If the difference (| CNI _l -CNI _cur |) calculated in the process (S411) is less than the CNI _diff x weight (W ₂ ), the terminal is designated as two groups, and when the difference is greater, the terminal is designated as one group (S413-S417). ). The weight W ₂ is a weight for sensitivity adjustment. In addition, the CNI _diff is a difference between the current quality information value (CNI _cur ) used to determine the current modulation and code value and the quality information value used to determine the previous modulation and code value of the current modulation and code value, and the current modulation and The CNI _diff represents the difference between the current quality information value (CNI _cur ) used to determine the code value and the quality information value used to determine the next modulation and coding value of the current modulation and coding value, where CNI _diff is CNI _l and CNI _cur. If the difference is negative, the difference is between the CNI of the current modulation and code and the CNI value of the previous step (lower step) and the code, and if it is positive, the CNI of the current modulation and code and the next step (upper step) The difference is the CNI value of the code. If the period group is designated as 1 in step S417, the group has a high variability in quality of the reception channel of the corresponding UE, and also sets the sync burst period to be short.

If one terminal is designated in step S417, since there is a possibility that the vicinity of the region where the corresponding terminal is located may change to the same state, the terminal located near the terminal belonging to one group is extracted without being the designated one group. (S419). It checks whether the extracted terminal is currently 3 groups, stores the specified time, and designates it as 2 groups.

In other words, the method for determining the period group of the terminal by the base station according to the invention calculates the average and standard deviation of the quality information transmitted for each terminal, if the latest quality information of the terminal is received after the average and standard deviation is calculated The difference between the average value and the latest quality information is calculated. If the calculated difference is less than the value of the standard deviation x first weight W ₁ , the terminal is designated in three groups, and if the calculated difference is equal to or greater than the value of the standard deviation x first weight W ₁ . In addition, the difference between the recently received quality information value and the quality information value corresponding to the modulation and code of the current quality information is calculated. If the difference of the calculated quality information is less than (CNI _diff ) × 2nd weight (W ₂ ), the terminal is assigned to 2 groups, and if the difference of the calculated quality information is greater than (CNI _diff ) × 2 of the second weight, 1 Assign terminals to groups.

That is, the base station calculates the average and standard deviation of the quality information for each terminal, and then compares the modulation and the code. As described above, after calculating the average and standard deviation of the quality information for each terminal, the difference between the calculated average and the value of the received quality information is calculated and designated as 3 groups if the difference is not large. The modulation and code are compared with the determined quality information values. If the quality information that determines the current modulation and code does not have a large difference compared to the quality information corresponding to the modulation and code values corresponding to the up or down steps, the quality information value is designated as 2 groups. Specify. When the period group of the terminal is designated as one group, the base station sets the period of the sync burst of the terminal to be short since the quality variability of the reception channel of the terminal is increased and the modulation and code are likely to be changed. In addition, since the vicinity of the region where the corresponding terminal is located may change to the same state, the neighboring terminals are extracted to change the group of the extracted terminals. That is, the extracted terminal is designated as 2 groups in the case of 3 groups having a small difference in current quality information, and a difference in modulation and code.

Claims (9)

A method for changing a sync burst period of a base station in a satellite communication system,
Receiving one or more quality information from the terminal;
Extracting a group corresponding to a current transmission period of the terminal by using the received one or more quality information;
Determining a group corresponding to a new transmission period of the terminal by using the quality information received after the group is extracted;
Comparing the current transmission period with a new transmission period and checking whether the current transmission period expires;
And when the current transmission period expires, designating a current transmission period of the terminal as the new transmission period.
The method of claim 1, wherein the checking process
A base station comprising the step of designating a current transmission period of the terminal as the new transmission period when the period of the extracted group is greater than the period of the determined group by comparing the period of the extracted group with the size of the period of the determined group. To change the sync burst period
The method of claim 1, wherein the determining process
Calculating a difference between an average of the received quality information and the received one or more quality information after the group is extracted;
If the calculated difference is equal to or greater than the product of the first weight and the standard deviation of the received one or more quality information, the quality information value corresponding to the latest modulation and coding value of the terminal and the current modulation and coding value of the terminal Calculating the difference between the quality information values,
And differently designating a group of the terminal according to the calculated difference of the quality information value and the size of the first threshold value.
The method of claim 3, wherein the first weight is
And a different value according to a difference between an average of the received quality information and the received one or more quality information after the group is extracted.
4. The method of claim 3, wherein the first threshold is
A value obtained by multiplying a second weight value for adjusting sensitivity by a difference value of a quality information value corresponding to the current modulation and coding value and a quality information value used to determine a previous modulation and coding value of the current modulation and coding value Or multiplying the difference between the quality information value corresponding to the current modulation and coding value and the difference between the quality information values used to determine a next modulation and coding value of the current modulation and coding value. Way.
A method of grouping terminals of a base station in a satellite communication system,
Calculating a mean and standard deviation using at least one quality information received from the terminal, and calculating a difference between the quality information received after the group is extracted and the mean, and
If the calculated difference is greater than or equal to the product of the standard deviation and the first weight, calculating a difference between the quality information value received after the group is extracted and the quality information value used to determine the current modulation and coding value of the terminal. Process,
If the calculated difference is greater than or equal to a first threshold, the period of the sync burst transmitted to the terminal is designated as a first group that is set to be short. If the calculated difference is less than the first threshold, the sink is transmitted to the terminal. Designating a second group having a long period of burst;
And after the terminal is designated as the first group or the second group, changing the period of the terminal adjacent to the designated first group to a group with a short period of the sync burst.
The method of claim 6, wherein if the calculated difference is less than the product of the standard deviation and the first weight, the group to which the terminal belongs is not changed.
7. The method of claim 6, wherein the first threshold is
A value obtained by multiplying a second weight for adjusting sensitivity and a difference between a quality information value corresponding to the current modulation and coding value and a quality information value used to determine a previous modulation and coding value of the current modulation and coding value, or And multiplying the quality information value corresponding to the current modulation and coding value by the difference of the quality information value used to determine a next modulation and coding value of the current modulation and coding value.
The method of claim 6, wherein the first weight is
And having a different value according to a difference between the average of the received quality information and the received one or more quality information after the group is extracted.

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