JP3735032B2 - Handover method and apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a handover method and apparatus, and more particularly to a handover method and apparatus for selecting a handover control method by determining QoS information in a mobile communication system supporting multicall.
[0002]
[Prior art]
The handover method in the conventional mobile communication system (for example, the second generation mobile communication system) has no support capability for multicall. Here, multicall refers to a state in which a plurality of calls are simultaneously communicating between a base station and a mobile station. In addition, even in a mobile communication system that supports multi-call (for example, the third generation mobile communication system: IMT-2000), there is no function for distinguishing real-time calls and non-real-time calls and selecting handover control. Here, a real-time call is a communication that requires immediacy in transmission of a voice signal between transmission and reception, for example, as a voice call, and a non-real-time call is, for example, a data communication by packet, Communication that does not require immediacy in data signal transmission.
[0003]
As a handover method in a mobile communication system, an anchor type handover method and a non-anchor type handover method are known. The anchor-type handover method is a method of switching lines in an exchange network of a mobile communication system by using one point (specific node) on a route before switching as an anchor point and leaving it on the route. On the other hand, the non-anchor type handover method is a method in which, in an exchange network, all the lines set up to the source base station are once disconnected, and an optimum route is set up again to the destination base station to switch the line. It is.
[0004]
Conventionally, the anchor-type handover method is applied to real-time calls, and the anchor-type handover method is also applied to non-real-time calls. Originally, it is desirable to identify a call to a mobile station, judge QoS (Quality of Service) information, and perform handover control.
[0005]
FIG. 1 is a block diagram illustrating a system using a conventional handover method. The mobile communication system is composed of mobile communication nodes and mobile terminals. The mobile communication nodes include radio base stations 113 and 114, radio network controllers (RNCs) 109 and 112 that control the radio base stations 113 and 114, and service nodes 101 that perform handover control on the RNCs 109 and 112, 102. The mobile terminal 115 can perform communication while moving within the service area provided by the radio base stations 113 and 114 of the mobile communication node.
[0006]
The service node 101 is connected to the wireless base station 113 that is the movement source of the mobile terminal 115. A multicall handover control apparatus 105 that performs handover control for multicall is connected to the RNC 109 via a layer 3 signal transmission / reception apparatus 106 that performs communication control with other service nodes. An anchor type handover control apparatus 107 that performs handover control is connected to the multicall handover control apparatus 105.
[0007]
The service node 102 is connected to the radio base station 114 to which the mobile terminal 115 has moved. A handover control device 110 for performing handover control is connected to the RNC 112 via a layer 3 signal transmission / reception device 111 that controls communication with other service nodes.
[0008]
The service node 101 includes a handover control device 110, and the service node 102 includes a multicall handover control device 105 and an anchor type handover control device 107. In FIG. The illustration is omitted for convenience.
[0009]
FIG. 2 is a flowchart for explaining a conventional handover method. The mobile terminal 115 detects that the service area of the base station has changed due to movement (S201), and transmits a handover execution request signal for requesting execution of the handover to the RNC 112 via the radio base station 114 (S202). ). The RNC 112 transfers the handover execution request signal to the layer 3 signal transmission / reception device 111 and the handover control device 110 of the service node 102 (S203, S204).
[0010]
The handover control apparatus 110 that has received the handover execution request signal can identify the service node 101 that currently controls the mobile terminal 115, and transmits the handover execution request signal to the service node 101. Can do. The service node 101 receives the handover execution request signal via the layer 3 signal transmission / reception device 106 by the multicall handover control device 105 (S205).
[0011]
The multi-call handover control apparatus 105 that has received the handover execution request signal selects an anchor type handover method for each call and activates the anchor type handover control apparatus 107 (S206). When selection is completed for all calls, handover control is performed and the process ends (S207).
[0012]
[Problems to be solved by the invention]
However, in the conventional handover method, a redundant route is set even for a non-real-time call, and in the data transfer, the transfer delay is increased and the transfer load in the mobile communication network is increased. was there.
[0013]
The present invention has been made in view of such problems, and an object of the present invention is to provide a handover method and apparatus for selecting a handover control method by judging QoS information.
