KR100373343B1 - Softer Handoff Method for Supplemental Channel in Time Division Multiplexing - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a high-speed data service used as a main function in a next generation mobile communication (IMT-2000) system and the like, and relates to a handoff method when time-division multiplexing additional channels in data service. Will.

2. The technical problem to be solved by the invention

The present invention has been made to solve the above-described problems, and when a sector-to-sector movement occurs during a high-speed data service call, the base channel performs soft handoff in the same manner as a voice call and operates by time division multiplexing. When additional data channel is time-division multiplexed during data service, the additional channel is handoffed by assigning only one sector among the sectors to which the current basic channel is added without performing handoff processing together with the basic channel. A computer-readable recording medium having a handoff method and a program for realizing the method is provided.

3. Summary of Solution to Invention

The present invention relates to a handoff method of data communication, which is applied to a wireless communication system operating an additional channel in a time division multiplexing scheme, wherein a mobile station moves from a sector in which data communication is currently maintained to another sector. After performing a soft handoff operation to allocate a new sector in addition to the sector in which data communication is currently maintained, the additional channel detects the signal transmission status of each sector and transmits the sector to which the current additional channel is allocated. Is the best step, disconnecting the sector to which the current additional channel is allocated and establishing a connection to the sector having the best signal transmission state; A second step of releasing the connection to the additional channel from the sector to which the current connection is established as the connection to the base channel is released from the sector to which the current connection is established while maintaining data communication; And a third step of establishing a connection to another sector while performing additional channel release for a sector to which a current connection is established while maintaining data communication.

4. Important uses of the invention

The present invention is used in a wireless communication system and the like.

Description

Softer Handoff Method for Supplemental Channel in Time Division Multiplexing

The present invention relates to a high-speed data service that is used as a main function in a next generation mobile communication (IMT-2000) system, and the like. A computer readable recording medium having recorded thereon a program for realizing the method.

Softer handoff in CDMA (Code Division Multiple Access) communication is a technology that prevents calls from being disconnected when a mobile station (MS) moves between sectors within the same base station (BS). It is the communication between a mobile station and a base station through one or more sectors at the boundary portion. Naturally, this should be applied not only to voice calls but also to data services. However, there is a difference in the transmission channel between voice calls and data services (especially high-speed services) of IS (Interim Standard) -2000 (a standard for synchronous IMT-2000 technology). Softer handoffs are not applicable to data services.

That is, the voice call is communicated using only the fundamental channel, but the high-speed data service uses the basic channel and the supplemental channel at the same time. Therefore, in soft handoff, voice calls only need to be ADD, DROP, and SWAP for basic channels, but high-speed data service calls must consider both basic and additional channels. Furthermore, when using time division multiplexing rather than simply using additional channels, there are more considerations for soft handoff.

That is, since the basic channel is handoffed by the soft handoff method in the state in which the basic channel is ed, it receives data from several sectors at the same time as in the conventional method, and disconnects all other sectors except one sector. Maintain continuity of data transfer. However, since the additional channel uses time division multiplexing, unlike the basic channel using CDMA, the channel is allocated according to time. Therefore, if the softer handoff method is used for the additional channel, even if the additional channel is disconnected from the allocated sector to another sector, even when the additional channel is allocated to the newly connected sector, even when the basic channel needs to be disconnected for seamless soft handoff. Problems occur such as maintaining connection with an existing sector.

In addition, if the existing softer handoff scheme is applied to a high speed data service call operating by time division multiplexing of additional channels, problems such as problems in radio resource management or poor quality of data service may occur.

The present invention has been made to solve the above-described problems, and when a sector-to-sector movement occurs during a high-speed data service call, the base channel performs soft handoff in the same manner as a voice call and operates by time division multiplexing. When additional data channel is time-division multiplexed during data service, the additional channel is handoffed by assigning only one sector among the sectors to which the current basic channel is added without performing handoff processing together with the basic channel. It is an object of the present invention to provide a computer-readable recording medium recording a handoff method and a program for realizing the method.

