KR101115827B1 - Method for Controlling Hybrid Mode in CDMA Mobile Communication System and Method for Changing Hybrid Mode of Mobile Communication Terminal Using the same - Google Patents

Abstract

The present invention relates to a hybrid mode control method in a code division multiple access mobile communication system for controlling a hybrid mode switching cycle of a mobile communication terminal and a hybrid mode switching method in a mobile communication terminal using the same.

When the 1x EV-DO system receives the call connection request message transmitted from the mobile communication terminal, the present invention provides a traffic channel allocation message including a data slot cycle index (Data_Slot_Cycle_Index) field value indicating a 1x system switching cycle condition of the mobile communication terminal. A first step of transmitting to a mobile communication terminal; And a system parameter message including a selective hybrid mode (Selective_Hybrid_Mode) field value indicating whether the 1x system switches to the 1x system according to the data slot cycle index field value when the mobile communication terminal is in the EV-DO traffic state. Including the second step, since the hybrid mode switching period of the mobile communication terminal can be controlled, there is an advantage that the data transmission rate can be improved and call disconnection phenomenon can be reduced during EV-DO traffic.

Description

Method for Controlling Hybrid Mode in CDMA Mobile Communication System and Method for Changing Hybrid Mode of Mobile Communication Terminal Using the same}

1 is a view showing the configuration of a mobile communication network according to the present invention;

2 is a flowchart illustrating a hybrid mode control method according to the present invention;

3 is a diagram illustrating an example of a traffic channel assignment message according to the present invention;

4 is a diagram illustrating an example of a system parameter message according to the present invention;

5 is a flowchart illustrating a hybrid mode switching method in a mobile communication terminal according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: mobile communication terminal 210: 1x base station

230: 1x base station controller 250: MSC

270: PSTN 310: 1x EV-DO Base Station

330: 1x EV-DO base station controller 350: PDSN

370: IP network

The present invention relates to a hybrid mode control method in a code division multiple access mobile communication system, and more particularly, to a hybrid mode control method in a code division multiple access mobile communication system for controlling a hybrid mode switching period of a mobile communication terminal. And a hybrid mode switching method in a mobile communication terminal using the same.

The mobile communication system has been developed through the first generation analog AMPS (Advanced Mobile Phone Systems), the second generation cellular (Celluar) / Personal Communication Service (PCS), and the third generation high speed data. International Mobile Telecommunication-2000 (IMT-2000), which is a communication, has been developed and commercialized.

IMT-2000 service can be classified into Code Division Multiple Access (CDMA) 2000 1x service and CDMA 2000 1x EV-DO service. First, CDMA2000 1x service has evolved from IS-95A and IS-95B networks. It is a service that enables wireless Internet at up to 144 Kbps, much faster than 14.4 Kbps or 56 Kbps, which was supported by existing IS-95 A / B networks. Therefore, the CDMA 2000 1x service can provide a variety of multimedia services (AOD, VOD, etc.) as well as improve existing voice and wireless application protocol (WAP) service quality.

Meanwhile, the IMT-2000 system for the multimedia mobile communication service has defined the standard of the synchronous IMT-2000 system in 3GPP (3rd Generation Partnership Projects) 2, which is an international standardization organization. The method based on the company's high data rate (HDR) was named 'CDMA 2000 1x EV-DO (Evolution Data Optimized)' and was confirmed as an international standard. CDMA 2000 1x EV-DO (hereinafter, referred to as '1x EV-DO') is a communication standard of CDMA 2000 1X (hereinafter, referred to as '1x'). to be.

1x is a combination of circuit and packet networks. It provides unidirectional low speed data service with transmission speed of up to 307.2 Kbps as well as voice data. On the other hand, 1x EV-D0 provides a bidirectional high speed data service having a transmission rate of up to 2.4 Mbps for packet networks only.

Currently, the 1xEV-DO system is used interchangeably with the existing 1x system.

In a mobile communication system such as a base station or a base station controller, high speed data (for example, multimedia data) is transmitted in a 1x EV-DO scheme when transmitted to a mobile terminal, and in the case of voice or low speed data, a 1x scheme is transmitted.

A mobile communication terminal capable of accommodating both the 1x EV-DO system and the communication service provided by the 1x system, respectively, monitors each system at predetermined time intervals.

The periodic switching between the 1x EV-DO system and the 1x system of the mobile communication terminal is called a hybrid mode, and high speed data communication and voice call transmission and reception are enabled through such an operation. In other words, the hybrid mode means that the mobile communication terminal switches to the 1x system which is less than the period based on the MAX_SLOT_CYCLE_INDEX field value included in the system parameter message during the EV-DO traffic, and updates the overhead message. Refers to performing operations such as location registration and 1x voice call receipt.

