KR100249492B1 - Method of operating multisector in wireless communication system and method of processing soft handoff call - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a multisector operating method and a soft handoff call processing method in a wireless communication system.

2. The technical problem to be solved by the invention

The present invention provides a multi-sector operation method and a soft handoff call processing method in a wireless communication system capable of operating four or more sectors in a base station by changing a database structure and software without changing hardware in the conventional wireless communication system. To provide.

3. Summary of Solution to Invention

The present invention changes the database so that one base station can operate with four or more sectors, and shares resources such as leased lines and GPS, and handoff between base stations performs a conventional soft handoff, but in a group within the same base station. The concept is to perform soft handoff between sectors belonging to the same group and soft handoff between other groups.

4. Important uses of the invention

The present invention is used for soft handoff at the same base station, such as a CDMA system.

Description

Multisector Operation Method and Soft Handoff Call Processing Method in Wireless Communication System

The present invention relates to a method of operating multiple sectors of four sectors or more in a base station of a wireless communication system such as a code division multiple access (CDMA) mobile telephone system. A multisector operation method and a soft handoff call processing method.

1 is a block diagram of a general code division multiple access (CDMA) digital mobile telephone system.

The mobile station (MS) 11 wirelessly communicates with the base station 12 to transmit and receive call connection and traffic messages, and connects the user to the base station 12 to perform signal processing for voice conversion and incoming / outgoing calls. .

The base station (BTS) 12 wirelessly communicates with the mobile station 11 to perform call control functions such as call connection and transmission and reception of traffic data, and is connected to the control station 13 by wire and transmitted by the mobile station 11. It transmits a call connection or traffic message to the control station 13 or transmits a message to the mobile station 11 which the control station 13 sends to the mobile station 11. It also performs signal processing for communication with the control station 13 and maintenance processing by communicating with the operating station. Here, the base station 12 provides a service by dividing it into one or more areas, which is called a sector.

The control station 13 is connected to a plurality of base stations 12 to perform call processing functions such as call / receive and handoff between the base station 12 and the switching station 14, and for maintenance of the base station 12 Function

The exchange station 14 connects with the control station 13, the public switched telephone network (PSTN), and other exchange stations 14 to perform mobile phone call / receive call processing, handoff processing, system maintenance, and operation management functions.

In general, a mobile communication system arranges a plurality of base stations 12 in a service area due to problems such as frequency use efficiency and power consumption, and provides services by dividing into sectors within the same base station 12. In this case, when the mobile station 11 moves during a call, it provides a handoff function that constantly connects to a radio channel of another base station 12 or another sector to maintain continuity of the call.

Handoff services provided in a code division multiple access (CDMA) digital mobile communication system include a soft handoff method and a hard handoff method.

The soft handoff method refers to a mobile handset 11 being allocated with a call channel from two base stations 12 at the same time while the mobile station 11 is in service between the serving base station 12 and the adjacent base station 12. In the off-hand method, when the number of frequency channels used by the serving base station 12 and the neighboring base station 12 is different from each other, the current handoff is disconnected and the call is continued by changing a new frequency supported by the neighboring base station.

The soft handoff method is mainly performed by the mobile station 11 initiating a call with the new base station 12 without disconnection with the base station 12 with which the existing call was made, and consequently continuing the call simultaneously with the two base stations 12. It is generated at the boundary area between two base stations 12. Accordingly, soft handoff occurs between neighboring base stations 12 and softer handoff occurs between different sectors in the same base station 12.

Conventionally, the base station 12 has been operated with up to three sectors. This is because a channel element (CE) which is a radio resource in the base station 12 may be selectively connected in up to three paths. Thus, the structure of the database also had up to three sectors per base station 12.

2 is a structural diagram of a conventional database, in which there are n base stations (BTS-IDs) under one control station (BSC-ID), and a hierarchical structure having up to three sectors (SECTOR-ID) under each base station. Indicates.

Since the CE, which is a radio resource in the base station, can be selectively connected in up to three paths, the database structure is designed to operate with up to three sectors per base station.

3 is a flowchart of a conventional handoff call processing procedure.

First, when the mobile station receives a signal of a certain intensity or more from a sector other than the sector in which it is currently calling, it requests a handoff to the base station through a message, and the message sent by the mobile station is transmitted to the control station through the channel element CE (31). ).

