KR100713485B1 - Method for controlling handover of packet switch call between the first mobile communication system capable of hspda service and the second mobile communication system capable of non-hspda service - Google Patents

Abstract

The present invention relates to a packet switch call handover control method between a first mobile communication system capable of a high speed downlink packet access service and a second mobile communication system capable of a high speed downlink packet access service. The method includes the steps of the first mobile communication system transmitting a measurement control message to the terminal when the terminal moves from the service area of the first mobile communication system to the boundary of the service area of the second mobile communication system in a call connection state; The terminal receiving the measurement control message performs a measurement of the joint pilot channel power of the current cell serving as the service area of the first mobile communication system and the neighboring cell serving the service area of the second mobile communication system. Transmitting to the mobile communication system, and analyzing the measurement report message by the first mobile communication system to determine whether a handover to the second mobile communication system is required, and if necessary, to send a packet to the second mobile communication system. And processing a switch call handover.

R5 UMTS, R99 / R4 UMTS, High Speed downlink Packet Access (HSDPA), Handover

Description

METHODO FOR CONTROLLING HANDOVER OF PACKET SWITCH CALL BETWEEN THE FIRST MOBILE COMMUNICATION Between a First Mobile Communication System Enabled for High Speed Downlink Packet Access Service and a Second Mobile Communication System Disabled for High Speed Downlink Packet Access Service SYSTEM CAPABLE OF HSPDA SERVICE AND THE SECOND MOBILE COMMUNICATION SYSTEM CAPABLE OF NON-HSPDA SERVICE}

1 is a diagram schematically showing the configuration of an R5 UMTS system and an R99 / R4 UMTS system to which the present invention is applied;

2 is a ladder diagram illustrating a packet switch call processing method using HSPDA in a boundary region of an R5 UMTS system and an R99 / R5 system according to an exemplary embodiment of the present invention.

The present invention relates to a method for controlling a call in a mobile communication system, and in particular, a first mobile communication service capable of high speed downlink packet access (also referred to as "high speed packet data communication", hereinafter referred to as HSDPA). The present invention relates to a method for handovering a packet switch call using an HSDPA service in a boundary area between a system and a second mobile communication system service area where HSDPA service is not available.

Currently, UMTS (Universal Mobile Telecommunications System), the third generation system in Europe, has launched commercial services in many countries around the world, and subscribers are also on the rise. UMTS is leading the standardization in the 3rd Generation Partnership Project (3GPP), which can provide high-speed data / multimedia services more efficiently than the 2nd generation General Packet Radio Service (GPRS) system. It is expected to be widely used and can provide international roaming functionality that can be used anywhere.

Currently, the maximum data rate of commercially available R99 / R4 UMTS systems is 64kbps in uplink and 384kbps in downlink. However, in the UMTS R5 standard, HSDPA technology has been developed that can transmit up to 14Mbps on the downlink, and some countries are beginning to build a test network to try field trials.

The HSDPA system supports up to 14Mbps service on the downlink, allowing users to transmit large amounts of data in a short time. However, the R99 / R4 system has a transmission rate of up to 384 Kbps, and has a data transmission rate of about one third of that of the R5 system.

If the user receives the high speed packet switch service using the HSDPA service and approaches the cell boundary area, the user needs to perform a handover to maintain the packet switch call. However, there may be a situation in which all cells in the neighboring cell list cannot support the HSDPA service. For example, cells belonging to an R99 / R4 system service area that is a non-HSDPA system. Even in this case, the user will want to be provided with continuous packet switch call service without dropping the packet switch call, and thus, a handover from the HSDPA system to the non-HSDPA system needs to be made.

In the R99 / R4 UMTS system, which is a non-HSDPA system, a soft handover or a hard handover of a packet switch call is performed, but a hand between the HSDPA system and the non-HSDPA system is performed. Over is not specified in the standard.

Accordingly, the present invention provides a method for handovering a packet switch call in a boundary region between a first mobile communication system capable of HSDPA service and a second mobile communication system service region in which HSDPA service is not available.

To this end, the present invention provides a packet switch call handover control method between a first mobile communication system capable of a high speed downlink packet access service and a second mobile communication system capable of a high speed downlink packet access service, wherein the terminal is connected to a call connection state. When the first mobile communication system moves from the service area of the first mobile communication system to the boundary with the service area of the second mobile communication system, the first mobile communication system transmits a measurement control message to the terminal; The first terminal receives a measurement result of a common pilot channel power measurement of a current cell, which is a service area of the first mobile communication system, and a neighbor cell, which is a service area of the second mobile communication system, as a measurement report message. Transmitting to the mobile communication system, and the first mobile communication system If analysis is characterized in that the said second determined whether the handover is required state of the mobile communication system, and if necessary conditions comprising the step of processing the second mobile packet-switched call handover to a communication system.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, specific details, such as the name of a specific message, are shown, which are provided to help a more general understanding of the present invention, and it is common to those skilled in the art that the present invention may be practiced without these specific details. It is self-evident to those who have knowledge. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In this embodiment, a method for controlling handover of a packet switch call using an HSDPA service in a boundary area between an R5 UMTS system capable of HSDPA service and an R99 / R4 UMTS system service area that is a non-HSDPA system will be described.

The situation where handover is necessary in the border area is to prevent the HSDPA packet switch call from being disconnected when the user is using the HSDPA service in the HSDPA system service area and moves to the non-HSDPA system service area.

1 is a diagram schematically showing the configuration of an R5 UMTS system and an R99 / R4 UMTS system to which the present invention is applied.