[0014]
[Means for Solving the Problems]
In order to achieve such an object, the present invention provides a method according to claim 1, wherein a plurality of calls set between a mobile terminal and a source mobile communication node are transmitted along with the movement of the mobile terminal. Then, in the handover method for switching between the mobile terminal and the destination mobile communication node, when the mobile terminal moves to the service area of the destination mobile communication node, for each of the plurality of calls from the mobile terminal Quality information including information indicating that the information is either a real-time call or a non-real-time call for each of the plurality of calls via the destination mobile communication node. Receiving the quality information received in step, the storing step in which the source mobile communication node stores the quality information received in the quality information receiving step, and the source move A completion signal transmission step in which the communication node transmits a completion signal indicating that the quality of service information has been stored to the mobile terminal via the destination mobile communication node; and An execution request receiving step of receiving an execution request signal, which is a handover execution request transmitted in response to the completion signal from the mobile communication node, at the source mobile communication node via the destination mobile communication node The source mobile communication node identifies the mobile terminal from the execution request signal from the mobile terminal, acquires the quality information stored in the storing step, and in the case of the real-time call, select anchored handover control method, wherein when the non-real-time call a selection step of selecting a non-anchored handover control method And the movement source mobile communication node and the destination mobile communication node according to the selected said handover control method selected in step, characterized in that it comprises a switching step for switching the plurality of calls.
[0015]
With such a method, QoS information is determined for each of a plurality of calls and a handover control method is selected, so that efficient data transfer can be performed.
[0017]
According to a second aspect of the present invention, a plurality of calls set between a mobile terminal and a source mobile communication node are transferred between the mobile terminal and a destination mobile communication node as the mobile terminal moves. In the handover apparatus to be switched, when the mobile terminal moves to the service area of the destination mobile communication node, the quality information for each of the plurality of calls from the mobile terminal , the real-time call for each of the plurality of calls Or quality information receiving means for receiving quality information including information indicating that the call is a non-real-time call at the source mobile communication node via the destination mobile communication node, and the source mobile communication A storage means for storing the quality information received by the quality information receiving means; and the source mobile communication node indicates that the service quality information is stored. A completion signal transmitting means for transmitting a completion signal to the mobile terminal via the destination mobile communication node; and a hand transmitted by the mobile terminal in response to the completion signal from the source mobile communication node An execution request receiving means for receiving an execution request signal that is an over execution request at the source mobile communication node via the destination mobile communication node, and the source mobile communication node from the mobile terminal The mobile terminal is identified from the execution request signal, the quality information stored in the storage means is acquired, an anchor type handover control method is selected for the real-time call, and the non-real-time call is selected. the selecting means for selecting a non-anchored handover control method, and the movement source mobile communication node and the destination mobile communication node, in the selection means According-option has been the handover control method, characterized by comprising a switching means for switching the plurality of calls.
[0018]
With such a configuration, the QoS information is judged for each of a plurality of calls and the handover control method is selected, so that efficient data transfer can be performed.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The present invention identifies a real-time call and a non-real-time call for each call, and selects a handover method to be applied.
[0021]
FIG. 3 is a block diagram showing an example of a mobile communication system using the handover method according to the present invention. The mobile communication system is composed of mobile communication nodes and mobile terminals. The mobile communication node includes radio base stations 13 and 14, RNCs 9 and 12 that control the radio base stations 13 and 14, and service nodes 1 and 2 that perform handover control on the RNCs 9 and 12. ing. The mobile terminal 15 can perform communication while moving within a service area provided by the radio base stations 13 and 14 of the mobile communication node.
[0022]
The service node 1 is connected to the wireless base station 13 that is the movement source of the mobile terminal 15. A multi-call handover control device 5, to which a handover application method determination device 3 for selecting a handover method and a QoS value management device 4 for managing QoS information are connected, connects the RNC 9 and other services It is connected via a layer 3 signal transmission / reception device 6 that controls communication with the node. An anchor type handover control device 7 that performs handover control and a non-anchor type handover control device 8 are connected to the multicall handover control device 5.
[0023]
The service node 2 is connected to the radio base station 14 to which the mobile terminal 15 is moving. A handover control apparatus 10 for performing handover control is connected to the RNC 12 via a layer 3 signal transmission / reception apparatus 11 that performs communication control with other service nodes.
[0024]
The service node 1 includes a handover control device 10, and the service node 2 includes a handover application method determination device 3, a QoS value management device 4, a multicall handover control device 5, and an anchor type. Although the handover control device 7 and the non-anchor type handover control device 8 are provided, the illustration is omitted in FIG. 3 for convenience.