However, since the mobile communication terminal switches to the 1x system according to the Max Slot Cycle Index field value regardless of the EV-DO traffic state, when the mobile communication terminal is in the EV-DO traffic state, the data transmission rate decreases due to frequent system switching. Problems such as increased call breaks and reduced completed calls are caused.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem, and is characterized by code division multiple access movement for transmitting a message including hybrid mode switching information to a mobile communication terminal so as to delay the time to hybrid mode switching during EV-DO traffic. There is a technical problem to provide a hybrid mode control method in a communication system and a hybrid mode switching method in a mobile communication terminal using the same.

The present invention for achieving the above object is a hybrid mode control method in a code division multiple access mobile communication system overlapping a 1x system and a 1x EV-DO system,

When the 1x EV-DO system receives a call connection request message transmitted from a mobile communication terminal, the traffic channel allocation message including a data slot cycle index (Data_Slot_Cycle_Index) field value indicating a 1x system switching cycle condition of the mobile communication terminal is moved. A first step of transmitting to a communication terminal; And a system parameter message including a selective hybrid mode (Selective_Hybrid_Mode) field value indicating whether the 1x system switches to the 1x system according to the data slot cycle index field value when the mobile communication terminal is in the EV-DO traffic state. And a second step of transmitting.

Another embodiment of the present invention provides a hybrid mode switching method of a mobile communication terminal in a code division multiple access mobile communication system in which a 1x system and a 1x EV-DO system are overlapped.

When the mobile communication terminal is in the EV-DO traffic state from the 1x EV-DO system, receives a traffic channel allocation message including a data slot cycle index (Data_Slot_Cycle_Index) field value indicating a switching cycle condition to the 1x system, and receives 1x from the 1x system. The system includes a Max Slot Cycle Index (MAX_SLOT_CYCLE_INDEX) field value indicating the switching cycle condition to the system and a Selective_Hybrid_Mode field value indicating whether to switch to the 1x system according to the data slot cycle index field value during EV-DO traffic. A first step of receiving a parameter message; And when the selective hybrid mode field value is a preset value for switching to 1x system according to the data slot cycle index field value during EV-DO traffic, and in the EV-DO traffic state, the hybrid mode according to the data slot cycle index field value. And switching to a hybrid mode according to a smaller value of the max slot cycle index field value and a slot cycle index value pre-programmed in the mobile communication terminal if the switch is idle.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the configuration of a mobile communication network according to the present invention.

As shown, a mobile communication network overlaps a CDMA 2000 1x system (hereinafter referred to as a '1x system') and a CDMA 2000 1x EV-DO system (hereinafter referred to as a '1x EV-DO system'). The system includes a 1x base station 210 that transmits voice signals and low-speed data to the mobile communication terminal 100 through a public network, a 1x base station controller 230 that controls a mobile communication service of the 1x base station 210, and a plurality of them. Physically connects the base station controller 230 to another switch or a public switched telephone network 270 to switch and provide a communication connection path of a 1x system for a communication call from the mobile communication terminal 100. Mobile Switching Center (250).

In addition, the 1x system is a max indicating a cycle in which the mobile communication terminal 100 switches to the 1x system to monitor the 1x system in a system parameters message among the overhead messages to the mobile terminal 100. Transmission including the slot cycle index (MAX_SLOT_CYCLE_INDEX) field value and the value of the selective hybrid mode (Selective_Hybrid_Mode) field indicating whether the mobile communication terminal 100 switches to the 1x system according to the max slot cycle index field value during EV-DO traffic. do.

Meanwhile, the 1x EV-DO system includes a 1x EV-DO base station 310 for transmitting high-speed multimedia data to the mobile communication terminal 100 through a public network, and a plurality of 1x EV-DO base stations 310 for data transmission control. 1x EV-DO that controls mobile communication services of the 1x EV-DO base station 310 by connecting to a packet data serving node (hereinafter, referred to as a 'PDSN') 350 which is a packet data network. The base station controller 330 is configured.

The 1x EV-DO system is connected to the PDSN 350 based on TCP / IP to transmit and receive various types of data with the IP network 370 in the form of IP packets.

In addition, when the 1x EV-DO system receives a call connection request message transmitted from the mobile communication terminal 100, a data slot cycle index (Data_Slot_Cycle_Index: D_SCI) field value indicating a 1x system switching cycle condition of the mobile communication terminal 100 is provided. It transmits a traffic channel assignment message including a (Traffic Channel Assignment Message) to the mobile communication terminal (100).

