KR100856199B1 - Method for managing traffic channel supporting location based service in wireless communication system - Google Patents

Abstract

In a channel management method for a location inquiry service of a mobile communication system, a position determining entity (PDE) transmits a message including a first identifier to an exchange when an initial position lookup message is generated, and the exchange is connected to the terminal by the first identifier. After allocating a channel for communicating a message with the PDE, a data burst is communicated between the PDE and the terminal through the allocated channel, and when the location lookup message is generated with the channel assigned, the PDE identifies a second identifier. Sending a message to the exchange, wherein the exchange communicates a data burst between the PDE and the terminal through the assigned channel; and wherein the message includes a third identifier at the end of the location inquiry of the PDE in the communication process. Is transmitted to the exchange, and the exchange recovers the allocated channel by the third identifier. It characterized by constituted by any process.

Location search, channel management, action code

Description

How to manage traffic channel in mobile communication system supporting location inquiry {METHOD FOR MANAGING TRAFFIC CHANNEL SUPPORTING LOCATION BASED SERVICE IN WIRELESS COMMUNICATION SYSTEM}             

1 is a flowchart illustrating a procedure of allocating a traffic channel for transmitting a data burst in a conventional mobile communication system.

2 is a flowchart illustrating a procedure for querying a location using a proposed action code according to an embodiment of the present invention.

The present invention relates to a traffic channel management method of a mobile communication system, and more particularly, to a traffic channel management method supporting location lookup.

In general, when a base station of a mobile communication system exchanges a data burst message with a terminal in order to support a location based service (hereinafter referred to as LBS), SMS is used. In this case, the SMS has a characteristic that a channel to be used varies according to origination, reception, and amount of data to be transmitted. Since the LBS has a large amount of data to transmit, most of the LBS uses a traffic channel. In order to allocate the traffic channel once, the procedure shown in FIG. 1 is followed. 1 is a flowchart illustrating a procedure of allocating a traffic channel for transmitting a data burst between a base station controller (hereinafter referred to as a BSC) and a positioning server (hereinafter referred to as a position determining entity (hereinafter referred to as a PDE)).

Referring to FIG. 1, in step 111, the PDE sends a Short Message Delievery Point To Point (SMDPPP) message to an exchange (MSC) to start location lookup. The exchange recognizes that the called terminal is in the idle state (IDLE) state in step 113, and requests a paging to the BSC in order to allocate the traffic channel. Thereafter, the BSC receives a paging response from the terminal in step 115. Thereafter, in steps 117 and 119, traffic channels are allocated during the exchange with the BSC. Subsequently, in step 121, the exchange and the BSC transmit a data burst to the terminal, and the terminal receiving the data transmits a response message (Layer 2 Ack) to the exchange in step 123.

ActionCode is a parameter that indicates what action should be taken by the server that received the message containing the action code. If the action code is '1', the UE exchanges the layer 3 response message (Layer3 Ack) in step 125. If the action code is '21', this process can be omitted. The exchange then sends a response message of SMDPP to the PDE in step 127. In operation 129, the exchange sends a message to the terminal to recover the channel to terminate the traffic channel. In step 131, the terminal completes channel recovery.

While performing the above process, the first SMS procedure is terminated.

In order to continue exchanging location inquiry data with the terminal, the PDE sends another SMDPP message to the switch (MSC) in step 133. The switch recognizes that the called terminal is in an idle state in step 135 and allocates a traffic channel. In order to do this, a paging request is made to the BSC. The subsequent procedure is the same as the procedure from step 115 to step 131.

As described above, in order to transmit one SMS message while the terminal is idle, one traffic channel should be allocated. In the conventional message transmission for the LBS, the SMS message is used. Since the message for the LBS has a large amount of data, the allocation and recovery of traffic channels is repeated as many as the number of SMS messages required for one-time location inquiry. . For this reason, the conventional location lookup method has a problem that the load of the channel and the MSC on the air link (Air) is wasted. On the other hand, how many SMS messages are needed to perform a single location query may depend on the location determining algorithm (hereinafter referred to as LDA) used by the PDE. Therefore, there is a problem that an inefficiency in which a traffic channel should be allocated for each number of data bursts to be transmitted.

Accordingly, an object of the present invention is to provide a method for effectively managing a traffic channel during location lookup in a mobile communication system.

