KR100645941B1 - Hand off device and method from asynchronous system to synchronous system - Google Patents

Abstract

The present invention relates to an inter-base station handoff processing apparatus and method in a mobile communication system. In particular, when a mobile station of the asynchronous / synchronous hybrid type handoffs from an asynchronous wireless network to a synchronous wireless network, the asynchronous base station manages its receiving apparatus. A handoff processing method that enables handoff by using a technique of obtaining all information of a synchronous base station and transmitting the same to a mobile station, and an apparatus and method of the present invention provide a communication method in which an asynchronous wireless network and a synchronous wireless network are different from each other. In spite of using, it is possible to provide a smooth handoff between the asynchronous system and the synchronous system, thereby providing the effect of realizing mobile communication.

Mobile communication system, IMT-2000, handoff, synchronous base station, asynchronous base station, receiver, GPS receiver,

Description

HAND OFF DEVICE AND METHOD FROM ASYNCHRONOUS SYSTEM TO SYNCHRONOUS SYSTEM             

1 is a diagram illustrating a cell configuration of a synchronous base station and an asynchronous base station in a mobile communication system;

2 is a functional block diagram showing the configuration of a handoff processing apparatus from an asynchronous system to a synchronous system according to the present invention;

3 is a flowchart illustrating a handoff processing method from an asynchronous system to a synchronous system according to an embodiment of the present invention;

4 is a flowchart showing a handoff processing method from an asynchronous system to a synchronous system according to this embodiment of the present invention;

5 is a diagram illustrating signal timing of absolute time of asynchronous systems in the handoff processing method of the asynchronous system to the synchronous system according to FIGS. 3 and 4.

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

10: synchronous base station cell 100: synchronous base station

20, 21, 22: asynchronous base station cell 200: asynchronous base station

210: receiver 300: asynchronous / synchronous mobile station

The present invention relates to an inter-base station handoff processing apparatus and method in a mobile communication system, and more particularly, to move an asynchronous / synchronous mobile station from an asynchronous wireless network to a synchronous wireless network in an international mobile telecommunication (IMT-2000) communication system. The present invention relates to an apparatus and a method for handoff processing from an asynchronous system to a synchronous system by allowing asynchronous base station to acquire all the information of the synchronous base station through its receiving apparatus and then transmitting it to the mobile station.

As is well known, mobile communication services have evolved into the first generation method based on analog technology in the 1980s and the second generation method based on digital technology in the 1990s. The service area is expanding to non-telephone service and data transmission service. On the other hand, according to the rapid increase of users, the expansion of activity range, personalization, multimedia, etc., it is possible to move between users / mobile stations and to transmit and receive various types of information between global scale networks. In order to cope with future demands of information and communication, standardization work related to IMT-2000, a third generation mobile communication system, is being conducted by the ITU.

The mobile communication system divides the entire service area into cells, which are small service areas, in order to use limited frequency resources more efficiently. In this case, the user is currently receiving a service to guarantee the mobility of the user. A handoff is performed to take over the call channel between the mobile station and the base station so that the call can be continuously maintained even when leaving the cell. In detail, handoff allows a mobile station to be allocated a new call channel from a mobile base station when the mobile station moves to another cell. There are two types of handoffs: soft handoff and hard handoff. .

On the other hand, the mobile communication system is largely divided into a synchronous system and an asynchronous system. Among these, the synchronous system is a system in which each subsystem communicates in synchronization according to a master clock from a Global Positioning System (GPS). The system is a communication system that does not use a master clock from GPS. The synchronous mobile communication system herein refers to a second generation (2G) synchronous system currently being serviced or a third generation (3G) synchronous system (synchronous IMT-2000) to be commercialized in the future, and the asynchronous mobile communication system is a third generation asynchronous system (asynchronous). IMT-2000).

1 is a diagram illustrating a cell configuration of a synchronous base station and an asynchronous base station when a synchronous system and an asynchronous system are serviced in the same area.

In this case, as shown in FIG. 1, since the third generation asynchronous system cannot initially service in all regions, the cell of the third generation asynchronous system may be adjacent to or included in the cell of the second generation synchronous system currently being serviced. The cell arrangement relationship between these base stations can be largely divided into three cases.

In the first case, as shown in FIG. 1, the cell 20 of the asynchronous base station 200 is completely included in the cell 10 of the synchronous base station 100. In the second case, the cell 20 of the asynchronous base station 200 The cell 21 is in the region of influence of the cell 10 of the synchronous base station 100, and in the third case, the cell 22 of the asynchronous base station 200 overlaps only part of the cell 10 of the synchronous base station 100. It is a state.

In the cell arrangement described above, the asynchronous / synchronous mobile station communicating with the asynchronous system must perform handoff from the asynchronous system to the adjacent synchronous system in case of geographical movement from the cell boundary of the asynchronous system to the adjacent synchronous system. The service can be used without disconnection.