The data slot cycle index field value is a periodic condition in which the mobile communication terminal 100 which is connected to a 1x EV-DO system and is in an EV-DO traffic state switches to a hybrid mode.

The mobile communication terminal 100 disclosed in FIG. 1 is provided with a voice signal service and a low speed data transmission service through a 1x system, and a high speed data service through a 1x EV-DO system. It is a terminal.

In addition, the mobile communication terminal 100 includes the max slot cycle index field value and the selective hybrid mode field value included in the system parameter message received from the 1x system and the traffic channel assignment message received from the 1x EV-DO system. Based on the data slot cycle index field value, the system switches to the 1x system in the EV-DO traffic state or the idle state.

FIG. 2 is a flowchart illustrating a hybrid mode control method according to the present invention, which will be described with reference to FIG. 3 showing an example of a traffic channel assignment message and FIG. 4 showing an example of a system parameter message.

First, when the 1x EV-DO system receives a call connection request message transmitted from the mobile communication terminal 100 (S101), a data slot cycle index field value indicating a 1x system switching cycle condition of the mobile communication terminal (a of FIG. 3). In step S103, a traffic channel assignment message including the traffic channel assignment message is transmitted to the mobile communication terminal 100.

The data slot cycle index field value is a periodic condition in which the mobile communication terminal 100 which is connected to a 1x EV-DO system and is in an EV-DO traffic state switches to a hybrid mode.

When the 1x system receives any one of a connection request message transmitted as the terminal is powered on from the mobile communication terminal 100 or a hybrid mode switching message for monitoring the 1x system, the mobile communication terminal ( Whether to switch to the 1x system according to the data slot cycle index field value when 100) is in the EV-DO traffic state (or the smaller of the max slot cycle index field value and the slot cycle index value preprogrammed in the mobile communication terminal as in the prior art). A system parameter message including a selective hybrid mode field value (b in FIG. 4) and a max slot cycle index field value (a in FIG. 4) indicating whether to switch to the 1x system according to the present invention is transmitted to the mobile communication terminal 100. (S105).

When the selective hybrid mode field value is a preset value, when the mobile communication terminal 100 is in the EV-DO traffic state, the selective hybrid mode field value is switched to the hybrid mode according to the data slot cycle index field value, and the mobile communication terminal 100 is idle ( Idle) is a condition for switching to hybrid mode according to the smaller value of the max slot cycle index field value or the slot cycle index value pre-programmed in the mobile communication terminal.

5 is a flowchart illustrating a hybrid mode switching method in a mobile communication terminal according to the present invention, which will be described with reference to FIG. 3 showing an example of a traffic channel assignment message and FIG. 4 showing an example of a system parameter message. Shall be.

The mobile communication terminal 100 receives a traffic channel allocation message including a data slot cycle index (Data_Slot_Cycle_Index) field value indicating a switching cycle condition from the 1x EV-DO system to the 1x system when the mobile communication terminal is in the EV-DO traffic state. And a hybrid hybrid mode indicating whether to switch to the 1x system according to the Max Slot Cycle Index (MAX_SLOT_CYCLE_INDEX) field value indicating the switching cycle condition from the 1x system to the 1x system and the data slot cycle index field value during EV-DO traffic. A system parameter message including a value of the (Selective_Hybrid_Mode) field is received (S201).

Subsequently, the mobile communication terminal 100 switches the selective hybrid mode field value (b of FIG. 4) included in the system parameter message to the 1x system according to the data slot cycle index field value during EV-DO traffic. (For example, 1) or not (S203).

Herein, when the system parameter message received from the 1x system includes the selective hybrid mode field value, the mobile communication terminal 100 includes the max slot cycle index field value of the system parameter message and the slot programmed in the mobile communication terminal. Ignoring the condition of switching to the 1x system according to the smaller one of the cycle index values, first checking the selective hybrid mode field value and then performing the subsequent operation.

As a result of step S203, if the selective hybrid mode field value is a preset value, the mobile communication terminal 100 checks whether its state is an EV-DO traffic state (S205).

If the result of step S205 is the EV-DO traffic state, the mobile communication terminal 100 switches to the hybrid mode every corresponding period according to the data slot cycle index field value (S207). The data slot cycle index field value is a periodic condition that the mobile communication terminal which is connected to the 1x EV-DO system and is in an EV-DO traffic state switches to hybrid mode.