The control station then determines 32 the handoff type using the sector information in the message sent by the mobile station. As a result of the determination, if the softer handoff is performed, the softer handoff is performed (33). If the soft handoff is performed, the soft handoff is performed (34).

If the control station determines that the softer handoff, the control station instructs the softener handoff to the channel element (CE) of the current base station (331). At this time, the channel element CE prepares to communicate with the mobile station in two paths by adding a target sector in addition to the sector currently being performed.

Next, the control station directs the softer handoff to the mobile station via the CE (332).

On the other hand, if the control station determines that it is a soft handoff, the control station instructs the soft handoff to the processor (BSP) of the target base station (341). The BSP then allocates the CE in the base station and prepares to talk to the mobile station.

The control station then informs 342 that soft handoff is initiated to the CE of the current base station.

The control station then instructs 343 the softer handoff to the mobile station simultaneously via the two CEs.

4 is a flowchart of a conventional handoff type determination, in which the control station of FIG. 3 uses the sector information in the message sent by the mobile station to determine the handoff type.

First, it is determined whether the base station to which the sector to be handoffed belongs is the same as the base station to which the sector to which the mobile station is currently talking is the same (41).

If the base station to which the sector belongs is the same as the base station to which the sector to which the mobile station is currently talking is the same, a soft handoff is performed (42). The base station to which the sector belongs to the base station to which the sector to which the mobile station is currently talking is not the same. Otherwise, a soft handoff is performed (43).

Conventionally, intersectoral handoff within the same base station is performed by a database structure so as to perform only softer handoff and operate up to three sectors per base station during base station operation. However, when a base station needs four or more sectors due to the service area, there is a problem in that additional base stations must be installed because resources such as a leased line and a global position system (GPS) cannot be shared.

In order to solve the above problems, the present invention provides a multi-sector in a wireless communication system capable of operating four or more sectors in a base station only by changing a database structure and software without a hardware change of a conventional wireless communication system. It is an object of the present invention to provide an operation method and a soft handoff call processing method.

1 is a block diagram of a general code division multiple access (CDMA) digital mobile telephone system.

2 is a structural diagram of a conventional database.

3 is a flow diagram for a conventional handoff call processing procedure.

4 is a flow diagram for a conventional handoff type determination.

5 is a schematic structural diagram of an embodiment base station hardware environment according to the present invention;

6A is a schematic diagram illustrating an embodiment database structure in accordance with the present invention.

6B is a schematic diagram showing a database structure of another embodiment according to the present invention.

7 is a flowchart of an embodiment of a soft handoff call processing procedure within the same base station according to the present invention;

8 is a flow diagram of an embodiment for handoff type determination when using the database structure of FIG. 6A.

9 is a flowchart illustrating another embodiment of handoff type determination when using the database structure of FIG. 6B.

10 is a schematic diagram showing a wireless network using a multi-sector according to the present invention.

* Explanation of symbols for the main parts of the drawings

11 mobile station (MS) 12 base station (BTS)

13: control station (BSC) 14: exchange station (MSC)

One embodiment of the present invention for achieving the above object is a soft handoff call processing method in a wireless communication system comprising a base station including at least four sectors, and a control station for controlling the base station with a database; A first step of the base station requesting a handoff to the control station in response to a request from a mobile station; A second step of judging whether the base station to which the sector to be handed off belongs and the base station to which the sector to which the mobile station is currently communicating are the same; A third step of performing a soft handoff between different base stations if the result of the second step determination is not the same, and determining whether the group to which the target sector belongs is the same as the group to which the sector to which the current mobile station is talking belongs; And a fourth step of performing softer handoff if the third step determination result is the same, and performing soft handoff between different groups in the same base station if they are not the same.

Another embodiment is a soft handoff method in a wireless communication system comprising a base station comprising at least four sectors and a control station controlling a base station with a database, wherein the base station is configured in response to a request from a mobile station. Requesting handoff to the control station; A second step of judging whether the base station to which the sector to be handed off belongs and the base station to which the sector to which the mobile station is currently communicating are the same; If the result of the second determination is not the same, soft handoff between different base stations is performed. If the result is the same, an integer value obtained by dividing an identifier of a target sector by a predetermined value and an integer value obtained by dividing an identifier of a current sector by the predetermined value is determined. A third step of determining whether it is the same; And a fourth step of performing softer handoff if the third step determination result is the same, and performing soft handoff between different sectors in the same base station if the third step determination result is the same.