Accordingly, in the conventional asynchronous system, the handoff processing method for the synchronous system performs the handoff processing operation simply by using the asynchronous system when the asynchronous / synchronous mobile station moves from the cell of the asynchronous system to the cell of the synchronous system. In this case, the above-described asynchronous system means a method of using an absolute time by giving a time offset to each asynchronous system at an arbitrary time without defining the same reference time between the asynchronous systems.

However, the handoff process from the conventional asynchronous system to the synchronous system has caused three fatal problems.

The first problem is that the absolute time of the asynchronous base station adjacent to the synchronous base station is set to a time offset defined at the asynchronous base station which is not related to the absolute time of the synchronous base station. In the case of handoff to the cell area of the synchronous base station, the asynchronous / synchronous mobile station does not know the time information of the synchronous base station. Therefore, when the asynchronous / synchronous mobile station receives a power monitoring command, which is a search command of an adjacent synchronous base station, from the asynchronous base station currently making a call, it cannot perform power monitoring of the adjacent synchronous base station immediately. The time information of the synchronous base station should be obtained through cell searching. However, this process is the same as the task of knowing the attributes of the synchronous base station to which the mobile station itself belongs when the mobile station is powered on in the cell area of the synchronous base station, and takes a long time as is known on the synchronous system. Therefore, if the asynchronous / synchronous mobile station communicating with the asynchronous base station performs the cell search operation of such a synchronous system, even if the combined mobile station takes too long to perform the search operation, the call can continue with the asynchronous base station. There was a problem of no call disconnection, which caused the call quality to deteriorate.

The second problem is that when the asynchronous / synchronous mobile station is connected to the asynchronous base station and is making a call, when the handoff is performed to the cell area of the synchronous base station, the call between the mobile station and the asynchronous base station is not interrupted. The compressed mode technique used in the asynchronous system method should be used, but there is a problem that the asynchronous / synchronous mobile station cannot obtain information of the synchronous system during the time of using the compressed mode. In this case, the compression mode described above means a method in which a mobile station frees a portion of the asynchronous transmission channel that is currently being used to allow the mobile station to search for information of another system during hard handoff. You can free up some time.

The third problem is that even when the asynchronous / synchronous mobile station acquires the time information of the synchronous base station during the handoff process and performs the power monitoring process of the adjacent synchronous system, and sends the result to the asynchronous base station, the asynchronous system to the synchronous system In order to perform the handoff of the mobile station, the mobile station must know the long code state of the exact synchronization system at the time of handoff. Therefore, in order to solve the above-mentioned problem, the long code status information should be wirelessly transmitted to the asynchronous / synchronous mobile station which wants to provide information from the synchronous system to the asynchronous system through the mobile communication network or to perform the handoff from the synchronous system. In addition, this method requires additional and complex system implementations and methods, and at present, there is a problem in that handoff is impossible because there is no way to solve this problem.

Accordingly, an object of the present invention is to overcome the above-described problems, and when the mobile station moves from the asynchronous system area to the synchronous system area, the asynchronous base station acquires the absolute time information and the long code state information of the synchronous base station through its receiver. The system then transmits the data to the mobile station, which prevents the mobile station from performing cell search in the synchronous system, thereby avoiding disconnection of the mobile station, and thus enables smooth handoff. A handoff processing apparatus and method are provided.

In order to achieve the above object, the handoff processing apparatus from the asynchronous system to the synchronous system of the present invention includes a plurality of synchronous base stations and a plurality of synchronous base stations which communicate in synchronization according to a master clock from the GPS, and the same reference point. A mobile communication comprising a plurality of asynchronous base stations, a plurality of asynchronous base stations and a plurality of asynchronous / synchronous mobile stations that can communicate with the plurality of asynchronous base stations, each of which is used as a reference time by giving different time offsets at random times without time. In the handoff processing apparatus from the asynchronous system to the synchronous system in the system,

The plurality of asynchronous base stations demodulate pilot signals and synchronization signals transmitted from adjacent synchronization base stations to receive information related to a synchronization system such as absolute time information, long code status information, short code status information, etc. of adjacent synchronization base stations. Each device is provided.

