KR100347415B1 - Access hand-off method of cellular mobile communication system - Google Patents

Abstract

The present invention relates to a cellular mobile communication system, and more particularly, to mobile communication for maintaining smooth call communication during handoff caused by a mobile station transmitting a call / call and moving a boundary before the call is communicated. The present invention relates to an access handoff method of a communication system. The present invention relates to a pilot offset and pilot strength in an outgoing message of a base station received at the mobile station, at the time of handoff caused by the mobile station transmitting a call / call and moving the boundary before the call is communicated. (pilot strength) and the like to predict the mobile path of the mobile station, and allocates resources of the base station to the handoff that occurs before the call is communicated to the base station response message (BS_ACK message) or channel assignment message (Channel Assign message) The transmission rate can be improved by transmitting to.

Description

Access hand-off method of cellular mobile communication system

The present invention relates to a cellular mobile communication system, and more particularly, to mobile communication for maintaining smooth call communication during handoff caused by a mobile station transmitting a call / call and moving a boundary before the call is communicated. The present invention relates to an access handoff method of a communication system.

As is well known, handoff in a cellular mobile communication system moves from a current base station to a new base station while keeping the radio link between the mobile station and the base station unbroken when the mobile station moves out of the cell boundary to a new cell. It refers to the process.

These types of handoffs include soft handoff between base stations, CDMA to CDMA hard handoff between digital switching stations, CDMA to analog handoff between digital and analog switching stations, and softer between sectors within the same base station. (softer) handoff and idle handoff, and the processing of these various handoffs is a common move supporting IS-95B (provisional standard for compatibility between digital cellular mobile communication systems using CDMA) As it is known in the communication related technical book, a detailed description of the conventional handoff technique will be omitted here.

However, in the conventional handoff method, when a mobile station attempts to make or receive a call while passing through the interface between base stations at high speed, that is, the mobile station moves the interface before the mobile station transmits an incoming / outgoing call and the call is communicated. In a handoff occurring when a call is not communicated, the mobile station does not receive a BS_ACK message or a Channel Assign message that the base station transmits to the mobile station as a response message for originating or terminating. There was a problem that the call is not communicated to reduce the call rate.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object thereof is that a base station receives at a mobile station at the time of a handoff caused by the mobile station transmitting a call / call and moving a boundary before the call is communicated. The present invention provides an access handoff method of a cellular mobile communication system that improves the call rate by pre-allocating resources of a base station by analyzing an origination message of the base station and predicting a moving path of the mobile station.

1 is a flowchart of an access handoff process in a base station according to the present invention;

2 is a flowchart illustrating an access handoff process between base stations according to the present invention;

3 is a flowchart of an access probe handoff process in a base station according to the present invention;

4 is a flowchart of an access probe handoff process between base stations according to the present invention;

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

10: mobile station 20, 60: base station

21, 61: CSM 22, 62: BCP

30: TSB 40: CCP

50: PCX

A feature of the access handoff method of the cellular mobile communication system according to the present invention for achieving the above object is that, when a base station transmits a call / call and a handoff occurs by moving the boundary before the call is communicated, Analyze the pilot offset and pilot strength among the origination messages received by the base station to predict the moving path of the mobile station, and the resources of the base station for the handoff that occurs before the call is communicated The call rate is improved by transmitting a BS_ACK message or a Channel Assign message to the mobile station.

The access handoff described in the present invention refers to a handoff that occurs when a mobile station transmits an incoming / outgoing call and moves a boundary before the call is communicated. This access handoff is largely an access handoff and an access. It may be classified as an access probe handoff.

Access handoff is the paging of the best pilot strength associated with the access channel in the page response substate or mobile station origination attempt substate. A handoff that occurs while waiting for a response from a base station to receive a channel or before transmitting a response to the base station.

In addition, this access handoff includes an intra-base station access handoff for allocating an extended channel within the base station to communicate with the call, an inter-base station access handoff for allocating channels to two or more base stations for communicating the call; There is also a mixed access handoff between base stations and base stations.

An access probe handoff is a handoff that occurs while a mobile station performs an access attempt in a call answer substate. The mobile station does not receive the base station response message (BS_ACK message) for the origination call and resends the origination signal, except that the base station gives the base station response message for the originating signal received again during the setup, and access handoff. Perform the same control as

Hereinafter, a preferred embodiment of an access handoff method of a cellular mobile communication system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a flowchart of an access handoff process in a base station according to the present invention.

According to this, first, the mobile station 10 transmits an access message including an origination, a page response, and the like to the CSM 21 of the base station 20 (a). The CSM 21 of the base station 20 transmits an Access Message to the BCP 22, and the BCP 22 analyzes the FIRST_IS_ACTIVE, FIRST_IS_PTA, PILOT_STRENGTH, ACCESS_ATTEMPTED, and ACCESS_H / O fields in the Access Message (b).

