KR100678188B1 - Method and apparatus for controlling congestion of reverse link in mobile communication system - Google Patents

Abstract

The present invention provides a mobile communication system including a base station wirelessly connected to a plurality of mobile terminals, in order to control congestion of the reverse link, the base station is configured to increase the speed of calls established between the plurality of mobile terminals and the base station through a control channel. A first control message for control is transmitted every first transmission period and congestion information is received from the destination of the calls. In addition, the base station generates a second control message for controlling the speed of the calls according to the congestion information, and the first base station every second transmission period having a period shorter than the first transmission period through the control channel 2 is characterized by transmitting a control message. Therefore, according to the present invention, the efficiency of the reverse link can be further improved by newly defining a control message having a transmission period shorter than that of the conventional control channel and controlling congestion of the reverse link.

Reverse link, rate control, control channel, control message, additional control message, packet processor, BroadcastReverseRateLimit

Description

METHOD AND APPARATUS FOR CONTROLLING CONGESTION OF REVERSE LINK IN MOBILE COMMUNICATION SYSTEM}

1 illustrates a control channel of a reverse link in a mobile communication system;

2 is a diagram illustrating an operation of controlling congestion of a reverse link by transmitting a control channel from a base station to a mobile terminal in a typical mobile communication system;

3 illustrates an apparatus for controlling congestion of a reverse link in accordance with an embodiment of the present invention;

4 illustrates a call processing procedure for transmitting a control message to control congestion of a reverse link according to an embodiment of the present invention;

5 illustrates the operation of a base station for controlling congestion on the reverse link in accordance with an embodiment of the present invention.

The present invention relates to a method and apparatus for improving the efficiency of a reverse link in a mobile communication system, and more particularly, to a method and apparatus for improving reverse link efficiency by controlling congestion of a reverse channel.

In a mobile communication system, a radio channel is required for a call connection between a base station and a mobile terminal. The radio channel may be divided into a forward link channel from the base station to the mobile terminal and a reverse link channel from the mobile terminal to the base station.

The control channel transmitted by the base station to the mobile terminal includes control information of the reverse link. The control channel is transmitted from the base station to the mobile terminal with a cycle of 256 slots, and the packet transmitted through the control channel includes a synchronous capsule packet and an asynchronous capsule packet. Separated by. The structure of the control channel is as shown in FIG.

Referring to FIG. 1, the sync capsule packet, that is, the synchronous control channel capsule packet (SC), is transmitted once during one cycle (256 slots) of a control channel. In addition, the asynchronous capsule packet, that is, the asynchronous control channel capsule packet (AC), is shown at any time during which the synchronous capsule packet is not transmitted during one cycle (256 slots) of the control channel as shown in FIG. It has a transmission timing. That is, during one cycle of the control channel, the sync capsule packet is transmitted once, and the asynchronous capsule packet is transmitted in any slot except for the slot occupied by the sync capsule packet. Here, the sync capsule packet transmits control information about the reverse link. The control information may include information for the base station to control the reverse rate of the mobile terminal in the reverse link.

In FIG. 1, an offset before the sync capsule packet is transmitted performs a congestion control function to prevent all mobile terminals from transmitting the packet at once. This is because each base station periodically transmits a control channel, and if the base station transmits the control channel at the same time, it may cause interference, so an offset is applied to each base station for the sync capsule packet. In other words, to maximize the efficiency by distributing the resources of the base station. The asynchronous capsule packet does not transmit control information, and only a synchronous capsule can transmit control information. Operation of a control channel of a general reverse link for transmitting such control information will be described with reference to FIG. 2.

2 is a diagram illustrating an operation of controlling congestion of a reverse link by transmitting a control channel from a base station to a mobile terminal in a typical mobile communication system.

Referring to the variables defined in the description of FIG. 2, C _i denotes a call with i = 0, 1, 2, ..., n, T denotes a period of 256 slots, that is, a control channel, and U denotes The set of calls to speed up, S is the set of calls with no change in speed, and D is the set of calls to slow down.