In addition, the handoff processing method from the asynchronous system to the synchronous system according to an embodiment of the present invention, the initialization operation to set the absolute time (t) after the asynchronous base station obtains the absolute time information of the adjacent synchronous base station Performing a first step;

A second step of determining whether an asynchronous / synchronous mobile station attempted a call;

If the asynchronous / synchronous mobile station does not attempt the call in the second step, the process proceeds to the second step again, while when the asynchronous / synchronous mobile station attempts the call, the asynchronous base station adjusts the absolute time to A third step of conducting a call with an asynchronous / synchronous mobile station;

A fourth step of the asynchronous base station determining whether the position of the asynchronous / synchronous mobile station is a handoff area;

In step 4, if the location of the asynchronous / synchronous mobile station is not in the handoff area, the process proceeds to the third step again. If the location of the asynchronous / synchronous mobile station is in the handoff area, the asynchronous base station determines the adjacent asynchronous base stations. Transmitting a message to search to said asynchronous / synchronous mobile station;

A sixth step in which the asynchronous / synchronous mobile station receives a discovery message of an adjacent asynchronous base station from the asynchronous base station, searches for an adjacent asynchronous base station, and transmits a corresponding result message to the asynchronous base station;

A seventh step of determining whether there is an asynchronous base station satisfying the handoff condition among the search results after the asynchronous base station receives the search result message related to the adjacent asynchronous base station transmitted from the asynchronous / synchronous mobile station;

If there is no asynchronous base station that satisfies the handoff condition in the seventh step, the absolute time information, long code state information, and short code state related to the adjacent synchronous base stations with the message that the asynchronous base station searches for adjacent synchronous base stations. An eighth step of transmitting information and its offset time information to the asynchronous / synchronous mobile station;

The synchronous / synchronous mobile station receives a discovery message of a neighbor sync base station and information related to neighbor sync base stations from the asynchronous base station, searches for neighbor sync base stations, and transmits a corresponding result message to the asynchronous base station; step;

A tenth step of, after the asynchronous base station receives a search result message related to an adjacent synchronous base station transmitted from the asynchronous / synchronous mobile station, determining whether there is a synchronous base station satisfying a handoff condition among the search results;

If there is no synchronous base station satisfying the handoff condition in the tenth step, the process proceeds to the third step again. If there is a synchronous base station satisfying the handoff condition, the asynchronous base station sends a handoff message to the asynchronous / synchronous. An eleventh step of transmitting to the combined mobile station; And

The asynchronous / synchronous mobile station receives a handoff message from the asynchronous base station, and performs a handoff to the corresponding synchronous base station by using the long code state information of the synchronous base station already transmitted.

On the other hand, in the method of processing handoff from the asynchronous system to the synchronous system according to this embodiment of the present invention, the asynchronous base station initializes its own time to set its own absolute time t after obtaining the absolute time information of the adjacent synchronous base station. Performing a 101 st step;

Step 102 of determining whether an asynchronous / synchronous mobile station attempted a call;

In step 102, if the asynchronous / synchronous mobile station does not attempt a call, the process proceeds to step 102 again. If the asynchronous / synchronous mobile station attempts a call, the asynchronous base station matches the absolute time t. Step 103 of making a call with the asynchronous / synchronous mobile station;

Step 104, wherein the asynchronous base station determines whether the position of the asynchronous / synchronous mobile station is a handoff area;

In step 104, if the location of the asynchronous / synchronous mobile station is not in the handoff area, the flow returns to step 103. If the location of the asynchronous / synchronous mobile station is in the handoff area, the asynchronous base station determines the adjacent asynchronous base stations. Transmitting a message to search to the asynchronous / synchronous mobile station;

Step 106, the asynchronous / synchronous mobile station receives a discovery message of an adjacent asynchronous base station from the asynchronous base station, searches for an adjacent asynchronous base station, and transmits a corresponding result message to the asynchronous base station;

Step 107, after the asynchronous base station receives the search result message related to the adjacent asynchronous base station transmitted from the asynchronous / synchronous mobile station, determining whether there is an asynchronous base station satisfying the handoff condition among the search results;

If there is no asynchronous base station that satisfies the handoff condition in step 107, the absolute time information excluding long code state information from the information related to the adjacent synchronous base stations with a message for the asynchronous base station to search for adjacent synchronous base stations, and a short Step 108 of transmitting code status information and its offset time information to the asynchronous / synchronous mobile station;

The asynchronous / synchronous mobile station receives all the information except the long code state information among the information related to the adjacent synchronous base stations together with the discovery message of the adjacent synchronous base station from the asynchronous base station, searches for the adjacent synchronous base stations, and corresponds to the corresponding result. Step 109, transmitting a message to the asynchronous base station;

Step 110, after the asynchronous base station receives the search result message related to the adjacent synchronous base station transmitted from the asynchronous / synchronous mobile station, determining whether there is a synchronous base station satisfying the handoff condition among the search results;

If there is no synchronous base station that satisfies the handoff condition in step 110, the process proceeds to step 103 again. If there is a synchronous base station that satisfies the handoff condition, the asynchronous base station sends a long message to the handoff message. Inserting code status information and transmitting the code status information to the asynchronous / synchronous mobile station; And

In step 112, the asynchronous / synchronous mobile station receives a handoff message and long code state information of a synchronous base station from the asynchronous base station and performs handoff to the corresponding synchronous base station using the long code state information of the synchronous base station. Characterized in that made.