The R5 UMTS system is an example of an HSDPA system, and the R99 / R4 UMTS system is an example of a non-HSDPA system.

In order to implement the present invention, the UE 300 must support the HSDPA function. In addition, the R5 UMTS system must also support HSDPA functionality. That is, the RNC 130 and the Node-B 140 of the R5 UMTS system must support the HSDPA function.

Gateway GPRS Support Node (GGSN) 110 and 215, Serving GPRS Support Node (SGN) 120 and 216, RNC 130 and 217, and Node-B 140 and 218 in R5 UMTS and R99 / R4 UMTS systems have the same functionality.

FIG. 2 is a ladder diagram illustrating a packet switch call processing method using HSPDA in a boundary region of an R5 UMTS system and an R99 / R4 UMTS system according to an exemplary embodiment of the present invention, and is an R99 / R4 UMTS system in an R5 UMTS system. Shows the HSPDA packet switch call handover procedure.

In step 51, the terminal 300 of FIG. 1 attempts an HSDPA packet switch call in cell C1 of the R5 UMTS region.

In step 72, the R5 UMTS system detects the HSDPA packet switch call attempt of the terminal 300 and connects the HSDPA packet switch call. As a result, a high speed-downlink shared channel (HS-DSCH) is established between the R5 UMTS system and the terminal 300.

The terminal 300 receives the packet data at high speed through the HS-DSCH. If the terminal 300 moves from the cell C1 to the cell C2 while using the HSDPA service and reaches the cell boundary area (M), in step 74, the R5 UMTS system transmits a measurement control message (MEASUREMENT_CONTROL) to the terminal 300.

In step 53, the terminal receiving the measurement control message performs power measurement on a common pilot channel (hereinafter referred to as CPICH) of the current cell C1 and the neighbor cell C2. In this case, the neighboring cell C2 may have an intra frequency or an inter frequency, depending on whether the cell ID and the cell have intra frequency or inter frequency in the measurement control message. Contains information about.

In step 55, the terminal 300 transmits a measurement report message (MEASUREMENT_REPORT) to the R5 UMTS system. When the CPICH power of the currently receiving R5 UMTS system falls below a certain threshold and the CPICH power of the R99 / R4 UMTS system increases above a certain threshold, the terminal detects that the R99 / R4 system area is in the R5 UMTS system area. It can be determined that the situation moves to. Therefore, the measurement report message contains information about this situation.

Upon receiving the measurement report message from the terminal 300, the R5 UMTS analyzes the measurement report message and determines whether to handover the HSDPA packet switch call. When the R5 UMTS detects that the UE 300 needs handover by moving from cell C1, which is an area capable of HSDPA service, to cell C2, which is a non-HSDPA service area, the R5 UMTS transmits a packet switch call to the R99 / R4 UMTS system in step 76. Handover, and transmits a channel reconfiguration message (CHANNEL_RECONFIGURATION) to the terminal 300. At this time, the radio resource control (RRC) protocol message that can be used includes a transport_channel_reconfiguration message (TRANSPORT_CHANNEL_RECONFIGURATION) and a radio_bearer_reconfiguration message (RADIO_BEARER_RECONFIGURATION).

After receiving the channel reconfiguration message, the terminal 300 changes the internal bearer using the information in the channel reconfiguration message in step 57, and then transmits a channel reconfiguration completion message (CHANNEL_RECONFIGURATION_COMPLETE) to the R5 UMTS to allow the R5 UMTS system to handover. Make sure that the was successful. The RRC protocol message that can be used at this time includes a transport_channel_reconfiguration_completion message (TRANSPORT_CHANNEL_RECONFIGURATION_COMPLETE) and a radio_bearer_reconfiguration_completion message (RADIO_BEARER_RECONFIGURATION_COMPLETE).

If the handover is made in this way, the terminal 300 can continue to receive the packet switch call service from the R99 / R4 UMTS system.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

As described above, the present invention enables a handover of an HSDPA PS call from a first mobile communication system capable of HSDPA service (eg, R5 UMTS system) to a second mobile communication system (eg R99 / R4 UMTS system) in which HSDPA service is not available. This allows the user to receive seamless call service even when the user moves from one call connection to another system service area.

Claims (4)

A method of controlling a packet switch call handover between a first mobile communication system capable of a high speed downlink packet access service and a second mobile communication system capable of a high speed downlink packet access service, When the terminal moves from the service area of the first mobile communication system to the boundary with the service area of the second mobile communication system in a call connection state, transmitting the measurement control message to the terminal by the first mobile communication system; , The terminal receiving the measurement control message measures the result of comparing and performing a joint pilot channel power measurement of a current cell which is a service area of the first mobile communication system and a neighbor cell which is a service area of the second mobile communication system. Transmitting the message to the first mobile communication system; The first mobile communication system analyzes the measurement report message to determine whether a handover to the second mobile communication system is necessary, and if necessary, performs packet switch call handover to the second mobile communication system. And processing. The method of claim 1, The first mobile communication system is an R5 UMTS (Universal Mobile Telecommunications System) system, the second mobile communication system is characterized in that the R99 / R4 UMTS system. The method of claim 1, The processing of the packet switch call handover to the second mobile communication system by the first mobile communication system receiving the report from the terminal may include: transmitting, by the first mobile communication system, a channel reconfiguration message to the terminal. Including method. The method of claim 3, Transmitting a channel reconfiguration complete message to the first mobile communication system after changing the internal bearer by using the information in the channel reconfiguration message by the terminal receiving the channel reconfiguration message; .

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