In step 201, the base station sets the slot value Slot_Counter to 0, and in step 203, sets the U, S, and D values of the corresponding transmission period. Then, in step 205, the base station increments the slot counter by "1" and proceeds to the next slot (Slot_Counter = Slot_Counter + 1).

In step 207, the base station determines whether the current slot is a transmission period T of the sync capsule packet, that is, a slot to which the sync capsule packet should be transmitted. In this case, if it is not the transmission period T of the sync capsule packet, the process proceeds to step 203 again, and if it is the transmission period T of the sync capsule packet, the process proceeds to step 209 to newly obtain U, S, and D values. Then, in step 211, the base station updates a broadcast reverse rate limit message based on the newly obtained U, S, and D values in step 209, and in step 213, the base station updates the broadcast reverse rate limit message. After the transmission, the process proceeds to step 201 again. Here, the broadcast reverse rate rate limit message includes control information for suggesting a rate limit of the reverse link. The configuration and function of the BroadcastReverseRateLimit (BroadcastReverseRateLimit) message that controls the rate of the reverse link is defined in, for example, the CDMA 2000 High Rate Packet Data (HRPD) air interface specification specified in 3GPP2. Detailed description will be omitted.

However, as described above, the control channel for the reverse link operates in a 256-slot cycle and includes control information for controlling the transmission rate of the reverse link in the sync capsule packet. Therefore, it is difficult to take action on the traffic congestion situation that occurs after the synchronization capsule packet is transmitted from the base station to the mobile terminal. As a result, the probability of generating a cell in which the load of the reverse traffic increases becomes high, and the loss generated thereby causes a decrease in the throughput of the reverse link and causes a transmission delay of the traffic.

Accordingly, an object of the present invention is to provide a method and apparatus for improving reverse link efficiency by controlling congestion of reverse channels in a mobile communication system.

Another object of the present invention is to provide a method and apparatus for defining a new message transmitted over a control channel to control congestion of the reverse link and thereby improving the efficiency of the reverse link.

The method for achieving the object of the present invention, in a mobile communication system comprising a base station that is wirelessly connected to a plurality of mobile terminals, the method for controlling congestion of the reverse link, the base station via the control channel to the Transmitting, by a first control message, a first control message for controlling a speed of calls set between a plurality of mobile terminals and the base station for each first transmission period, and controlled by the first control message by the mobile terminal receiving the first control message; Transmitting packet data to the destination of the call according to the established rate, receiving the congestion information from the destination of the call, and controlling the speed of the calls by the base station according to the congestion information. 2 generating a control message, wherein the base station transmits the first transmission primary through the control channel; Transmitting the second control message every second transmission period having a shorter period, and the packet data is sent to the destination of the call according to the rate controlled by the second control message by the mobile terminal receiving the second control message. It characterized in that it comprises a process of transmitting.

An apparatus for achieving the objects of the present invention is a base station apparatus for controlling congestion of a reverse link through a control channel in a mobile communication system, comprising: a first for controlling the speed of calls of a plurality of mobile terminals in the reverse link; Transmits a control message every first transmission period, receives congestion information from a destination of the calls, and generates a second control message shorter than the first transmission period for controlling the speed of the calls according to the congestion information. A packet processor for transmitting and processing every second transmission period and the first and second control messages generated from the packet processor to the plurality of mobile terminals through the control channel for each of the first and second transmission periods, respectively. And a transceiver for transmitting congestion information received from a destination of the calls to the packet processor. And that is characterized.

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

The present invention described below controls a congestion of reverse traffic generated after a sync capsule packet for controlling a reverse channel transmission rate by creating a new message in a standard scheme for operating a control channel of a mobile communication system. This can be solved by changing the period of transmitting control information in consideration of the traffic load. This content is described below with reference to the accompanying drawings.