Hereinafter, a handoff processing method from an asynchronous system to a synchronous system will be described in detail with reference to the accompanying drawings.

2 is a functional block diagram of a handoff processing apparatus from an asynchronous system to a synchronous system according to an embodiment of the present invention, the handoff processing apparatus from the asynchronous system to a synchronous system according to an embodiment of the present invention It is composed of a synchronous base station 100, a plurality of asynchronous base station 200, a receiver 210 mounted in the plurality of asynchronous base station 200 and a plurality of asynchronous / synchronous mobile station 300.

The plurality of synchronous base stations 100 are base stations communicating with the asynchronous / synchronous mobile station 300 in synchronization with the master clock from the GPS.

In addition, the plurality of asynchronous base stations 200 are adjacent to the plurality of synchronous base stations 100, such as absolute time information and long code status information of the synchronous base stations 100 output from the receiving apparatus 210. It receives all the information and sets its own reference time and communicates with the asynchronous / synchronous mobile station 300 according to the reference time, and then the asynchronous / synchronous mobile station at the time of handoff from the asynchronous system to the synchronous system ( 300) transmits all information such as absolute time information and long code status information of the synchronization base stations.

Meanwhile, the receivers 210 mounted in the plurality of asynchronous base stations 200 respectively demodulate pilot signals and sync signals transmitted from adjacent sync base stations 100, and provide absolute time information of adjacent sync base stations 100, After receiving the information related to the synchronization system, such as long code (short code) status information, short code (short code) status information and the like to transmit to its asynchronous base station (200).

In this case, the receiver 210 is a receiver of any one of the GPS receiver and the synchronization system signal receiver when the cell 20 of the asynchronous base station 200 is completely included in the cell 10 of the synchronous base station 100. May be used, and the cell 21 of the asynchronous base station 200 is within the cell 10 area of influence of the synchronous base station 100 or the cell 22 of the asynchronous base station 200 is the synchronous base station 100 cell 10. In case of overlapping part of), only GPS receiver should be used.

In addition, the plurality of asynchronous / synchronous mobile station 300 is a terminal capable of talking to both the synchronous base station 100 and the asynchronous base station 200.

Next, a method of processing handoff from an asynchronous system to a synchronous system according to an embodiment of the present invention will be described.

3 is an operation flowchart illustrating a handoff processing method from an asynchronous system to a synchronous system according to an embodiment of the present invention.

First, the asynchronous base station 200 performs an initialization operation to set its own absolute time t after acquiring the absolute time information of the adjacent synchronous base station 100 (S1).

In this case, the initialization operation performed by the asynchronous base station 200 will be described in more detail. First, the asynchronous base station 200 receives an offset time T _{offset, i} from an upper layer through an asynchronous system initialization message ( S1-1). Here, the offset time T _{offset, i} received from the higher layer is different from each other in the offset time T _{offset, i} among arbitrary values except for a value that is an integer multiple of the number of chips per slot defined in the asynchronous system. Must be selected and used.

Subsequently, the asynchronous base station 200 obtains the absolute time information of the adjacent synchronous base stations 100 through the receiver 210 and sets the reference time T as its reference time (S1-2).

Thereafter, the asynchronous base station 200 sets the absolute time t by using the offset time T _{offset, i} and the reference time T (S1-3). In this case, the absolute time t described above is calculated using Equation 1 below.

ti = T + Toffset, i; i = 0, 1, 2,... , N,…

In Equation 1, t _i means the absolute time of the asynchronous base station corresponding to the i-th, T means the reference time, T _{offset, i} means the offset time.

In this case, the reference time T described above is not a time used as a reference for each signal when transmitting signals from the asynchronous base station 200 to the asynchronous / synchronous mobile station 300 as shown in FIG. 5. Means a time that is a secondary reference to the time used by each asynchronous base station 200, the absolute time (t) means that when transmitting signals to the asynchronous / synchronous mobile station 300 from each asynchronous base station 200 Means the time used as a reference of the signal. Therefore, the reference time T has the same value for every asynchronous base station 200, and the absolute time t has a different value for each asynchronous base station 200.

On the other hand, after performing the above-described initialization operation, the asynchronous base station 200 determines whether the asynchronous / synchronous mobile station 300 attempts to call (S2).

At this time, if the asynchronous / synchronous mobile station 300 does not attempt to call in the second step S2 (NO), the asynchronous base station 200 proceeds to the first step S1 again while the asynchronous When the / synchronous mobile station 300 attempts to call (YES), the asynchronous base station 200 performs a call with the asynchronous / synchronous mobile station 300 according to the absolute time t (S3).

Then, the asynchronous base station 200 determines whether or not the position of the asynchronous / synchronous mobile station 300 is a handoff area (S4).