Another object of the present invention is to provide a method for processing a location inquiry with only one traffic channel assignment in a mobile communication system.

In a channel management method for location lookup service of a mobile communication system according to an embodiment of the present invention for achieving the above object, a PDE (Position Determining Entity) when a first location lookup message occurs, the message including a first identifier to the exchange Transmitting a data burst between the PDE and the terminal through the assigned channel after the exchange allocates a channel for communicating a message with the terminal by the first identifier. Transmitting a message including the second identifier to the exchange when the location lookup message occurs in a state, and the exchange communicating a data burst between the PDE and the terminal through the assigned channel; At the end of the location inquiry, the PDE sends a message to the exchange including a third identifier. It characterized the group constituted by any process of recovering the channels allocated by the third identifier.

In addition, in a channel management method for a location inquiry service of a mobile communication system, a PDE (Position Determining Entity) transmits a message including a first identifier to an exchange when an initial position lookup message is generated, and the exchange is connected to the terminal by the first identifier. Assigns a channel for communicating a message to the terminal, the exchange sends a message including the first identifier to the terminal, the terminal responds to the exchange, and data between the PDE and the terminal over the assigned channel. Communicating a burst, and when the PDE generates a lookup message, transmits a message including a second identifier to the exchange, the exchange transmits a message including the second identifier to the terminal, and the terminal exchanges the message. And communicate a data burst between the PDE and the terminal through the assigned channel. And a message including a fourth identifier to the exchange when the PDE generates a lookup message, the exchange transmits a message including the fourth identifier to the terminal, and the terminal assigns the message without a response. Communicating a data burst between the PDE and the terminal through the established channel; and during the communication process, a message including a third identifier is transmitted to the exchange when the PDE ends the location inquiry, and the exchange sends a message to the terminal. And the terminal responds, transmits a burst of data through the assigned channel, and the exchange recovers the allocated channel by the third identifier.

DETAILED DESCRIPTION A detailed description of preferred embodiments of the present invention will now be described with reference to the accompanying drawings.

In the embodiment of the present invention, the mobile communication system allocates one traffic channel and processes the procedure when inquiring a location, and adds the use of an action code among the parameters of the SMDPP. Currently, the action code used to support the LBS is used '1' and '21', but in the embodiment of the present invention will be described as additionally using the action code '16' and '18' Will be.

The standard of SMS is to allocate one traffic channel in case of large amount of data to be transmitted in order to transmit one SMS. Since most LBS services use traffic channels, an embodiment of the present invention allocates one traffic channel to support LBS and transmits multiple SMS messages. In this case, since the start and end of the LBS is managed by the PDE, the action code parameters of the SMDPP message transmitted by the PDE are defined and used as shown in Tables 1 and 2. Table 1 below shows SMDPP INVOKE Paramters and Table 2 shows the definition of action code values.

 Filed  Value  Type  Reference  Notes  Identifier  SET [NATIONL 18 M 6.3.2.1  Length  variable octets M 6.3.2.1 contents  SMS_BearerData M 6.5.2.124  SMS_TeleserviceIdentifer M 6.5.2.137  ActionCode 0 6.5.2.2  skip

Value (decimal)  meaning  Remarks One  Call proceeding                                               Second identifier 16  Release Resources (e.g., A-key, traffic channel)  Third identifier 18  Allocation Resources (e.g., Multiple message traffic channel delivery)  First identifier 21  Do not Wait For MS User Level Response  4th identifier

By using the action code among the parameters of the SMDPP message of Table 1, it is possible to efficiently manage the traffic channel. Currently, only the action codes '1' and '21' are used for the LBS, but in the embodiment of the present invention, the action codes '16' and '18' are used for traffic channel management as described above. The meaning of each value of the action code is as follows. Here, the action code '18' is called a first identifier, the action code '1' is called a second identifier, the action code '16' is called a third identifier, and the action code '21' is a fourth identifier It is called growing up.

Value 1: Call Proceeding-Sends BearerData to UE and receives Layer 3 response from UE.

Value 16: Release Resources-Delivers DataBurst message to UE and receives Layer 3 response from UE. The MSC recovers the channel. At this time, if the channel is in a general call, the channel is not restored.