Hereinafter, with reference to the accompanying drawings will be described in detail this embodiment according to the present invention.

5 is a schematic structural diagram of an exemplary base station hardware environment according to the present invention.

As shown in the figure, the base station according to the present invention accommodates the hardware of the conventional base station without change, and only a radio frequency (RF) unit, a transceiver unit corresponding to a sector added to the base station, and It only requires additional installation of the digital unit part. In other words, there is no need to additionally install a Global Positioning System (GPS), a Control, and an Interconnection Unit. In addition, the system to which the present invention is applied can be configured in the same manner as the conventional system except for the minor hardware change of the base station as described above.

6A and 6B are structural diagrams of a database of two embodiments according to the present invention.

FIG. 6A is a diagram illustrating a group concept between a base station and a sector in a conventional mobile telephone system, extending the structure of a database from a control station to a sector in a conventional three to four steps, wherein the group includes at least a lower layer of each base station. One group has at least one group each having three sectors in its lower layer.

FIG. 6B shows a conventional three-stage database structure from a control station to a sector, and has a structure in which at least four sector identifiers are included in one base station identifier lower layer.

7 is a flowchart illustrating an embodiment of a soft handoff call processing procedure within the same base station according to the present invention.

The soft handoff procedure of the present invention and the soft handoff between other base stations are the same as in the prior art, but are different from the conventional soft handoff method in that soft handoff can be performed in the same base station.

First, when the mobile station receives a signal of a certain intensity or more from a sector other than the sector in which it is currently talking, it requests a handoff to the base station through a message, and the message sent by the mobile station is transmitted to the control station through the CE of the base station (71).

The control station then determines 72 the handoff type using the sector information in the message sent by the mobile station. As a result of the determination, if the softer handoff between the same base station is performed, the softer handoff procedure of FIG. 3 is performed. If the soft handoff between other base stations is performed, the conventional soft handoff procedure of FIG. 3 is performed. In addition, if it is determined that the soft handoff between other groups in the same base station, the soft handoff procedure is performed (73).

First, if the control station determines that the soft handoff is in the same base station, the control station instructs the soft handoff to the processor (BSP) of the current base station (731). At this time, the BSP allocates another channel element CE_B in the base station to prepare to talk to the mobile station.

The control station then notifies the conventional channel element CE_A that soft handoff has begun (732). In this case, the soft handoff instruction 731 and the soft handoff notification 732 are messages transmitted to the same base station and thus may be processed in one procedure.

Next, the control station instructs the softer handoff to the mobile station simultaneously through the two CEs (733).

FIG. 8 is a flowchart illustrating a handoff type determination when using the database structure of FIG. 6A.

First, it is determined whether the base station to which the sector to be handoffed belongs is the same as the base station to which the sector to which the mobile station is currently talking is the same (81).

If it is determined that the base station to which the sector to be handoffed belongs to the base station to which the sector to which the mobile station is currently talking is not the same, soft handoff is performed (84). If the base stations to which the sector in talks belong are the same, it is determined whether the group to which the target sector belongs is the same as the group to which the sector to which the current mobile station is talking belongs.

As a result, if the group to which the target sector belongs is the same as the group to which the sector to which the current mobile station is talking belongs, perform softer handoff (83), and the group to which the target sector belongs to the group to which the sector to which the current mobile station is talking belongs. If not equal, soft handoff is performed (84).

FIG. 9 is a flowchart illustrating another embodiment of handoff type determination when using the database structure of FIG. 6B.

In step 91, it is determined whether the base station to which the sector to be handoffed belongs is the same as the base station to which the sector currently being talked to by the mobile station belongs.

If it is determined that the base station to which the sector belongs and the base station to which the sector to which the current mobile station is talking belongs is not the same, a soft handoff is performed between the other base stations (94). If this is the same, it is determined whether the integer value obtained by dividing the identifier (ID) of the target sector by 3 and the integer value obtained by dividing the ID of the current sector by 3 are equal (92).

As a result of determination, if the integer value obtained by dividing the identifier (ID) of the target sector by 3 and the integer value obtained by dividing the ID of the current sector by 3 are the same, a softener handoff is performed (93), and the identifier (ID) of the target sector is 3. If the integer value divided by 3 and the integer value obtained by dividing the ID of the current sector by 3 are not equal to each other, soft handoff is performed (94).