If the position of the asynchronous / synchronous mobile station 300 is not in the handoff region (NO) in the fourth step S4, the asynchronous base station 200 proceeds to the third step S3 again while the asynchronous If the position of the / synchronous mobile station 300 is a handoff area (YES), the asynchronous base station 200 transmits a message to the asynchronous / synchronous mobile station 300 to search for adjacent asynchronous base stations (S5).

Then, the asynchronous / synchronous mobile station 300 receives a discovery message of an adjacent asynchronous base station from the asynchronous base station 200, searches for an adjacent asynchronous base station, and transmits a corresponding result message to the asynchronous base station 200. (S6).

In addition, the asynchronous base station 200 receives a search result message related to an adjacent asynchronous base station transmitted from the asynchronous / synchronous mobile station 300, and then determines whether there is an asynchronous base station satisfying the handoff condition among the search results. It is determined whether or not (S7).

If there is no asynchronous base station satisfying the handoff condition (NO) in the seventh step S7 (NO), the asynchronous base station 200 with the message to search for adjacent synchronous base stations, the absolute time information related to the adjacent synchronous base stations, The long code status information, the short code status information, and its offset time information are transmitted to the asynchronous / synchronous mobile station 300 (S8). In this case, in the eighth step S8, the asynchronous base station 200 asynchronously / synchronizes the absolute time information, the long code state information, the short code state information, and its offset time information related to the adjacent synchronous base stations 100. The method of transmitting to the combined mobile station 300 transmits through the asynchronous broadcast channel, the asynchronous paging channel, and the asynchronous synchronous system information transmission channel when all information of the synchronous base stations 100 can be inserted into the channel for the asynchronous system. If all of the information of the synchronous base stations 100 cannot be inserted into the channel for the asynchronous system, the synchronous synchronous system information transmission channel is generated and then inserted into the synchronous synchronous system information transmission channel and transmitted.

Then, the asynchronous / synchronous mobile station 300 receives the discovery message of the adjacent synchronous base station and the information related to the adjacent synchronous base stations 100 from the asynchronous base station 200, and searches for the adjacent synchronous base stations 100. The result message corresponding thereto is transmitted to the asynchronous base station 200 (S9).

Subsequently, the asynchronous base station 200 receives a search result message related to an adjacent synchronous base station transmitted from the asynchronous / synchronous mobile station 300, and then the synchronous base station 100 satisfying the handoff condition is found. It is determined whether there exists (S10).

At this time, if there is no synchronous base station 100 that satisfies the handoff condition in the tenth step (S10) (NO), the asynchronous base station 200 proceeds to the third step (S3) again, while handoff If there is a synchronous base station satisfying the condition (YES), the asynchronous base station 200 transmits a handoff message to the asynchronous / synchronous mobile station 300 (S11).

Then, the asynchronous / synchronous mobile station 300 receives a handoff message from the asynchronous base station 200 and hands the corresponding synchronous base station 100 using the long code state information of the synchronous base station 100 that has already been transmitted. Off is performed (S12).

In addition, if there is an asynchronous base station satisfying the handoff condition among the search results related to the adjacent asynchronous base stations in the seventh step S7 (YES), the asynchronous base station 200 satisfies the other handoff condition. In step S13, the asynchronous / synchronous mobile station 300 is handed off.

On the other hand, the following describes a handoff processing method from the asynchronous system to the synchronous system according to this embodiment of the present invention.

4 is an operation flowchart showing a handoff processing method from the asynchronous system to the synchronous system according to this embodiment of the present invention.

First, the asynchronous base station 200 performs an initialization operation to set its own absolute time t after acquiring the absolute time information of the adjacent synchronous base station 100 (S101).

In this case, the initialization operation performed by the asynchronous base station 200 will be described in more detail. First, the asynchronous base station 200 receives an offset time T _{offset, i} from an upper layer through an asynchronous system initialization message (S101). -One). Here, the offset time T _{offset, i} received from the higher layer is different from each other in the offset time T _{offset, i} among arbitrary values except for a value that is an integer multiple of the number of chips per slot defined in the asynchronous system. Must be selected and used.

Subsequently, the asynchronous base station 200 obtains the absolute time information of the adjacent synchronous base stations 100 through the receiving apparatus 210 and sets the reference time T as its reference time (S101-2).

Thereafter, the asynchronous base station 200 sets the absolute time t using the offset time T _{offset, i} and the reference time T (S101-3). In this case, the above-described absolute time t may be calculated by using Equation 1 described above.

On the other hand, after performing the above-described initialization operation, the asynchronous base station 200 determines whether the asynchronous / synchronous mobile station 300 has attempted to call (S102).

At this time, if the asynchronous / synchronous mobile station 300 does not attempt to call in step 102 (NO) (NO), the asynchronous base station 200 proceeds to step 102 (S102) while the asynchronous When the / synchronous mobile station 300 attempts to call (YES), the asynchronous base station 200 performs a call with the asynchronous / synchronous mobile station 300 according to the absolute time t (S103).