1 is a configuration diagram of an embodiment of a next generation mobile communication (IMT-2000) system to which the present invention is applied.

FIG. 2 is a signal flow diagram illustrating an ed process of a handoff method in time division multiplexing of an additional channel according to the present invention; FIG.

3 is an exemplary signal flow diagram for a drop process of a handoff method in time division multiplexing operation of an additional channel according to the present invention;

4 is a flowchart illustrating an operation of an ed process in a handoff method in time division multiplexing of additional channels according to the present invention;

* Explanation of symbols for the main parts of the drawings

11: IMT-2000 terminal 12: base station

13: base station controller 14: location storage device / authentication center

15: IMT-2000 ATM Switch 16: Service Control System

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides a handoff method of data communication, which is applied to a wireless communication system operating an additional channel in a time division multiplexing scheme, wherein a mobile station moves from a sector in which data communication is currently maintained to another sector. When a new sector is allocated in addition to a sector in which data communication is currently maintained by performing a softer handoff operation on a basic channel, the additional channel is detected by detecting a signal transmission state of each sector. A first step of releasing a connection to the sector to which the current additional channel is allocated and establishing a connection to a sector having the lowest signal transmission state if the transmission state of the sector in which the current channel is best is attained; A second step of releasing the connection to the additional channel from the sector to which the current connection is established as the connection to the base channel is released from the sector to which the current connection is established while maintaining data communication; And a third step of establishing a connection to another sector while performing additional channel release on a sector to which a current connection is established while maintaining data communication.

On the other hand, the present invention provides a softer for a basic channel when a mobile station moves from a sector in which data communication is currently maintained to another sector in a wireless communication system having a high-capacity processor, which operates an additional channel in a time division multiplexing scheme. After performing a handoff operation and allocating a new sector in addition to the sector in which the current data communication is maintained, the additional channel detects the signal transmission status of each sector, and the transmission status of the sector to which the additional channel is currently allocated is the best. If not, a first function of releasing a connection to the sector to which the current additional channel is allocated and establishing a connection to the sector with the lowest signal transmission state; A second function of releasing the connection to the additional channel from the sector to which the current connection is established as the connection to the base channel is released from the sector to which the current connection is established while maintaining data communication; And a computer readable recording medium having recorded thereon a program for realizing a third function of establishing a connection to another sector while performing additional channel release to a sector to which a current connection is established while maintaining data communication.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of an embodiment of a next generation mobile communication (IMT-2000) system to which the present invention is applied.

As shown in FIG. 1, a base station exchanging data and control signals with an IMT-2000 terminal 11 supporting various types of data from voice to multimedia data and the IMT-2000 terminal 11 by a wireless signal method. 12, an IMT-2000 ATM (Asynchronous Transfer Mode) switch 15 having a switching function, a base station controller 13 controlling the base station 12, and a location storage device / authentication center that manages information on subscribers ( LR / AC) 14 and a service control system 16 for managing information related to the intelligent network service of the subscriber.

At this time, the IMT-2000 ATM switch 15 and the subscriber interface using a Mobile Application Protocol (MAP) of Global Service for Mobile communications (GSM), the service control system 16 is an intelligent network application protocol It is interworked using (Intelligent Network Application Protocol: INAP). Unlike the wired network intelligent network, the IMT-2000 system manages the location information and service profile of the subscriber in the location storage device / authentication center 14, not the exchange, and the information related to the intelligent network service of the subscriber in the service control system 16. Manage. That is, the subscriber's data is distributed to the location storage / authentication center 14 and the service control system 16.

The handoff method in the time division multiplexing operation of the additional channel proposed by the present invention is performed through three operations of ADD, DROP, and SWAP. Among them, swap is performed simultaneously with the ed and the drop. Hereinafter, an embodiment of the handoff method will be described in detail with reference to FIGS.

2 is a signal flow diagram illustrating an ed process of a handoff method in time division multiplexing of additional channels according to the present invention.