3 illustrates an apparatus for controlling congestion of a reverse link in accordance with an embodiment of the present invention.

Referring to FIG. 3, an apparatus of a base station for improving the efficiency of a reverse link includes a reverse traffic from a plurality of calls (Ci; i = 0, 1, 2, 3, 4, ..., N) 110. A first congestion processor 122 for generating a broadcast reverse transmission limit (BroadcastReverseRateLimit) message to control the transmission rate of the reverse link with a congestion algorithm of the modem 121 and the T period (eg, 256 slots) described above. A second congestion processor 123 for generating another broadcast reverse transmission limit message (hereinafter, referred to as an "AuxiliaryBroadcastReverseRateLimit message") using an A-cycle congestion algorithm having a period shorter than the T period according to the present invention. ). In addition, the link efficiency improving apparatus of the base station includes a transmitter 130 for transmitting a packet to the receiver 140 of the corresponding destination.

In the following description, the modem 121 of the base station, the first congestion processor 122 and the second congestion processor 123 are collectively referred to as a packet processor 120 for convenience of description, and the packet processor 120 Receiving congestion information of the corresponding call from the receiver 140 of the destination, and based on the received congestion information, the broadcast reverse transmission limit message or additional broadcast reverse direction to the mobile terminal that is the source of the call 110 according to the slot period. Send a control message containing a transmission limit message.

A method for increasing link efficiency by controlling congestion of a reverse link in a link efficiency improving apparatus of a base station configured as described above will be described with reference to the accompanying drawings.

4 is a diagram illustrating a call processing procedure for transmitting a control message to control congestion of a reverse link according to an embodiment of the present invention.

Referring to FIG. 4, it can be seen that the transmission period of the control message (that is, the additional broadcast reverse transmission limit message) according to the present invention is illustrated as a 128 slot period. The additional broadcast reverse transmission limit message defines a new rate control message for controlling a call rate of a call transmitting backward traffic in addition to transmitting a general synchronous capsule packet.

Specifically, the total transmission period (256 slots) is divided into a transmission period of 128 slots. The packet processor 120 of the base station first transmits a control message for controlling the speed of the calls to the i th call 110 for every 128 slots, and then transmits the i th call 110 at the rate controlled by the control message. Receive data traffic from the reverse link from the

Then, the packet processor 120 of the base station transmits the packet to the receiver 140 of the corresponding destination through the transmitter 130, and then congestion information for the call 110 from the receiver 140 of the corresponding destination. Receive (Congestion Information). Subsequently, upon receiving data traffic from the call 110, the packet processor 120 of the base station transmits the packet to the receiver 140 of the destination.

Thereafter, in the next 128 slots, the packet processor 120 transmits a control message to the i-th call 110 again. When the data rate controlled data is received from the i-th call 110, the corresponding packet is transmitted through the transmitter 130. The packet is transmitted to the receiver 140 of the destination. [0034] FIG. 5 is a diagram illustrating an operation of a base station for controlling congestion of a reverse link according to an embodiment of the present invention.

5 is a diagram illustrating an operation of a base station for controlling congestion of a reverse link according to an embodiment of the present invention.

Referring to FIG. 5, in step 501, the packet processor 120 of the base station sets the slot value Slot_Counter to an initial value of 0, and in step 503, sets a U, S, D value of a corresponding transmission period. As shown in FIG. 2, U denotes a set of calls to increase speed, S denotes a set of calls with no change in speed, and D denotes a set of calls to decrease speed. In step 505, the packet processor 120 increments the slot counter by "1" and proceeds to the next slot (Slot_Counter = Slot_Counter + 1).

In step 507, the packet processor 120 determines whether the transmission period is a slot for transmitting a sync capsule packet, that is, whether a T transmission period of 256 slots has arrived. If it is a slot for transmitting the sync capsule packet, that is, 256 slots, the packet processor 120 newly obtains the U, S, and D values based on the congestion information received from each destination in step 509. Then, in step 511, the packet processor 120 updates a BroadcastReverse Rate Limit (BroadcastReverseRateLimit) message for controlling the transmission rate of the i-th call 110 on the reverse link based on the newly obtained U, S, and D values. In step 513, the updated broadcast reverse rate rate limit message is transmitted to each call.