Then, the asynchronous base station 200 determines whether or not the position of the asynchronous / synchronous mobile station 300 is a handoff area (S104).

If the position of the asynchronous / synchronous mobile station 300 is not in the handoff region (NO) in step 104, the asynchronous base station 200 proceeds to step 103 (S103), while the asynchronous If the position of the / synchronous mobile station 300 is in the handoff area (YES), the asynchronous base station 200 transmits a message for searching for adjacent asynchronous base stations to the asynchronous / synchronous mobile station 300 (S105).

Then, the asynchronous / synchronous mobile station 300 receives a discovery message of an adjacent asynchronous base station from the asynchronous base station 200, searches for an adjacent asynchronous base station, and transmits a corresponding result message to the asynchronous base station 200. (S106).

In addition, the asynchronous base station 200 receives a search result message related to an adjacent asynchronous base station transmitted from the asynchronous / synchronous mobile station 300, and then determines whether there is an asynchronous base station satisfying the handoff condition among the search results. It is determined whether or not (S107).

If there is no asynchronous base station that satisfies the handoff condition in step 107 (NO) (NO), the asynchronous base station 200 receives a long code from among information related to the adjacent synchronous base stations with a message to search for adjacent synchronous base stations. Absolute time information, short code status information and its offset time information other than the status information are transmitted to the asynchronous / synchronous mobile station 300 (S108). In this case, in step 108, the asynchronous base station 200 stores the absolute time information, the short code state information, and its offset time information except the long code state information among the information related to the adjacent synchronous base stations 100. The method of transmitting to the asynchronous / synchronous mobile station 300 transmits through the asynchronous broadcast channel, the asynchronous paging channel, and the asynchronous synchronous system information transmission channel when the information of the synchronous base stations 100 can be inserted into the channel for the asynchronous system. If the information of the synchronous base stations 100 is not insertable into the channel for the asynchronous system, the synchronous synchronous system information transmission channel is generated and then inserted into the synchronous synchronous system information transmission channel and transmitted.

Then, the asynchronous / synchronous mobile station 300 receives the discovery message of the adjacent synchronous base station and the information related to the adjacent synchronous base stations 100 from the asynchronous base station 200, and searches for the adjacent synchronous base stations 100. The result message corresponding thereto is transmitted to the asynchronous base station 200 (S109).

Subsequently, the asynchronous base station 200 receives a search result message related to the adjacent synchronous base station transmitted from the asynchronous / synchronous mobile station 300, and then the synchronous base station 100 satisfying the handoff condition is found. It is determined whether there exists (S110).

In this case, if there is no synchronous base station 100 that satisfies the handoff condition in step 110 (NO) (NO), the asynchronous base station 200 proceeds to step 103 (S103) and handoffs. If there is a synchronous base station satisfying the condition (YES), the asynchronous base station 200 inserts the long code state information of the synchronous system into the handoff message and transmits it to the asynchronous / synchronous mobile station 300 (S111).

Then, the asynchronous / synchronous mobile station 300 receives the handoff message and the long code state information of the synchronous base station from the asynchronous base station 200 and uses the long code state information of the synchronous base station 100 to synchronize the corresponding sync. Handoff is performed to the base station 100 (S112).

In addition, if there is an asynchronous base station satisfying the handoff condition among the search results related to adjacent asynchronous base stations in step 107 (YES), the asynchronous base station 200 satisfies the other handoff condition. In step S113, the asynchronous / synchronous mobile station 300 is handed off.

An apparatus and method for handoff processing from an asynchronous system to a synchronous system are provided in a mobile communication system in which an asynchronous / synchronous mobile station, an asynchronous wireless network, and a synchronous wireless network are interworked. In spite of using, it is possible to provide a smooth handoff between the asynchronous system and the synchronous system, thereby providing the effect of realizing mobile communication.

Claims (15)