Value 18: Allocation Resources-Indicates that the PDE is the first SMDPP to start location lookup, sending BeaerData to the UE and receiving a Layer 3 response from the UE. If the current terminal is in a call state, the DataBurst is transmitted using the channel being used. If the terminal is in Idle state, the channel is allocated and the DataBurst is transmitted.

Value 21: Do Not Wait For MS User Level Response-Sends BearerData to the UE and does not receive a Layer 3 response from the UE.

Although an embodiment of the present invention exchanges multiple DataBurst messages with a terminal for location inquiry, the terminal does not drive the first location inquiry message. In addition, even when the terminal invokes DataBusrt in the process of exchanging DataBurst messages between the terminal and the MSC, the terminal always uses the traffic channel in use. 2 illustrates a procedure for performing location inquiry using a newly defined action code according to an embodiment of the present invention.

Referring to FIG. 2, first, when the PDE intends to transmit SMDPP for starting a location inquiry, the PDE uses action code '18'. Then, a traffic channel for transmitting data for location inquiry is allocated between the exchange and the terminal, and data is transmitted through the assigned channel. In this case, the procedure proceeds from step 212 to step 222. In the above state, when further data transmission for location inquiry is required, the PDE uses action code '1', and in this case, data transmission is performed between the PDE and the terminal. In this case, the procedure is the same as the steps 232 to 232 and 240 to 234. In addition, when the PDE transmits data to the terminal and does not require a response from the terminal, the PDE uses action code '21'. In this case, the procedure proceeds from step 242 to step 248. If the PDE then terminates the location lookup procedure and recovers the assigned traffic channel, the PDE uses action code '16'. Then, the exchange channel recovers the traffic channel that used to transmit location lookup data. In this case, the procedure is performed as in steps 250 to 260 below.

First, let's look at how PDE allocates traffic channels for location lookup.

The PDE sends a first SMDPP message to the exchange to initiate location lookup in step 212. At this time, the action code allocates a traffic channel using '18'. The exchange receiving the SMDPP message recognizes that the action code of the received message is '18', and allocates a traffic channel with the terminal in step 214. At this time, if the terminal is in the idle state, the traffic channel is allocated, and if the terminal is in a busy state, the allocated traffic channel is used. Thereafter, the exchange transmits a data burst to the terminal in step 216, and the terminal receiving the data transmits a layer 2 response message to the exchange in step 218. In step 220, the terminal transmits a layer 3 response message (Layer 3 Ack) to the exchange. The exchange then sends a response of the SMDPP to the PDE in step 222. At this time, the exchange sends the data received from the terminal to SMS_Bearer Data.

In step 212 to step 222, when the location inquiry request is assigned the traffic channel using the action code '18', and communicates the data for LBS location inquiry.

Secondly, after the traffic channel is allocated, data for location lookup is transmitted through the traffic channel allocated between the PDE and the UE, and the operation when the UE transmits the response message will be described.

The PDE then sends a SMDPP message back to the MSC in step 224. At this time, the action code exchanges data with the terminal using '1'. The exchange receiving the SMDPP message transmits a DataBurst to the UE using the traffic channel already allocated in step 226. Then, the terminal transmits the Layer 2 Ack to the exchange in step 228 and the Layer 3 Ack to the exchange in step 230. The exchange then sends a response of the SMDPP to the PDE in step 232. At this time, the data received from the terminal is sent to SMS_Bearer Data.                     

In addition, if there is data that the terminal wants to transmit to the PDE, the terminal transmits data using the traffic channel already allocated in step 234. At this time, the exchange receiving the data received from the terminal transfers it to the PDE. Then, if there is data to be transmitted to the terminal, the PDE sends the data to the exchange in SMS_BearerData in step 238. When the exchange receives the smdpp response, the exchange transmits a DataBurst to the UE in step 240 if SMS_BeaerData is included. If SMS_BearerData is not present, this process can be omitted.

Third, after the traffic channel is allocated, data for location lookup is transmitted through the traffic channel allocated between the PDE and the UE, and the operation when the UE does not transmit the response message will be described.

The PDE sends SMDPP to the exchange in step 242. At this time, ActionCode uses '21' to prevent the exchange from waiting for Layer 3 Ack from the UE. In operation 244, the exchange transmits a DataBurst to the terminal. Accordingly, the terminal transmits a Layer 2 Ack to the exchange in step 246. The exchange thus sends a smdpp response to the PDE in step 248.