While the mobile station (for example, the IMT-2000 terminal) is currently receiving data by using both the basic channel and the additional channel in the sector 21 in which the mobile station is currently located (201), switching to another sector by the movement of the mobile station or other When area sharing with the sector area occurs, first the ED for the base channel occurs first. That is, the mobile station receives a basic channel ed command from the data service block 23 located in the base station 202, performs a basic channel ed process for another sector (203), and then sends an ed completion signal to the data service block 23. Send (204).

After the ed on the basic channel is performed as described above (203), the mobile station continues to receive data using the basic channel and the additional channel in the existing sector 21 (201), and the basic channel in the ed sector 22 Data is transmitted only through 205. The data service block 23 of the base station continuously detects the reception radio state of the data transmitted from each sector by the mobile station, and then wirelessly receives the newly added sector 22 than the radio reception sensitivity from the existing sector 21. When the sensitivity becomes better, the mobile station sends a drop command of the additional channel to the underlying sector 21 (206).

After receiving the drop command of the additional channel for the existing sector 21 (206), the mobile station releases the connection of the additional channel to the existing sector 21 (207) and then sends a drop completion signal to the data service block 23. Send (208).

Having received the drop complete report of the supplementary channel for the existing sector 21 from the mobile station (208), the data service block 23 sends an Ed instruction of the supplementary channel to the mobile station to allocate the supplemental channel for the ed sector 22. Call 209. The mobile station receiving the ADD command of the additional channel (209) performs the ed process of the additional channel on the ed sector 22 (210) and then sends an ED complete signal to the data service block 23 (211). ).

As a result of performing the above process, the mobile station performs data service only through the basic channel from the existing sector 21 (212), and from the new sector 22, the data service through the additional channel as well as the basic channel. It is performed (213).

The above process is not only performed between the two sectors of the existing sector and the sector to be ed, but can also be applied to a mobile station that is extended to receive signals from multiple sectors at the same time. That is, in detail, when an additional channel needs to be allocated while the base channel is receiving signals from several sectors, the base station determines the radio state of the sectors currently being added to the base channel, and the additional channel currently exists. If there is a better sector than the sector, the additional channel is allocated only to that sector.

3 is a signal flow diagram according to an embodiment of a drop process in a handoff method in time division multiplexing of additional channels according to the present invention.

The mobile station is currently performing data service through the base channel and the additional channel from the sector to be dropped 31 which is assigned the base channel and the additional channel (301), and receives a drop command for the base channel from the data service block 32. In operation 302, a drop process for the basic channel is performed to drop the basic channel (303). In this case, there may be a sector in which an additional channel is not allocated and only a base channel is signaled, but a sector in which no base channel is allocated and a signal in which only an additional channel is signaled cannot exist. The drop process is also performed (304).

After performing the drop not only for the basic channel but also for the additional channel as described above, the mobile station transmits a drop completion signal to the data service block (305).

4 is a flowchart illustrating an operation of an ed process in a handoff method in time division multiplexing of additional channels according to the present invention.

When the mobile station of the next generation mobile communication (IMT-2000) service is receiving data from the currently allocated sector (401), and there is a movement from the sector allocated to the mobile station to an area overlapping with another neighboring sector, the next generation mobile communication The intersectoral handoff method of the service uses a softer handoff method for the basic channel, so that it maintains a connection with the sector currently allocated to the mobile station and adds it to another neighboring sector where the regions overlap. 402).

At this time, the base station of the next-generation mobile communication service detects a signal transmission state of the data communication service for each overlapping sector in which the base channel is allocated to the corresponding mobile station (403), and currently, the base station to the corresponding mobile station. It is checked whether there is a sector to which an additional channel is allocated among each of the overlapped sectors (404).

As a result of the investigation 404, if there is a sector to which an additional channel is allocated among the overlapping sectors to which the base channel is allocated to the mobile station, the transmission state among the several sectors allocated to the base channel is determined. Search for good sectors (405). If the search result 405 is the sector with the best transmission state, the additional transmission channel is allocated, and then the signal transmission state is detected again (403), and the above process is repeated, and the search result 405 is the most transmitted state. If a good sector is not a sector to which the current additional channel is currently allocated, a drop process of the additional channel is performed on the sector to which the current additional channel is allocated (406), and after the drop process is performed (406), the search result is the best. An additional channel is allocated to the sector to perform handoff of the additional channel (407).

