KR20060124120A - Method for switching from ev-do active data session to 1x traffic state in mobile communication system - Google Patents

Abstract

A method for switching to a 1X traffic channel state from an EV-DO(Evolution Data Only) active data session in a mobile communication system is provided to omit a system access state in a process of switching to the 1X traffic channel state from the active data session, thus a data rate can be increased. An upper network(140) transmits a CDMA(Code Division Multiple Access)2000 1X LAC PDU(Packet Data Unit) to an EV-DO system(130)(S352). The system(130) adds a CAM(Channel Assignment Message) and an ECAM(Extended CAM) to a message ID list of an allowed forward link message, and sends the message to a dual-mode terminal(110)(S354). The terminal(110) sends an allowed forward ACK message to the system(130)(S356). The system(130) transmits an LAC PDU ACK message to the network(140)(S358). The terminal(110) stops transmission in the system(130)(S360), and enters a traffic channel state based on the CAM and the ECAM(S362). The terminal(110) performs a normal call setup procedure(S364).

Description

Method for Switching from EV-DO Active Data Session to 1X Traffic State in Mobile Communication System}

1 is a block diagram schematically illustrating a system in which a conventional dual mode terminal is provided with data service through a CDMA2000 1X system and an EV-DO system;

2 is a flowchart illustrating a process in which a dual mode terminal transitions to a 1X traffic channel state through an system access state in an EV-DO active data session in a conventional mobile communication system;

3 is a flowchart illustrating a process of a dual mode terminal transitioning to a 1X traffic channel state in an EV-DO active data session in a mobile communication system according to an exemplary embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

110: dual mode terminal 120: CDMA2000 1X system

130: EV-DO system 140: upper network

The present invention relates to a method of switching to a 1X traffic channel state in an EV-DO active data session in a mobile communication system. More specifically, the present invention adds a channel assignment message and an extended channel assignment message to the 1X LAC PDU, and the EV-DO system implements the channel assignment message and the extended channel assignment message included in the received LAC PDU in the omnidirectional allow message. The dual mode terminal then transmits to the dual mode terminal and receives the omni-directional grant message. The present invention relates to a method of stopping transmission in the EV-DO system and switching directly to a 1X traffic channel state in an EV-DO active data session.

There are two major synchronous mobile communication systems based on CDMA technology. One of them was CDMA2000, which was originally developed for voice call service, but now supports wireless data service, and supports up to 144 kbps for both forward and reverse directions by increasing the bandwidth of forward and reverse services according to the development of technology. 1X system, and the other is EV-DO (Evolution Data Only) system developed to support only 2.4 Mbps high-speed wireless data service.

CDMA2000 1X and EV-DO systems have slightly different modulation and demodulation schemes, but use the same frequency band and use the same code division multiplexing scheme. Therefore, CDMA2000 1X and EV-DO systems can receive complementary services from CDMA2000 1X and EV-DO systems. Dual-mode terminals or hybrid terminals have been devised to support the system and the EV-DO system simultaneously.

At this time, since both the CDMA2000 1X system and the EV-DO system provide data service, when a user wants to receive data service using such a dual mode terminal, the dual mode terminal is either the CDMA2000 1X system or the EV-DO system. The system should be used to decide whether to receive data services. To this end, a commercially available dual mode terminal is a relatively simple method of selecting a service system according to the configuration of two systems in the region where the dual mode terminal is located and the priority system selection criteria set in the dual mode terminal when a user wants data service. Is using.

1 is a block diagram schematically illustrating a system in which a conventional dual mode terminal is provided with data service through a CDMA2000 1X system and an EV-DO system.

Referring to FIG. 1, in a system in which a dual mode terminal is provided with data service through a CDMA2000 1X system and an EV-DO system, services are complementarily provided from the CDMA2000 1X system 120 and the EV-DO system 130. Dual mode terminal 110 capable of simultaneously supporting CDMA2000 1X system 120 and EV-DO system 130 in order to increase forward and reverse service bandwidth to support up to 144 kbps for both forward and reverse directions. Capable CDMA2000 1X system 120, EV-DO system 130 developed to support only 2.4 Mbps high-speed wireless data service, and PDSN (Packet Data Server Network) to transfer data received from other systems, Mobile Station (MSC) The upper network 140 including a network such as a center).