In addition, the BCP 22 analyzes the ACCESS_H / O, transmits a pc_mob_order message to the CSM 21, and allocates the base station 20 resources (c). The CSM 21 sends a bs_ack_order message to the mobile station 10 and the mobile station 10 stops transmitting the Access Message (d). The BCP 22 sends the CCP 40 including ACCESS_H / O information in mob_orig_msg (e).

CCP 40 performs a call setup process with PCX 50 (f). CCP 40 transmits a Channel Assign Request message to BCP 22 (g). The BCP 22 transmits a Traffic Channel Assign message to the CSM 21 (h).

The CSM 21 transmits forward null traffic (i). The CSM 21 transmits a Call Status message to the BCP 22 when the Traffic Channel is operated (j). The BCP 22 transmits an Extended Channel Assign message to the CSM 21 using the ACCESS_H / O information (k).

The CSM 21 transmits an Extended Channel Assign message to the paging channel (l). The CSM 21 transmits the OTA_Tx message to the BCP 22 after transmitting the Extended Channel Assign message (m). The BCP 22 transmits a Channel Assign Complete message to the CCP 40 with base station resource allocation information and ACCESS H / O information (n).

The CCP 40 transmits a vs_tc message including ACCESS H / O information to the TSB 30 (o). TSB 30 transmits a TIME_SYNC message to CSM 21 (p). The CSM 21 transmits a TIME_SYNC message to the TSB 30 (q).

The mobile station 10 transmits a reverse traffic preamble to the CSM 21 (r). The CSM 21 transmits a mobile acquire control message to the TSB 30 (s). The CSM 21 transmits a call_status message to the BCP 22 indicating that the base station 10 call setup has been performed (t).

The TSB 30 and the mobile station 10 transmit bs_ack_order and ms_ack_order messages (u). The mobile station 10 transmits reverse null traffic to the CSM 21 (v). TSB 30 and mobile station 10 perform service option negotiation (w).

The TSB 30 transmits a mobile confirm message to the CCP 40 (x). The CCP 40 performs a call connect process with the PCX 50 (y). CCP 40 transmits a call connect message to TSB 30 (z).

2 is a flowchart of an access handoff process between base stations according to the present invention.

As shown, the mobile station 10 transmits an Access Message including Origination, Page Response, etc. to the CSM 21 of the base station 20 (a). The CSM 21 of the base station 20 transmits an Access Message to the BCP 22, and the BCP 22 analyzes the FIRST_IS_ACTIVE, FIRST_IS_PTA, PILOT_STRENGTH, ACCESS_ATTEMPTED, and ACCESS_H / O fields in the Access Message (b).

In addition, the BCP 22 analyzes the ACCESS_H / O, transmits a pc_mob_order message to the CSM 21, and allocates the base station 20 resources (c). The CSM 21 sends a bs_ack_order message to the mobile station 10 and the mobile station 10 stops transmitting the Access Message (d). The BCP 22 sends the CCP 40 including ACCESS_H / O information in mob_orig_msg (e).

CCP 40 performs a call setup process with PCX 50 (f). CCP 40 transmits a Channel Assign Request message to BCP 22 (g). In addition, the CCP 40 analyzes the Access_H / O information received from the BCP 22 and analyzes the Channel Assign Request message to the target BCP 62 (g ').

The BCP 22, 62 sends a Traffic Channel Assign message to the CSM 21, 61 (h) (h '). The CSM 21 transmits Forward Null Traffic (i) (i '). The CSM 21 and 61 transmit a Call Status message to the BCP 22 and 62 when the Traffic Channel is operated (j) (j '). The BCP 22 or 62 transmits a Channel Assign message to the CSM 21 and 61 (k) (k ').

The CSM 21 and 61 transmit a channel assign message to the paging channel (l) (l '). The CSM 21 and 61 transmit an OTA_Tx message to the BCP 22 and 62 after transmitting the Channel Assign message (m) (m '). The BCP 22 or 62 transmits a Channel Assign Complete message to the CCP 40 with base station resource allocation information and ACCESS H / O information (n) (n ').

The CCP 40 transmits a vs_tc message including ACCESS H / O information to the TSB 30 (o) (o '). TSB 30 sends a TIME_SYNC message to CSM 21 (61) (p) (p '). CSM 21 and 61 send a TIME_SYNC message to TSB 30 (q) (q ').

The mobile station 10 transmits a Reverse Traffic Preamble to the CSM 21 and 61 (r) (r '). The CSM 21 and 61 transmit a mobile acquire control message to the TSB 30, and release the call at mobile not acquire (s) (s'). The CSM 21 and 61 transmit a call_status message to the BCP 22 and 62 indicating that the base station 10 call setup has been performed (t) (t ').