A plurality of synchronous base stations communicating in synchronization according to the master clock from the GPS, and a plurality of asynchronous base stations adjacent to the plural synchronous base stations and used as reference times by giving different time offsets at arbitrary times without the same reference time. An apparatus for processing handoff from an asynchronous system to a synchronous system in a mobile communication system including a plurality of synchronous base stations and a plurality of asynchronous / synchronous mobile stations capable of talking with both of the synchronous base stations, The plurality of asynchronous base stations demodulate pilot signals and synchronization signals transmitted from adjacent synchronization base stations to receive information related to a synchronization system such as absolute time information, long code status information, short code status information, etc. of adjacent synchronization base stations. Apparatus for handoff processing from the asynchronous system to the synchronous system, characterized in that each device is provided. The receiver as set forth in claim 2, wherein the receiver mounted on the plurality of asynchronous base stations is any one of a GPS receiver and a synchronous system signal receiver when the cell of the asynchronous system is completely included in the cell of the synchronous system. Handoff processing unit from the asynchronous system to the synchronous system. 3. The receiver of claim 2, wherein the receiver mounted on the plurality of asynchronous base stations is an asynchronous GPS receiver when the cells of the asynchronous system are within cell coverage of the synchronous system or when only a part of the synchronous system cells overlap. Handoff processing unit from system to synchronous system. A first step of the asynchronous base station performing an initialization operation to set its absolute time t after obtaining the absolute time information of the adjacent synchronous base station; A second step of determining whether an asynchronous / synchronous mobile station attempted a call; If the asynchronous / synchronous mobile station does not attempt the call in the second step, the process proceeds to the second step again, while when the asynchronous / synchronous mobile station attempts the call, the asynchronous base station adjusts the absolute time to A third step of conducting a call with an asynchronous / synchronous mobile station; A fourth step of the asynchronous base station determining whether the position of the asynchronous / synchronous mobile station is a handoff area; In step 4, if the location of the asynchronous / synchronous mobile station is not in the handoff area, the process proceeds to the third step again. If the location of the asynchronous / synchronous mobile station is in the handoff area, the asynchronous base station determines the adjacent asynchronous base stations. Transmitting a message to search to said asynchronous / synchronous mobile station; A sixth step in which the asynchronous / synchronous mobile station receives a discovery message of an adjacent asynchronous base station from the asynchronous base station, searches for an adjacent asynchronous base station, and transmits a corresponding result message to the asynchronous base station; A seventh step of determining whether there is an asynchronous base station satisfying the handoff condition among the search results after the asynchronous base station receives the search result message related to the adjacent asynchronous base station transmitted from the asynchronous / synchronous mobile station; If there is no asynchronous base station that satisfies the handoff condition in the seventh step, the absolute time information, long code state information, and short code state information related to the adjacent synchronous base stations with the message that the asynchronous base station searches for the adjacent synchronous base stations. And an eighth step of transmitting its offset time information to the asynchronous / synchronous mobile station. The synchronous / synchronous mobile station receives a discovery message of a neighbor sync base station and information related to neighbor sync base stations from the asynchronous base station, searches for neighbor sync base stations, and transmits a corresponding result message to the asynchronous base station; step; A tenth step of, after the asynchronous base station receives a search result message related to an adjacent synchronous base station transmitted from the asynchronous / synchronous mobile station, determining whether there is a synchronous base station satisfying a handoff condition among the search results; If there is no synchronous base station satisfying the handoff condition in the tenth step, the process proceeds to the third step again. If there is a synchronous base station satisfying the handoff condition, the asynchronous base station sends a handoff message to the asynchronous / synchronous. An eleventh step of transmitting to the combined mobile station; And And a twelfth step in which the asynchronous / synchronous mobile station receives a handoff message from the asynchronous base station and performs a handoff to the corresponding synchronous base station using the long code state information of the synchronous base station already transmitted. How to handle handoff from asynchronous system to synchronous system. The method of claim 4, wherein The first step may include steps 1-1 in which the asynchronous base station receives an offset time T _{offset, i} from an upper layer through an asynchronous system initialization message; A first step 1-2 in which the asynchronous base station acquires absolute time information of neighboring synchronous base stations through a receiver and sets the reference time T as its reference time; And The asynchronous base station comprises the first to third steps of setting the absolute time (t) using the offset time (T _{offset, i} ) and the reference time (T) handoff process from the asynchronous system to the synchronous system Way. The method of claim 5, wherein the offset time (T _{offset, i} ) received from the upper layer in step 1-1 is different for each asynchronous base station from any value except for a value that is an integer multiple of the number of chips per slot defined in the asynchronous system. A handoff processing method from an asynchronous system to a synchronous system, characterized in that for selecting and using the offset time (T _{offset, i} ). The method of claim 5, wherein the method for setting the absolute time t in the first to third steps is calculated using Equation 1 below. . [Equation 1] t _i = T + T _{offset, i} ; i = 0, 1, 2,... , N,… Here, t _i means the absolute time of the asynchronous base station corresponding to the i-th, T means the reference time, T _{offset, i} means the offset time. 5. The asynchronous base station of claim 4, wherein the method is asynchronous to the asynchronous base station satisfying the other handoff condition if there is an asynchronous base station satisfying the handoff condition among the search results related to the adjacent asynchronous base stations in the seventh step. And a thirteenth step of performing a handoff of the synchronous mobile station. 