2 is a flowchart illustrating a process of a dual mode terminal transitioning to a 1X traffic channel state through a system access state in an EV-DO active data session in a conventional mobile communication system.

Referring to FIG. 2, when a dual mode terminal 110 supporting both the CDMA2000 1X system 120 and the EV-DO system 130 is in an EV-DO active data session, a circuit service ( Circuit Service) When the upper network 140 requests, the CDMA2000 1X LAC PDU (hereinafter referred to as the "LA-C PDU") is called a stream layer according to the CDMA2000 Circuit Services Notification Application / Protocol (hereinafter referred to as "EV-DO protocol"). Stream Layer) and transmits to the EV-DO system 130 (S210). This procedure is performed in the slot time of the dual mode terminal 110 during the EV-DO data service, so that the dual mode terminal 110 receives the 1X paging. This is an improvement of the existing procedure of periodically monitoring the system 130 at 1X. Here, if the circuit service is called voice paging, the LAC PDU includes a general page message (General_Page_Message) for 1X paging.

The EV-DO system 130 loads the general page message included in the received LAC PDU in the omnidirectional permission message and transmits it to the dual mode terminal 110 (S220).

The dual mode terminal 110 receiving the omnidirectional allow message stops transmission in the EV-DO system 130 (S230).

Accordingly, the dual mode terminal moves to the CDMA2000 1X system 120 and transmits a paging response message (Paging_Response_Message) to the CDMA2000 1X system 120 (S240).

Upon receiving the paging response message, the CDMA2000 1X system 120 transmits a channel assignment message (CAM: Channel_Assignment_Message) and an extended channel assignment message (ECAM: Extended_Channel_Assignment_Message) to the dual mode terminal 110 (S250).

The dual mode terminal 110 performs a normal call setup procedure (S260).

Here, the LAC PDU includes a CRC field by the segmentation and reassembly (SAR) sublayer of the LAC layer, and includes update overhead information included in the authentication process included in the paging response message and the system access state. It includes. Therefore, the step of transmitting the paging response message in the system access state and the channel assignment message and the extended channel assignment message reduce the data transmission rate and take up unnecessary channel space.

In order to solve the above problem, the present invention adds a channel assignment message and an extended channel assignment message to the 1X LAC PDU, and the EV-DO system omni-directionally allows the channel assignment message and the extended channel assignment message included in the received LAC PDU. The message is sent to the dual mode terminal, and the dual mode terminal receiving the omni-directional permit message stops the transmission in the EV-DO system and switches directly to the 1X traffic channel state in the EV-DO active data session. The purpose is to provide.

In order to achieve the above object, the present invention provides a method for switching to a 1X traffic channel state in an EV-DO Active Data Session (EV-DO) in a mobile communication system, (a) CDMA2000 1X system and EV- When a duplex mode terminal supporting all DO systems is in the EV-DO active data session and a circuit service request occurs, a CDMA2000 1X LAC PDU (hereinafter referred to as 'LAC PDU') in the upper network is called a stream layer. Transmitting to the EV-DO system through a layer); (b) adding the channel assignment message (CAM: Channel_Assignment_Message) and the extended channel assignment message (ECAM: Extended_Channel_Assignment_Message) included in the LAC PDU received by the EV-DO system to the Message ID list of the forwarded allowed message (Allowed_Forward_Link_Message). Transmitting to the dual mode terminal; (c) the dual mode terminal transmitting an omnidirectional grant ACK message corresponding to the response of the omnidirectional grant message to the EV-DO system; (d) the EV-DO system transmitting a LAC PDU ACK message corresponding to the response of the LAC PDU to the upper network; (e) stopping the transmission in the EV-DO system by the dual mode terminal receiving the omnidirectional allow message; (f) entering, by the dual mode terminal, the traffic channel state in the CDMA2000 1X system based on the channel assignment message and the extended channel assignment message; And (g) the dual mode terminal performing a normal call setup procedure.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