10 is a configuration diagram schematically illustrating a wireless network using multiple sectors according to the present invention, and shows a wireless network configuration in the case where one base station accommodates four or more sectors.

Four or more multisectors of one base station connected to the control station by dedicated lines may be installed in an area adjacent to the sectors 0 to 2 of the conventional base station, such as the sectors 3 to 5 of the adjacent base station, or the sectors 6 to 8 of the remote base station. It can also be installed in a specific region. It may also be used in areas where only one sector is needed to service underground shopping malls, golf courses and the like, such as sectors 9 and 10. Here, the connection with the remote sector may use a fiber optic or a microwave.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains, and the above-described embodiments and accompanying It is not limited to the drawing.

In the present invention as described above, since four or more multisectors are used, efficient base station installation and operation are possible, and when an additional base station is installed around a conventional base station, a sector in the base station needs to be added to the base station to add a radio frequency part corresponding to the sector. By installing at the branch, centralized base station management is possible, and by sharing resources such as leased line and GPS, base station installation cost and operation cost can be reduced.

Claims (8)

A soft handoff call processing method in a wireless communication system comprising a base station including at least four sectors, and a control station controlling a base station with a database. A first step of the base station requesting handoff to the control station in response to a request from a mobile station; A second step of judging whether the base station to which the sector to be handed off belongs and the base station to which the sector to which the mobile station is currently communicating are the same; A third step of performing a soft handoff between different base stations if the result of the second step determination is not the same, and determining whether the group to which the target sector belongs is the same as the group to which the sector to which the current mobile station is talking belongs; And A fourth step of performing softer handoff if the third step determination result is the same, and performing soft handoff between different groups in the same base station if they are not identical. Multisector operation method and soft handoff call processing method in a wireless communication system comprising a. The method of claim 1, The database is, A multi-sector operating method and soft handoff call in a wireless communication system, characterized in that it has at least one group as a lower layer of each base station, and each of the at least one group has three sectors as its lower layer. Treatment method. The method according to claim 1 or 2, The process of performing the soft handoff between different groups in the same base station of the fourth step, A fifth step of the base station processor assigning another channel element in the base station when the control station instructs the soft handoff to the processor of the current base station; A sixth step of notifying the previous channel element that the soft handoff is initiated when the base station processor allocates another channel element in the base station and prepares to make a call; And A seventh step in which the control station instructs a soft handoff to the mobile station simultaneously through the two channel elements. Multisector operation method and soft handoff call processing method in a wireless communication system comprising a. A soft handoff method in a wireless communication system comprising a base station comprising at least four sectors and a control station controlling a base station with a database, A first step of the base station requesting handoff to the control station in response to a request from a mobile station; A second step of judging whether the base station to which the sector to be handed off belongs and the base station to which the sector to which the mobile station is currently communicating are the same; If the result of the second determination is not the same, soft handoff between different base stations is performed. If the result is the same, an integer value obtained by dividing an identifier of a target sector by a predetermined value and an integer value obtained by dividing an identifier of a current sector by the predetermined value is determined. A third step of determining whether it is the same; And A fourth step of performing softer handoff if the third step determination result is the same, and performing soft handoff between different sectors in the same base station if they are not identical. Multisector operation method and soft handoff call processing method in a wireless communication system comprising a. The method of claim 4, wherein The database is, A method of operating a multisector and a soft handoff call processing method in a wireless communication system, characterized in that at least four sector identifiers are included in one base station identifier lower layer. The method according to claim 4 or 5, In the fourth step, the soft handoff between different sectors in the same base station is performed. A fifth step of the base station processor assigning another channel element in the same base station when the control station instructs a soft handoff to the processor of the current base station; A sixth step of notifying that a soft handoff is initiated to a previous channel element when the base station processor allocates another channel element in the same base station and prepares to make a call; And A seventh step in which the control station instructs a soft handoff to the mobile station simultaneously through the two channel elements. Multisector operation method and soft handoff call processing method in a wireless communication system comprising a. The method of claim 4, wherein The predetermined value for dividing the identifier of the target sector is 3. A multisector operating method and a soft handoff call processing method in a wireless communication system, characterized in that 3. The method of claim 1, Wireless network configuration method using the multi-sector, A multisector operating method and a soft handoff call processing method in a wireless communication system, comprising four or more adjacent or non-adjacent sectors as one base station.

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