5. The method of claim 4, wherein in the eighth step, the asynchronous base station transmits absolute time information, long code status information, short code status information, and its offset time information related to adjacent synchronous base stations to the asynchronous / synchronous mobile station. The method is a method for processing handoff from an asynchronous system to a synchronous system, characterized in that the transmission using any one of the asynchronous broadcast channel, asynchronous paging channel, asynchronous synchronous system information transmission channel, synchronous synchronous system information transmission channel. Step 101, the asynchronous base station performs initialization to set its absolute time t after obtaining the absolute time information of the adjacent synchronous base station; Step 102 of determining whether an asynchronous / synchronous mobile station attempted a call; In step 102, if the asynchronous / synchronous mobile station does not attempt a call, the process proceeds to step 102 again. If the asynchronous / synchronous mobile station attempts a call, the asynchronous base station matches the absolute time t. Step 103 of making a call with the asynchronous / synchronous mobile station; Step 104, wherein the asynchronous base station determines whether the position of the asynchronous / synchronous mobile station is a handoff area; In step 104, if the location of the asynchronous / synchronous mobile station is not in the handoff area, the flow returns to step 103. If the location of the asynchronous / synchronous mobile station is in the handoff area, the asynchronous base station determines the adjacent asynchronous base stations. Transmitting a message to search to the asynchronous / synchronous mobile station; Step 106, the asynchronous / synchronous mobile station receives a discovery message of an adjacent asynchronous base station from the asynchronous base station, searches for an adjacent asynchronous base station, and transmits a corresponding result message to the asynchronous base station; Step 107, after the asynchronous base station receives the search result message related to the adjacent asynchronous base station transmitted from the asynchronous / synchronous mobile station, determining whether there is an asynchronous base station satisfying the handoff condition among the search results; If there is no asynchronous base station that satisfies the handoff condition in step 107, the absolute time information excluding long code state information from the information related to the adjacent synchronous base stations with a message for the asynchronous base station to search for adjacent synchronous base stations, and a short Step 108 of transmitting code status information and its offset time information to the asynchronous / synchronous mobile station; The asynchronous / synchronous mobile station receives all the information except the long code state information among the information related to the adjacent synchronous base stations together with the discovery message of the adjacent synchronous base station from the asynchronous base station, searches for the adjacent synchronous base stations, and corresponds to the corresponding result. Step 109, transmitting a message to the asynchronous base station; Step 110, after the asynchronous base station receives the search result message related to the adjacent synchronous base station transmitted from the asynchronous / synchronous mobile station, determining whether there is a synchronous base station satisfying the handoff condition among the search results; If there is no synchronous base station that satisfies the handoff condition in step 110, the process proceeds to step 103 again. If there is a synchronous base station that satisfies the handoff condition, the asynchronous base station sends a long message to the handoff message. Inserting code status information and transmitting the code status information to the asynchronous / synchronous mobile station; And Step 112, wherein the asynchronous / synchronous mobile station receives a handoff message from the asynchronous base station and long code state information of the synchronous base station, and performs handoff to the corresponding synchronous base station using the long code state information of the synchronous base station. Handoff processing method from the asynchronous system to the synchronous system comprising a. The method of claim 10, Step 101 may include: step 101-1, in which the asynchronous base station receives an offset time T _{offset, i} from an upper layer through an asynchronous system initialization message; Step 101-2, wherein the asynchronous base station obtains absolute time information of neighboring synchronous base stations through a receiving apparatus and sets the reference time T as its reference time; And Step 101-3 _, wherein the asynchronous base station sets an absolute time t by using an offset time T _{offset, i} and a reference time T, handoff processing from the asynchronous system to the synchronous system Way. 12. The method of claim 11, wherein the offset time (T _{offset, i} ) received from the upper layer in step 101-1 is different for each of the asynchronous base station among any value except for a value that is an integer multiple of the number of chips per slot defined in the asynchronous system. A handoff processing method from an asynchronous system to a synchronous system, characterized in that for selecting and using the offset time (T _{offset, i} ). 12. The method of claim 11, wherein the method for setting the absolute time t in step 101-3 is calculated using Equation 1 below. . [Equation 1] t _i = T + T _{offset, i} ; i = 0, 1, 2,... , N,… Here, t _i means the absolute time of the asynchronous base station corresponding to the i-th, T means the reference time, T _{offset, i} means the offset time. The asynchronous base station of claim 10, wherein the method is asynchronous to the asynchronous base station satisfying the other handoff condition if there is an asynchronous base station satisfying the handoff condition among the search results related to the adjacent asynchronous base stations in step 107. And step 113 of performing a handoff of a synchronous mobile station. The mobile station of claim 10, wherein in step 108, the asynchronous base station converts the absolute time information, the short code state information, and its offset time information except only the long code state information among the information related to adjacent synchronous base stations to the asynchronous / synchronous mobile station. The transmission method is a handoff process from an asynchronous system to a synchronous system, characterized in that the transmission using any one of the asynchronous broadcast channel, asynchronous paging channel, asynchronous synchronous system information transmission channel, synchronous synchronous system information transmission channel. Way.

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