Operation of steps 501 to 513 is the same as the conventional operation of steps 201 to 213 of FIG. However, in the present invention, the packet processor 120 proceeds to step 515 when the result determined in step 507 is not a slot for transmitting the sync capsule packet, that is, when the slot has not reached 256 slots. AuxiliaryBroadcastReverseRateLimit) It is determined whether the A transmission period in which the message is transmitted has arrived. Herein, the A transmission period is set within a period shorter than the T transmission period of the 256 slots. Referring to FIG. 4, in the present embodiment, the A transmission period is set to 128 slots. If the determination result of step 515 does not indicate the A transmission period, the packet processor 120 proceeds to step 503 again. If the A transmission period arrives, the packet processor 120 proceeds to step 517 and proceeds to step 509. The new values of U, S, and D are obtained in the same way as. Then, the packet processor 120 updates the AuxiliaryBroadcastReverseRateLimit message according to the present invention on the basis of the newly obtained U, S, and D values in step 519, and in step 521, the updated additional broadcast reverse rate. After transmitting the speed limit message to each call, the process proceeds to step 501 again.

As described above, according to the present invention, congestion of traffic can be controlled by transmitting a control message having a shorter period than that of a broadcast reverse rate limit message through a sync capsule packet, that is, an additional broadcast reverse rate limit message. The chances are high that this will shorten the time interval to control congestion. Therefore, the throughput can be increased by performing congestion control in a period shorter than the sync capsule transmission period (256 slots), so the efficiency of the reverse link compared to the method of using one BroadcastReverseRateLimit message as in the conventional standard. Can be further improved.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

As described above, the present invention adds a new control message having a transmission period shorter than that of the conventional control channel to control the congestion of the reverse link, thereby controlling traffic congestion of the reverse link to increase throughput and reduce cell loss. Overall, there is an effect that can increase the efficiency of the reverse link.

Claims (9)

In a mobile communication system comprising a base station wirelessly connected to a plurality of mobile terminals, a method for controlling congestion of a reverse link, Transmitting, by the base station, a first control message for every first transmission period for controlling the speed of calls established between the plurality of mobile terminals and the base station through a control channel; Transmitting, by the mobile terminal receiving the first control message, packet data to a destination of the call according to the speed controlled by the first control message; Receiving, by the base station, congestion information from a destination of the corresponding call; Generating, by the base station, a second control message for controlling the speed of the calls according to the congestion information; Transmitting, by the base station, the second control message every second transmission period having a period shorter than the first transmission period through the control channel; And transmitting, by the mobile terminal receiving the second control message, packet data to a destination of the call according to the speed controlled by the second control message. The method of claim 1, Wherein the first transmission period is 256 slots. The method of claim 1, And the second transmission period is 128 slots. delete A base station apparatus for controlling congestion of a reverse link through a control channel in a mobile communication system, Transmitting and processing a first control message for every first transmission period, receiving congestion information from a destination of the calls, and controlling the speed of the calls according to the congestion information in the reverse link. A packet processor configured to transmit and process a second control message for controlling a second transmission period having a period shorter than the first transmission period; The first and second control messages generated from the packet processor are transmitted to the plurality of mobile terminals through the control channel for each of the first and second transmission periods, respectively, and the congestion information received from the destination of the calls is transmitted. And a transceiver for transmitting to a packet processor. The method of claim 5, wherein the packet processor, A first congestion processor configured to generate and transmit the first control message for each first transmission period; And a second congestion processor configured to generate and transmit the second rate message every second transmission period. The method of claim 5, And the first transmission period is 256 slots. The method of claim 5, And the second transmission period is 128 slots. delete

Images