KR100548323B1 - Shadow area management method for dual band dual mode mobile terminal - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for processing a shadow area of a dual band dual mode terminal, and in particular, DBDM (Dual Band) which simultaneously supports a CDMA (code division multiple access) system, which is a second generation network, and a WCDMA (Wideband Code Division Multiple Access) system, which is a third generation network. Dual Mode (Dual Band Dual Mode) The shadow of a dual band dual mode terminal designed to reduce the ping-pong phenomenon and power consumption that may occur when the terminal detects the shadow of the third generation network while roaming from the second generation network to the third generation network. It is about local processing method. When a conventional dual band dual mode terminal is located in the shadow area of the 3G network while roaming from the 2G network to the 3G network, the 3G network is detected even if the command is continuously received from the 2G network to the 3G network. Since the ping pong phenomenon is repeatedly performed, which repeatedly attempts to detect the third generation network, the mobile terminal consumes a lot of power. In view of the above problems, the present invention searches for a 3G network when a 3G network movement command is received from the 2G network system, and if it does not detect the 3G network, it determines that it is a shadow area from the 2G network system for a predetermined time. By providing a method for processing the shadow area of a dual band dual mode terminal that does not execute the 3G network mobile command, it can reduce the frequency of the ping pong phenomenon that occurs quickly and thereby greatly reduce the power consumed by the network discovery. have.

Description

SHADOW AREA MANAGEMENT METHOD FOR DUAL BAND DUAL MODE MOBILE TERMINAL}

1 is a state diagram illustrating a roaming method in a second generation network and a third generation network.

2 is a flow chart of one embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: second generation communication system 20: third generation communication system

30: 3rd generation communication system shaded area

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for processing a shadow area of a dual band dual mode terminal, and in particular, DBDM (Dual Band) which simultaneously supports a CDMA (code division multiple access) system, which is a second generation network, and a WCDMA (Wideband Code Division Multiple Access) system, which is a third generation network. Dual Mode (Dual Band Dual Mode) The shadow of a dual band dual mode terminal designed to reduce the ping-pong phenomenon and power consumption that may occur when the terminal detects the shadow of the third generation network while roaming from the second generation network to the third generation network. It is about local processing method.

The CDMA system currently in use is already extensively serviced and fully equipped with infrastructure. However, in order to provide services that cannot be supported in 2G networks such as CDMA systems, 3G networks such as WCDMA systems are gradually introduced. In the area where 3G networks are installed while using the infrastructure of these 2G networks, DBDM terminals designed to receive specialized services of 3G networks are being developed.

However, the third generation communication network is still developed independently of the second generation communication network, and specific specifications for roaming with the second generation communication network are not determined. Therefore, there is no specification that defines the cases that can occur in switching the use of each network in the DBDM terminal to which the CDMA / WCDMA dual modem is applied so that the second and third generation networks can be used at the same time.

Therefore, the types of errors that may occur when roaming to a communication network (3rd generation network) that supports and confirms a broadcasting signal provided by each communication network (2nd generation network) and a method of processing them are not standardized. Here, we discuss how to handle the situation that may occur when DBDM terminal is located in the shadow area of 3G network.

FIG. 1 is a conceptual diagram of roaming in an area in which general 2nd and 3rd generation network systems are installed, and as shown in FIG. 1, roaming in a test installation area of a 3rd generation network is shown. Since the DBDM terminal supports the 2nd generation network and the 3rd generation network, roaming to the 3rd generation network by broadcasting signals from the 2nd generation network when the terminal enters the area where the 3rd generation network and the 2nd generation network are installed at the same time. Done. That is, since the second generation network continuously transmits the third generation network movement command to the DBDM terminal, the DBDM terminal switches to the third generation network by the command of the second generation network system when entering the area where the third generation network is installed at the same time. do. This makes it possible to use unique services of the 3G network.

As shown first, the DBDM terminal entering the second generation network 10 receives the third generation network movement command in the standby state and starts searching for the third generation network. If the entry into the third generation network 20 succeeds (that is, Receive Signal Strength Indication (RSSI) is greater than or equal to zero), the third generation network 20 is maintained. In this case, when the RSSI value is continuously checked and the value becomes 0 (out of the 3G network maintenance area), the RSSI timer is driven, and when the value is more than the predetermined value, the RSSI timer is returned to the 2G network after the timer is exceeded.

However, if the above does not occur when the network is out of the 3G network but occurs in the shaded area of the 3G network, the DBDM terminal sends a command to the DBDM terminal to move to the 3G network continuously. Attempts to access the 3G network once again in the 3G shadow area 30. However, when the DBDM terminal is located in the 3G network shadow area 30, the RSSI value becomes 0, so when the timer is driven and the value exceeds the predetermined value, it returns to the 2G network again, and continuously in the 2G network. Since the 3G network mobile command is being transmitted, the DBDM terminal periodically performs 3G network search. This repetitive operation is called ping pong phenomenon.

Since the ping pong phenomenon consumes a lot of power of the terminal, the use time of the mobile terminal can be drastically reduced.

Accordingly, there is a need for a shadow area processing method capable of reducing the occurrence of the ping pong phenomenon described above, thereby reducing power consumption of the portable terminal.

As described above, when the conventional dual band dual mode terminal is located in the shadow area of the 3G network while roaming from the 2G network to the 3G network, even if the command is continuously received from the 2G network to the 3G network 3 Since the generation network is not detected, the ping-pong phenomenon of repeatedly attempting to detect the third generation network occurs in a fast cycle, which causes a problem in that the power consumption of the mobile terminal is severe.