Fourth, the procedure of recovering the assigned traffic channel to terminate the location lookup communication.

The PDE sends SMDPP to the exchange in step 250. In this case, the action code '16' is used to cause the exchange to recover the traffic channel. The exchange sends a DataBurst to the terminal at step 252, the terminal transmits a Layer 2 Ack to the exchange in step 254, and sends a Layer 3 Ack to the exchange in step 256. The exchange then transfers the DataBurst message received from the terminal to the PDE in step 258. In addition, the exchange recognizes that the ActionCode is '16', and restores the traffic channel in step 260. At this time, if the user is in a general call, channel recovery is not performed.

As described above, when the LBS is supported by the mobile communication system, a traffic channel may be allocated when an initial location inquiry is required, and a continuous operation of data for location inquiry may be performed through the assigned traffic channel. Therefore, since the traffic channel is allocated once during the position inquiry, the channel resources of the air interface can be used efficiently, and the load of the exchange can be reduced.

Claims (6)

In the channel management method for the location inquiry service of the mobile communication system, A position determining entity (PDE) transmits a message including a first identifier to an exchange when an initial position lookup message occurs, and after the exchange allocates a channel for communicating a message with the terminal by the first identifier, Communicating a data burst between the PDE and the terminal through a channel; Transmitting, by the PDE, a message including a second identifier to the exchange when a location lookup message occurs with the channel assigned, and the exchange communicating a data burst between the PDE and the terminal through the assigned channel; , In the communication process, the PDE sends a message including a third identifier to the exchange when the location inquiry ends, and the exchange recovers the allocated channel by the third identifier. Traffic channel management method of supporting mobile communication system. The method of claim 1, wherein the communication process when the initial location inquiry message occurs, Sending a message to the exchange including the first identifier indicating that the PDE is the first message to initiate a location lookup; Detects the first identifier from the message including the first identifier received by the exchange and checks the state of the corresponding terminal. If the terminal is in a communication state, allocates a channel currently in use, and if the terminal is idle, a new channel. The process of assigning And wherein the exchange transmits a data burst transmitted from the terminal to the PDE, the traffic channel management method of a mobile communication system supporting location inquiry. The traffic channel management method of claim 2, wherein the channel is a traffic channel. The method of claim 1, wherein the communication process when a location inquiry message occurs with the channel assigned, Transmitting, by the PDE, a message for location lookup and a message including the second identifier to the exchange, Detecting a second identifier from a message including the second identifier received by the exchange, and transmitting a data burst of the terminal received through the allocated channel to the PDE; Traffic channel management method of the mobile communication system. The method of claim 1, wherein the recovering of the channel after the location lookup is performed. Sending, by the PDE, a message for location lookup and a message including the third identifier to the exchange, Detecting a third identifier from a message including the third identifier received by the exchange, and transmitting a data burst of the terminal received through the assigned channel to the PDE; And wherein the exchange recovers the allocated channel from the terminal by the third identifier. In the channel management method for the location inquiry service of the mobile communication system, A Position Determining Entity (PDE) transmits a message including a first identifier to an exchange when an initial position lookup message occurs, the exchange allocates a channel for communicating a message with the terminal by the first identifier, and the exchange assigns the first message to the exchange. Transmitting a message including an identifier to the terminal, the terminal responding to the exchange, and communicating a data burst between the PDE and the terminal through the assigned channel; The PDE transmits a message including a second identifier to the exchange when the location lookup message occurs, the exchange transmits a message including the second identifier to the terminal and the terminal responds to the exchange; Communicating a data burst between the PDE and the terminal through a channel; When the PDE generates a lookup message, the PDE transmits a message including a fourth identifier to the exchange, and the exchange transmits a message including the fourth identifier to the terminal, and the terminal transmits a message through the assigned channel without a response. Communicating a data burst between the PDE and the terminal; In the communication process, the PDE transmits a message including a third identifier to the exchange when the location inquiry ends, the exchange transmits a message to the terminal, the terminal responds, and bursts data through the assigned channel. Transmitting, wherein the exchange recovers the allocated channel by the third identifier.

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