KR20000019680A - Method for re-transmitting the enhanced call processing message of telecommunication system - Google Patents

Abstract

PURPOSE: A method for re-transmitting a call processing message transmits again an invalid cell processing message at a present time point. CONSTITUTION: In the enhanced call processing message retransmission method in a telecommunication system, a upper hierarchy divides a call processing message into a new information transmission message and a general call processing message, displays the call processing message on a message state block, and transmits it to a link processing control hierarchy. A link processing control hierarchy receives the message state block, and checks whether the message state block is a new information transmission message. If the new information transmission message is determined, the method checks whether a previous new information transmission message is at a re-transmission. If the re-transmission state is determined, the method stops (209) a previous new information transmission message retransmission step, and transmits (211) a newly generated new information transmission message. Thereby, a waste of a common channel is prevented, and a power consumption is prevented.

Description

Improved Call Retransmission Method in Mobile Communication System

The present invention relates to a method for transmitting a call processing message in a code division multiple access mobile communication system, and more particularly, to a method for retransmitting a call processing message that is no longer valid at present.

In general, the CDMA mobile communication system has been developed from the IS-95 standard, which mainly focuses on voice, to the IMT-2000 standard, which enables high-speed data transmission as well as voice. In the IMT-2000 standard, services such as high quality voice, moving picture, and internet search are possible. In order to receive the service, the terminal and the base station exchange messages to establish and release a call from the terminal to the destination. Such messages are commonly referred to as call processing messages. Call processing messages generated in the IS-95 method are processed sequentially using a typical Selective Repetition Algorithm.

The call processing message processing method in the Selective Repetition Algorithm will be described in detail with the case where two call processing messages of M1 and M2 exist and the M1 call processing message is generated earlier than the M2 call processing message. It is assumed that M1 and M2 are different messages only at the time of generation of the same kind.

In the selective repetition algorithm, when an acknowledgment (ACK) for the previously generated M1 call processing message is not received from the destination (Peer), the M1 call processing message is retransmitted repeatedly for a predetermined number of times. If the same type of M2 call processing message is to be transmitted during the retransmission of the M1 message, the M2 call processing message proceeds to the same retransmission process as M1, and the above M1 call processing message is retransmitted until it receives a response or reaches the maximum number of retransmissions. Repeat. At this time, the M1 message contains contents that are no longer valid, but the current algorithm is to proceed with the retransmission process regardless of this.

As described above, the conventional call processing message retransmission procedure is identically applied to all call processing messages requiring a response, and thus retransmitted repeatedly until a response is received for a message that is no longer valid at a specific time. There was a problem of wasting.

Accordingly, an object of the present invention is to provide an efficient call processing message transmission method in a mobile communication system which stops repetitive retransmission for an invalid call processing message and transmits a currently valid call processing message.

In order to achieve the above object, the present invention provides a method for transmitting a call processing message in a mobile communication system, wherein when a call processing message is generated, a higher layer divides it into a latest information transfer message and a general call processing message, and forms the call processing message. In the message status block, the message status block transmission process of transmitting a message status block to the link processing control layer and determining whether the link processing control layer receives the message status block and whether the message is the latest information transmission message are performed. If it is determined whether the latest information delivery message is in the retransmission state and is in the retransmission state, the process of transmitting the latest information delivery message for stopping the previous retransmission of the latest information delivery message and transmitting the newly generated latest information delivery message.

1 is a diagram showing a call processing protocol stack structure of a mobile communication system to which the present invention is applied;

2 is a flowchart illustrating a call processing message retransmission method in a mobile communication system according to an exemplary embodiment of the present invention.

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.

In the IMT-2000 call processing message, only the most recent message is available due to the "mobility" of the terminal. For example, there is a case where the location information transmitted to the previous base station is changed because the terminal moves between cells or is located at a cell boundary point. In the present invention, a call processing message having such characteristics is defined as a "latest information delivery message". The latest information transmission message may include a pilot strength measurement message (hereinafter referred to as a "PSMM") and a positioning related message informing a user of location information to be defined in an IMT-2000 system. .

In order to transfer a call processing message between a terminal and a base station in a mobile communication system, a three-layer message (L3 SDU) to be delivered to a destination (Peer) through a signaling protocol stack and a protocol stack, and a protocol stack Components such as physical channels corresponding to the lower level are required. Components required for an embodiment of the present invention include a message control and status block (MCSB) hereinafter referred to as a three-layer message belonging to the latest information delivery message group and control information for the three-layer message. Block "), the third layer that generates a message in the call processing protocol stack, and the link access control layer (LAC-hereinafter referred to as" LAC layer ") to perform retransmission, especially in the LAC layer. to be. FIG. 1 is a diagram illustrating a protocol stack structure of a mobile communication system, and with reference thereto, the operation of each layer of the protocol stack according to the present invention will be described.