In view of the above problems, the present invention searches for a 3G network when a 3G network movement command is received from the 2G network system. It provides a method of processing the shadow area of dual band dual mode terminal which can reduce the frequency of ping pong phenomenon which occurs at high frequency by avoiding the 3rd generation network moving command from the network and thereby reduce the power consumption of the mobile terminal. There is a purpose.

The present invention for achieving the above object is a mobile communication terminal supporting both the second generation network system and the third generation network system is located in the third generation network area and communicating with the second generation network system jurisdiction for the area; ; Periodically providing, by the second generation network system, a third generation network movement command to the mobile communication terminal as a broadcast signal informing that the mobile communication terminal is located in a third generation network region; The mobile communication terminal that has received the 3G network mobile command determines whether it has previously received the 3G network mobile command within a predetermined time range from the currently connected 2G network system. Disregarding and maintaining a connection with the second generation network system; Searching for the 3G network system if it has not been received as a result of the determination of the step; And if the third generation network signal is found within the predetermined time, connecting to the third generation network system, and returning to the connection state with the second generation network system if the third generation network signal is not found within the predetermined time. It features.

When described in detail with reference to the accompanying drawings an embodiment of the present invention as follows.

FIG. 2 is a flowchart illustrating an embodiment of the present invention, and illustrates a method for processing a 3G network shadow area that may occur when a DBDM terminal communicating with a 2G network system enters an area in which a 3G network system is installed. have.

First, in the area where the 3G network system is installed at the same time, the 2G network system notifies the DBDM terminal that the 3G network system exists through the broadcast signal. Since the 3G network movement command is unidirectionally transmitted through broadcasting, it does not burden the 2G network system.

The DBDM terminal receiving the 3G network movement command first searches for the 3G network when the command is first received. In general, the search of the 3G network uses RSSI for detecting the signal strength of the 3G network. In addition, various methods may be used.

If the RSSI value is equal to or greater than the predetermined value by the above method, the third generation network is detected. Thus, the third generation network enters the standby state while attempting communication with the corresponding third generation network system. Of course, when the RSSI value decreases below a predetermined value (for example, 0) in the standby state of the 3rd generation network, a timer is started, and after a predetermined time, it is out of the area where the 3rd generation network system is installed or enters a shaded area. Will return to the second generation network.

If the DBDM terminal is located in the shaded area of the 3G network even though the 3G network system is not out of the installed area, the RSSI signal decreases rapidly and returns to the 2G network. Or, when the first 3G network discovery process does not detect the signal of the 3G network system (when the entry area is the 3G network shaded area), it may return to the 2G network.

In case of returning to the second generation network through the above process, the DBDM terminal receives the third generation network movement command from the second generation network system again, and previously received the third generation network movement command from the same second generation network system. Determine if there is an enemy. Since the 3G network movement command has been received before, the time interval for 3G network discovery is subtracted from the current time, subtracting the 3G network discovery time previously performed. Ignore the command. As a result, the frequency of repeated ping pong phenomenon can be reduced until the DBDM terminal leaves the 3G network shadow area. If the time interval for searching for the 3G network is longer than the time limit, the 3G network is newly searched.

Therefore, when the DBDM terminal in the second generation network standby state receives the third generation network movement command while communicating with the second generation network system, it is determined whether the third generation network movement command has been previously received from the same second generation network system. The frequency of occurrence is suppressed at a predetermined time limit. If the time limit is short, the frequency of searching for 3G networks is increased and accordingly, terminal current consumption for network search is increased.

In other words, if the DBDM terminal is located in the 3G network shadow area and the 3G network movement command is continuously issued but the 3G network cannot be detected, the PingPong phenomenon that may occur may be set to a predetermined time limit. It is possible to reduce the frequency of occurrence, thereby determining the power consumption of the portable terminal.

As described above, the method for processing the shadow area of the dual band dual mode terminal according to the present invention searches for the 3G network when the 3G network movement command is received in the 2G network system. By not executing the 3G network movement command from the 2G network system for a predetermined time, it is possible to reduce the frequency of the ping pong phenomenon that occurs quickly, thereby greatly reducing the power consumed by the network search.

Claims (2)

Communicating a mobile communication terminal supporting both the second generation network system and the third generation network system with a second generation network system located in the third generation network area and having jurisdiction over the corresponding area; Periodically providing, by the second generation network system, a third generation network movement command to the mobile communication terminal as a broadcast signal informing that the mobile communication terminal is located in a third generation network region; The mobile communication terminal that has received the 3G network mobile command determines whether it has previously received the 3G network mobile command within a predetermined time range from the currently connected 2G network system. Disregarding and maintaining a connection with the second generation network system; Searching for the 3G network system if it has not been received as a result of the determination of the step; And if the third generation network signal is found within the predetermined time, connecting to the third generation network system, and returning to the connection state with the second generation network system if the third generation network signal is not found within the predetermined time. A method for processing a shadow area of a dual band dual mode terminal, characterized in that. The 3G network discovery period of claim 1, wherein the 3G network search period is adjusted by adjusting the predetermined time range in a process of determining whether a 3G network movement command has been previously received within a predetermined time range from a currently connected 2G network system. And determining a power consumption level of the mobile terminal.

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