For example, when the data slot cycle index field value is 3, as shown in a of FIG. 3, the mobile communication terminal 100 switches to a 1x system every 10.24 seconds matched with 3 to update an overhead message, register a location, Perform voice call forwarding check.

Herein, the data slot cycle index field value is a value arbitrarily set by an operator (for example, a value obtained by adding 1 to the max slot cycle index field value), and a time value corresponding to each of the data slot cycle index field values is set. It is preset in the form of a standard.

On the other hand, when the idle state, not the EV-DO traffic state as a result of step S205, the mobile communication terminal 100 according to the smaller value of the Max slot cycle index field value and the slot cycle index value programmed in the mobile communication terminal. Switch to the hybrid mode (S209).

For example, the mobile communication terminal 100 is a 1x system for every time value that matches the smaller value of the max slot cycle index field value 2 shown in a of FIG. 4 and the slot cycle index value stored in the mobile communication terminal 100. Switch to update overhead message, register location, check voice call.

On the other hand, if the resultant hybrid mode field value of step S203 is not a preset value, the mobile communication terminal 100 performs the operation of step S209.

If the selective hybrid mode field value is not included in the system parameter message that the mobile communication terminal 100 receives from the 1x system, the mobile communication terminal 100 returns the max slot cycle index field value of the system parameter message. And switch to 1x system according to the smaller value among slot cycle index values programmed in the mobile communication terminal.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

As described above, the hybrid mode control method and the hybrid mode switching method in the mobile communication terminal using the hybrid mode control method in the code division multiple access mobile communication system of the present invention can control the hybrid mode switching period of the mobile communication terminal, EV-DO There is an advantage in that data transmission speed can be improved and call disconnection can be reduced during traffic.

Claims (5)

A hybrid mode control method in a code division multiple access mobile communication system in which a 1x system and a 1x EV-DO system are overlapped, When the 1x EV-DO system receives a call connection request message transmitted from a mobile communication terminal, the traffic channel allocation message including a data slot cycle index (Data_Slot_Cycle_Index) field value indicating a 1x system switching cycle condition of the mobile communication terminal is moved. A first step of transmitting to a communication terminal; And A system parameter message including a selective hybrid mode (Selective_Hybrid_Mode) field value indicating whether the 1x system switches to the 1x system according to the data slot cycle index field value when the mobile communication terminal is in an EV-DO traffic state is transmitted to the mobile communication terminal. A second step of doing; Hybrid mode control method in a code division multiple access mobile communication system comprising a. The method of claim 1, In the code division multiple access mobile communication system, the data slot cycle index field value is a periodic condition in which the mobile communication terminal which is connected to the 1x EV-DO system and is in an EV-DO traffic state switches to the hybrid mode. Way. The method of claim 1, The system parameter message includes a max slot cycle index (MAX_SLOT_CYCLE_INDEX) field value. The selective hybrid mode field value may be switched to hybrid mode according to the data slot cycle index field value when the mobile communication terminal is in the EV-DO traffic state, and the max slot cycle index field value and the mobile communication terminal when the idle state is idle. The hybrid mode control method in a code division multiple access mobile communication system, characterized in that the condition to switch to the hybrid mode according to the smaller of the pre-programmed slot cycle index value. A hybrid mode switching method of a mobile communication terminal in a code division multiple access mobile communication system in which a 1x system and a 1x EV-DO system are overlapped, When the mobile communication terminal is in the EV-DO traffic state from the 1x EV-DO system, receives a traffic channel allocation message including a data slot cycle index (Data_Slot_Cycle_Index) field value indicating a switching cycle condition to the 1x system, and receives 1x from the 1x system. The system includes a Max Slot Cycle Index (MAX_SLOT_CYCLE_INDEX) field value indicating the switching cycle condition to the system and a Selective_Hybrid_Mode field value indicating whether to switch to the 1x system according to the data slot cycle index field value during EV-DO traffic. A first step of receiving a parameter message; And When the selective hybrid mode field value is a preset value for switching to 1x system according to the data slot cycle index field value during EV-DO traffic, when the EV-DO traffic state is changed to hybrid mode according to the data slot cycle index field value A second step of switching to a hybrid mode according to a smaller value of the max slot cycle index field value and a slot cycle index value pre-programmed in the mobile communication terminal when in an idle state; Hybrid mode switching method in a mobile communication terminal comprising a. 5. The method of claim 4, The data slot cycle index field value is a periodic condition in which a mobile communication terminal which is connected to a 1x EV-DO system and is in an EV-DO traffic state switches to hybrid mode.

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