3 is a flowchart illustrating a process of a dual mode terminal transitioning to a 1X traffic channel state in an EV-DO active data session in a mobile communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the dual mode terminal 110 supporting both the CDMA2000 1X system 120 and the EV-DO system 130 may provide a circuit service (eg, an EV-DO Active Data Session) during an EV-DO Active Data Session. Circuit Service) When the upper network 140 requests, the CDMA2000 1X LAC PDU (hereinafter referred to as the "LA-C PDU") is called a stream layer according to the CDMA2000 Circuit Services Notification Application / Protocol (hereinafter referred to as "EV-DO protocol"). The stream layer is transmitted to the EV-DO system 130 (S352). Here, the circuit service is characterized in that it includes voice paging. In addition, the LAC PDU includes a channel assignment message (CAM: Channel_Assignment_Message) and an extended channel assignment message (ECAM: Extended_Channel_Assignment_Message).

The EV-DO system 130 adds the channel allocation message and the extended channel allocation message included in the received LAC PDU to the message ID list of the forward allowed message (Allowed_Forward_Link_Message) and transmits them to the dual mode terminal 110 (S354). . In this case, the omnidirectional permission message may be processed and handed over to a signaling layer (1X Layer 3).

The dual mode terminal 110 transmits an omnidirectional permission ACK message corresponding to the response of the omnidirectional permission message to the EV-DO system 130 (S356).

The EV-DO system 130 transmits a LAC PDU ACK message corresponding to the response of the LAC PDU to the upper network 140 (S358). Here, the upper network 140 includes a packet data server network (PDSN), a mobile station center (MSC), and a base station center (BSC).

The dual mode terminal 110 receiving the omnidirectional allow message stops transmission in the EV-DO system 130 (S360).

The dual mode terminal 110 enters the traffic channel state based on the channel assignment message and the extended channel assignment message in the CDMA2000 1X system 120 (S362).

The dual mode terminal 110 performs a normal call setup procedure (S364).

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

As described above, according to the present invention, the data transmission rate can be increased by omitting the system access state in the process of switching from the EV-DO active data session to the 1X traffic channel state in the mobile communication system, and in the system access state. Since the access channel is not used, the channel space is secured.

Claims (5)

A method for switching to an 1X traffic channel state in an EV-DO active data session in a mobile communication system, (a) A CDMA2000 1X LAC PDU (hereinafter, referred to as a 'LAC PDU' in a higher network is generated when a circuit service request occurs when a dual mode terminal supporting both a CDMA2000 1X system and an EV-DO system is in the EV-DO active data session. Transmitting a 'called' to a EV-DO system through a stream layer; (b) adding the channel assignment message (CAM: Channel_Assignment_Message) and the extended channel assignment message (ECAM: Extended_Channel_Assignment_Message) included in the LAC PDU received by the EV-DO system to the Message ID list of the forwarded allowed message (Allowed_Forward_Link_Message). Transmitting to the dual mode terminal; (c) the dual mode terminal transmitting an omnidirectional grant ACK message corresponding to the response of the omnidirectional grant message to the EV-DO system; (d) the EV-DO system transmitting a LAC PDU ACK message corresponding to the response of the LAC PDU to the upper network; (e) stopping the transmission in the EV-DO system by the dual mode terminal receiving the omnidirectional allow message; (f) entering, by the dual mode terminal, the traffic channel state in the CDMA2000 1X system based on the channel assignment message and the extended channel assignment message; And (g) the duplex mode terminal performing a normal call setup procedure; And switching to a 1X traffic channel state in an EV-DO active data session in a mobile communication system. The method of claim 1, And the circuit service comprises voice paging. 2. The method of claim 1, wherein the circuit service comprises voice paging. The method of claim 1, The LAC PDU includes the channel assignment message and the extended channel assignment message. The method of claim 1, wherein the LAC PDU switches to a 1X traffic channel state in an EV-DO active data session in a mobile communication system. The method of claim 1, And processing the omni-directional allowance message to be delivered to a signaling layer, which is a 1x layer 3, and switching to a 1x traffic channel state in an EV-DO active data session in a mobile communication system. The method of claim 1, The upper network includes a packet data server network (PDSN), a mobile station center (MSC), a base station center (BSC), and a method of switching from the EV-DO active data session to the 1X traffic channel state in a mobile communication system. .

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