Reference numeral 100 in the drawings is a control plane (Control Plane), 110 is a data plane (Data Plane). The control plane 100 controls the overall operation of the data plane 110. The control plane 100 includes a resource controller 101 and a layer controller 103. The resource controller 101 has a resource environment database 102 for storing resource environment data, manages the resource environment data, is involved in the allocation and release of resources, and between various physical layer interface control function entities. It acts as an arbitrator. The layer controller 103 controls the protocol layer. The layer controller 103 is composed of an L3 (layer 3) signaling controller 104, a functional entity 105, and an LAC controller 106. The L3 (Layer 3) signaling controller 104 controls layer 3 112 of the data plane 110, and the LAC controller 106 controls LAC layer 115. The controller 105 controls the L3 signaling controller 103 and the LAC controller 106.

The data plane 110 includes a layer 2 114 and a layer 3 112. In the present invention, the layer 3 111 is the same as the upper layer 112 in the present invention. The layer 2 114 includes a link access control layer 115 (hereinafter referred to as a "LAC layer") 115 and a medium access control layer (hereinafter referred to as a "MAC layer") 120. The layer 3 111 and the layer 2 114 exchange signaling by a service access point 113 (hereinafter, referred to as a “SAP”). The LAC layer 115 includes an authentication sublayer 116, an ARQ sublayer 117, an address sublayer 118, and an LAC utility sublayer 119.

The upper layer 112 provides packet data, voice data, circuit data, and the like, and performs signaling operations of various layers (layers higher than the link layer in the OSI hierarchy). In particular, the upper layer 112 performs a call mobility control operation related to call processing. That is, according to the present invention, the upper layer 112 transmits a three-layer message and a message status block, which are call processing messages for call processing. If the newly generated call processing message is the latest information delivery message, it is indicated in the message status block to indicate that the call processing message is the latest information delivery message, and is commanded to the lower layer through SAP 113. According to the present invention, the message status block includes a flag (hereinafter referred to as "call processing message classification flag") indicating that the call processing message is the latest information delivery message.

The authentication sublayer 116 of the LAC layer 115 is a sublayer that processes a field for terminal authentication. The address sublayer 118 exists only in a common channel and performs address combination at the transmitting side, address matching at the receiving side, and LAC utility sublayer. 119 combines the message to be sent to the MAC, extracts the necessary information from the message received from the MAC, ARQ sub-layer 117 is the ability to respond when receiving a message requesting a response (Piggyback ack), the response is sent when sending a message requesting a response It performs the function of retransmission until, and under the control of the LAC controller 106 performs the overall operation according to the present invention, which will be described in detail with reference to FIG.

2 is a flowchart illustrating a call processing message transmission method in a mobile communication system according to an exemplary embodiment of the present invention.

First, when the upper layer 112 transmits the three-layer message and the message status block, which are call processing messages, the LAC controller 106 detects the three-layer message and the message status block in step 201 and requests the response to the ARQ sublayer 117. If control is passed, the ARQ sublayer 117 proceeds to step 203 and examines the call processing message classification flag of the message status block to determine whether the layer 3 message, which is the call processing message, is the latest information transfer message. If it is determined that the call processing message is the latest information delivery message, the ARQ sublayer 117 proceeds to step 205, and if not, the process proceeds to step 213.

In step 205, the ARQ sublayer 117 determines whether a previous call processing message is stored. In step 205, if the previous call processing message is already stored, the ARQ sublayer 117 proceeds to step 207, and if not, proceeds to step 211.

In step 207, the ARQ sublayer 117 determines whether the stored message is the same type as the new latest information delivery message, and proceeds to step 209 if the latest information delivery message of the same type is used. .

In step 209, the ARQ sublayer 117 resets the retransmission state of the previous latest information delivery message, that is, stops retransmission of the previous latest information delivery message. In step 211, the message serial number MSG_SEQ is assigned and stored in the new latest information delivery message. If a serial number is allocated and stored in the latest information transmission message, the ARQ sublayer 117 proceeds to step 213 to proceed with the message retransmission process and repeats the process when a new call processing message is generated.

As described above, the present invention has the advantage of preventing unnecessary waste of retransmission for messages having only the latest information and preventing waste of resources on the common channel and reducing power consumption.

Claims (3)

An improved call processing message retransmission method in a mobile communication system, A process of transmitting a message status block in which a higher layer classifies the latest information transfer message into a general call processing message and displays the type of the call processing message in a message status block and transmits it to a link processing control layer when a call processing message is generated; The link processing control layer receives the message status block to determine whether the message is the latest information delivery message. If it is the latest information delivery message, the link processing control layer determines whether the previous latest information delivery message is in the retransmission state. Discontinuing the message retransmission process and transmitting a previous latest information delivery message for transmitting the newly generated latest information delivery message. The method of claim 1, wherein the latest information transmission message transmission process, A first step of receiving the message status block and determining whether the message is a latest information delivery message; A second step of checking whether a previous call processing message is stored if the latest information transfer message is stored; and if the general call processing message is a general call processing message retransmission process; As a result of the check, if the latest information transfer message and the previous call processing message is stored, it is determined whether the stored call processing message is the same type as the latest received information transfer message. A third step of processing message retransmission; As a result of the determination, if the latest information delivery message and the same type) latest information delivery message, the stored previous serial information delivery message retransmission process is interrupted, the stored message serial number is deleted, and the newly generated latest information delivery message is deleted. And a fourth step of allocating and storing a new serial number and then retransmitting the message. The method of claim 1, wherein the type classification of the call processing message is distinguished by a flag in the call processing message status block.