The TSB 30 and the mobile station 10 transmit bs_ack_order and ms_ack_order messages (u). The mobile station 10 transmits Reverse Null Traffic to the CSM 21 and 61 (v). TSB 30 and mobile station 10 perform service option negotiation (w).

The TSB 30 transmits a mobile confirm message to the CCP 40 (x). The CCP 40 performs a call connect process with the PCX 50 (y). CCP 40 transmits a call connect message to TSB 30 (z).

3 is a flowchart of an access probe handoff process in a base station according to the present invention.

As shown, the mobile station 10 transmits an access message including origination, page response, etc. to the CSM 21 of the base station 20 (a) (a '). The CSM 21 of the base station 20 transmits an Access Message to the BCP 22, and the BCP 22 analyzes the FIRST_IS_ACTIVE, FIRST_IS_PTA, PILOT_STRENGTH, ACCESS_ATTEMPTED, ACCESS_H / O fields in the Access Message, and uses the ESN and IMSI. It is determined whether the message is a retransmitted message (b) (b ').

In addition, the BCP 22 analyzes the ACCESS_H / O, transmits a pc_mob_order message to the CSM 21, and allocates the base station 20 resources (c) (c '). The CSM 21 sends a bs_ack_order message to the mobile station 10 and the mobile station 10 stops transmitting the Access Message (d) (d '). The BCP 22 sends the CCP 40 including ACCESS_H / O information in mob_orig_msg (e).

CCP 40 performs a call setup process with PCX 50 (f). CCP 40 transmits a Channel Assign Request message to BCP 22 (g). The BCP 22 transmits a Traffic Channel Assign message to the CSM 21 (h).

The CSM 21 transmits forward null traffic (i). The CSM 21 transmits a Call Status message to the BCP 22 when the Traffic Channel is operated (j). The BCP 22 transmits an Extended Channel Assign message to the CSM 21 using the ACCESS_H / O information (k).

The CSM 21 transmits an Extended Channel Assign message to the paging channel (l). The CSM 21 transmits an OTA_Tx message to the BCP 22 after transmitting the Extended Channel Assign message (m). The BCP 22 transmits a Channel Assign Complete message to the CCP 40 with base station resource allocation information and ACCESS H / O information (n).

The CCP 40 transmits a vs_tc message including ACCESS H / O information to the TSB 30 (o). TSB 30 transmits a TIME_SYNC message to CSM 21 (p). The CSM 21 transmits a TIME_SYNC message to the TSB 30 (q).

The mobile station 10 transmits a reverse traffic preamble to the CSM 21 (r). The CSM 21 transmits a mobile acquire control message to the TSB 30 (s). The CSM 21 transmits a call_status message to the BCP 22 indicating that the base station 10 call setup has been performed (t).

The TSB 30 and the mobile station 10 transmit bs_ack_order and ms_ack_order messages (u). The mobile station 10 transmits reverse null traffic to the CSM 21 (v). TSB 30 and mobile station 10 perform service option negotiation (w).

The TSB 30 transmits a mobile confirm message to the CCP 40 (x). The CCP 40 performs a call connect process with the PCX 50 (y). CCP 40 transmits a call connect message to TSB 30 (z).

4 is a flowchart illustrating an access probe handoff process between base stations according to the present invention.

As shown, the mobile station 10 transmits an access message including origination, page response, etc. to the CSM 21, 61 of the base station 20, 60 (a) ( a '). The CSM 21, 61 of the base station 20, 60 sends an Access Message to the BCP 22, 62, and the BCP 22, 62 sends FIRST_IS_ACTIVE, FIRST_IS_PTA, PILOT_STRENGTH, ACCESS_ATTEMPTED, ACCESS_H in the Access Message. Analyze the / O field (b) (b ').

In addition, the BCP 22 (62) analyzes the ACCESS_H / O, transmits the pc_mob_order message to the CSM 21 (61), and allocates the base station 20 resources (c) (c '). CSM 21 (61) sends a bs_ack_order message to mobile station 10, and mobile station 10 stops transmitting Access Message (d) (d '). The BCP 22 sends the CCP 40 including ACCESS_H / O information in mob_orig_msg (e).

CCP 40 performs a call setup process with PCX 50 (f). CCP 40 transmits a Channel Assign Request message to BCP 22 (g). In addition, the CCP 40 analyzes the Access_H / O information received from the BCP 22 to analyze the Channel Assign Request message to the target BCP 62, and the Target BCP 62 receives the Channel Assign Request message for a predetermined time. If not, the Target BCP 62 transmits mob_orig_msg to the CCP 40 to perform normal call processing (g ').