On the other hand, if there is no sector in which the additional channel is allocated among the overlapping sectors to which the base channel is allocated to the mobile station, the survey result 404 indicates that the sector with the best transmission state among the sectors to which the base channel is currently allocated is assigned. The additional channel is allocated to perform handoff of the additional channel (407).

As described above, the method of the present invention may be implemented as a program and stored in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be apparent to those of ordinary knowledge.

In the present invention as described above, in performing the high-speed data transmission in the next generation mobile communication (IMT-2000) system, the soft handoff operation is performed only on the basic channel among the data transmission channels and time division is performed in the inter-sector handoff method. Compared with the conventional method, since the additional channel operating in the multiplexing method is not performed, first, base station radio resource management is easier, and the load on the system is reduced. Second, the additional channel is allocated to only one sector. By allocating, by reducing the radio resources allocated to one user, there is an effect that can reduce the interference between users to increase the quality of service, to accommodate more users.

Claims (4)

A handoff method of data communication applied to a wireless communication system which operates an additional channel by time division multiplexing, When the mobile station moves from the sector in which data communication is currently maintained to another sector, it performs a soft handoff operation on the basic channel, allocates a new sector to the additional channel, and then assigns a new sector to the additional channel. For example, if the transmission state of the sector to which the additional channel is currently allocated is detected by detecting the signal transmission state of each sector, the connection to the sector to which the current additional channel is allocated is disconnected and the signal transmission state is best transmitted to the sector. A first step of establishing a connection; A second step of releasing the connection to the additional channel from the sector to which the current connection is established as the connection to the base channel is released from the sector to which the current connection is established while maintaining data communication; And A third step of establishing a connection to another sector while performing additional channel release on a sector to which a current connection is established while maintaining data communication. Handoff method of the additional channel operated in a time division multiplexing method comprising a. The method of claim 1, The first step is, A fourth step of, by the mobile station receiving data from a sector to which a current connection is established, performing a softer handoff on the base channel as the mobile is overlapped with an area of another sector; A fifth step of the base station determining a signal transmission state of each sector to which a basic channel of the mobile station is allocated; A sixth step of proceeding to the fifth step if the sector having the best signal transmission state is a sector to which an additional channel is currently allocated as a result of the determination in the fifth step; And As a result of the determination in the fifth step, if the sector having the best signal transmission state is not the sector to which the current additional channel is allocated or there is no sector to which the current additional channel is currently allocated, the sector allocated to the current additional channel is disconnected and the most signal is transmitted. Step 7 of establishing a connection to a sector with good transmission Handoff method of the additional channel operated in a time division multiplexing method comprising a. The method according to claim 1 or 2, The second step, An eighth step of the mobile station receiving a drop command for the basic channel from the base station during the data communication connection; A ninth step of dropping a base channel according to the received drop command of the eighth step; And A tenth step of dropping additional channels according to the basic channel drop of the ninth step; Handoff method of the additional channel operated in a time division multiplexing method comprising a. In a wireless communication system having a high-capacity processor, which operates an additional channel in a time division multiplexing scheme, When the mobile station moves from the sector in which data communication is currently maintained to another sector, it performs a soft handoff operation on the basic channel, allocates a new sector to the additional channel, and then assigns a new sector to the additional channel. For example, if the transmission state of the sector to which the additional channel is currently allocated is detected by detecting the signal transmission state of each sector, the connection to the sector to which the current additional channel is currently allocated is disconnected, and the signal transmission state is the sector which is the last. A first function of establishing a connection to the; A second function of releasing the connection to the additional channel from the sector to which the current connection is established as the connection to the base channel is released from the sector to which the current connection is established while maintaining data communication; And A third function of establishing a connection to another sector while performing additional channel release on a sector to which a current connection is established while maintaining data communication A computer-readable recording medium having recorded thereon a program for realizing this.