The BCP 22, 62 sends a Traffic Channel Assign message to the CSM 21, 61 (h) (h '). CSM 21 (61) transmits Forward Null Traffic (i) (i '). The CSM 21 and 61 transmit a Call Status message to the BCP 22 and 62 when the Traffic Channel is operated (j) (j '). The BCP 22 or 62 transmits a Channel Assign message to the CSM 21 and 61 (k) (k ').

The CSM 21 and 61 transmit a channel assign message to the paging channel (l) (l '). The CSM 21 and 61 transmit an OTA_Tx message to the BCP 22 and 62 after transmitting the Channel Assign message (m) (m '). The BCP 22 or 62 transmits a Channel Assign Complete message to the CCP 40 with base station resource allocation information and ACCESS H / O information (n) (n ').

The CCP 40 transmits a vs_tc message including ACCESS H / O information to the TSB 30 (o) (o '). TSB 30 sends a TIME_SYNC message to CSM 21 (61) (p) (p '). CSM 21 and 61 send a TIME_SYNC message to TSB 30 (q) (q ').

The mobile station 10 transmits a Reverse Traffic Preamble to the CSM 21 and 61 (r) (r '). The CSM 21 and 61 transmit a mobile acquire control message to the TSB 30, and release the call at mobile not acquire (s) (s'). The CSM 21 and 61 transmit a call_status message to the BCP 22 and 62 indicating that the base station 10 call setup has been performed (t) (t ').

The TSB 30 and the mobile station 10 transmit bs_ack_order and ms_ack_order messages (u). The mobile station 10 transmits Reverse Null Traffic to the CSM 21 and 61 (v). TSB 30 and mobile station 10 perform service option negotiation (w).

The TSB 30 transmits a mobile confirm message to the CCP 40 (x). The CCP 40 performs a call connect process with the PCX 50 (y). CCP 40 transmits a call connect message to TSB 30 (z).

As described above, according to the access handoff method of the cellular mobile communication system according to the present invention, the base station is received by the mobile station at the time of handoff caused by the mobile station transmitting a call / call and moving the boundary before the call is communicated. Analyze pilot offset and pilot strength among outgoing messages of the mobile station to predict the mobile station's movement path, and allocate the base station's resources to the handoff that occurs before the call is communicated. The call rate can be improved by sending a BS_ACK message or a Channel Assign message to the mobile station.

Claims (2)

In an access handoff caused by a mobile station transmitting an originating / incoming call and moving the boundary before the call is communicated, the pilot offset and pilot strength in the originating message of the base station received at the mobile station ( analyze the pilot strength and the like to predict the movement path of the mobile station, and allocate the resources of the base station to the handoff that occurs before the call is communicated to generate a BS_ACK message or a Channel Assign message. And a call communication rate is improved by transmitting to the mobile station. The mobile station of claim 1, wherein the mobile station transmits an access message to a CSM of the base station, the CSM transmits an access message to a BCP, and the BCP transmits an FIRST_IS_ACTIVE, FIRST_IS_PTA, PILOT_STRENGTH, ACCESS_ATTEMPTED, and ACCESS_H / O fields in the Access Message. Analyzes and allocates base station resources by sending a pc_mob_order message to the CSM, the CSM sends a bs_ack_order message to the mobile station, the mobile station stops transmitting an Access Message, and the BCP sends ACCESS_H / O information to the CCP in mob_orig_msg. And the CCP performs a call setup process with the PCX, the CCP sends a Channel Assign Request message to the BCP, the BCP sends a Traffic Channel Assign message to the CSM, and the CSM forward Null Traffic. The CSM transmits a Call Status message to the BCP when the Traffic Channel is operated, and the BCP sends ACCESS_H / O information. Sends an Extended Channel Assign message to the CSM, the CSM transmits an Extended Channel Assign message to the Paging Channel, the CSM sends an Extended Channel Assign message to the BCP, and then sends an OTA_Tx message to the BCP. The base station resource allocation information and ACCESS H / O information is transmitted to the CCP, the CCP transmits a vs_tc message including the ACCESS H / O information to the TSB, and the TSB transmits a TIME_SYNC message to the CSM. The CSM transmits a TIME_SYNC message to the TSB, the mobile station transmits a Reverse Traffic Preamble to the CSM, the CSM transmits a mobile acquire control message to the TSB, and the CSM calls_status message indicating that a base station call setup has been made. To the BCP, the TSB and the mobile station transmit a bs_ack_order and ms_ack_order message, and the mobile station Transmits Reverse Null Traffic to the CSM, the TSB and the mobile station perform service option negotiation, the TSB sends a mobile confirm message to the CCP, the CCP performs a call connect process with the PCX, The CCP is an access handoff method of a cellular mobile communication system, characterized in that for transmitting a call connect message to the TSB.