[0025]
FIG. 4 is a flowchart for explaining the QoS negotiation of the handover method according to the present invention. The mobile terminal 15 detects that the service area of the base station has changed due to movement (S401), and sends a handover activation signal to the RNC 12 via the radio base station 14 (S402).
[0026]
This handover activation signal includes a QoS request value. The QoS value of each call for each mobile terminal is determined by negotiation during call setup or handover. This negotiation is performed by the mobile terminal 15 through a procedure with the service node 2 via the radio base station 14 and the RNC 12.
[0027]
The RNC 12 that has received the handover activation signal (S403) negotiates with the radio base station 14 the QoS value assigned to the mobile terminal 15 based on the QoS request value (S404). As a result of the negotiation, the QoS value assigned to the mobile terminal 15 is transmitted to the multi-call handover control via the layer 3 signal transmitting / receiving device 11 of the service node 2 and the layer 3 signal transmitting / receiving device 6 of the service node 1. The device 5 is notified (S405).
[0028]
The multicall handover control device 5 notifies the QoS value management device 4 of the QoS value assigned to the mobile terminal 15 (S406). The QoS value management device 4 stores the QoS value assigned to the mobile terminal 15 in a storage area assigned in advance, and returns a processing completion notification to the layer 3 signal transmission / reception device 6 (S407). The processing completion notification is notified to the mobile terminal 15 via the layer 3 signal transmission / reception device 11, the RNC 12, and the radio base station 14 (S408).
[0029]
FIG. 5 is a flowchart for explaining a handover method request method according to the present invention. Next to the QoS negotiation shown in FIG. 4, a handover request method will be described.
[0030]
The mobile terminal 15 that has received the process completion notification passes the radio base station 14 and the RNC 12 to the layer 3 signal transmission / reception device 11 and the handover control device 10 of the service node 2 to request handover. An execution request signal is transmitted (S409 to S411). The handover execution request signal includes current address information related to the mobile terminal 15. For example, as the address information, a telephone number defined in ITU-T (International Telecommunication Union Telecommunication standardization sector) E.164 can be considered.
[0031]
The handover control apparatus 10 that has received the handover execution request signal can identify the service node 1 that is currently controlling the mobile terminal 15 and transmits the handover execution request signal to the service node 1. Can do. The service node 1 receives the handover execution request signal via the layer 3 signal transmission / reception device 6 by the multicall handover control device 5 (S412).
[0032]
When receiving the handover execution request signal transmitted from the mobile terminal 15, the multicall handover control device 5 activates the handover application method determination device 3 (S413). The multicall handover control device 5 includes an identifier corresponding to the mobile terminal 15 in the activation signal when the handover application method determination device 3 is activated. For example, a telephone number defined in ITU-T E.164 or an IMUI (International Mobile User Identifier) defined in IMT-2000 can be considered as an identifier.
[0033]
The handover application method determination device 3 makes an inquiry to the QoS value management device 4 that manages the QoS information of each call for each mobile terminal in order to acquire the QoS information of the call with which the mobile terminal 15 is currently communicating. This is performed (S414). The signal format for making the inquiry will be described later with reference to FIG.
[0034]
In this way, since the handover activation signal is transmitted prior to the transmission of the handover execution request signal, the QoS value management apparatus 4 performs each call for each mobile terminal by the RNC 12 processing the handover activation signal. QoS information can be acquired, and an inquiry from the handover application method determination device 3 can be answered.
[0035]
FIG. 6 is a flowchart for explaining a handover method determination processing method according to the present invention. The handover application method determination device 3 that has acquired the QoS information of each call for each mobile terminal activates processing for determining a handover method to be applied to the mobile terminal 15 based on the QoS information (S415). The handover method is performed for all calls with which the mobile terminal 15 is communicating (S416, S417, S421).
[0036]
For each call, it is determined whether the call is a real-time call or a non-real-time call (S418). If the call is a real-time call, an anchor-type handover method is selected (S419). Selects a non-anchor type handover method (S420). The handover application method determination device 3 returns each selection result to the multi-call handover control device 5, and when the selection is completed for all calls, the processing ends (S422).
[0037]
The multicall handover control device 5 activates a control device that executes the handover method to be applied for each call of the mobile terminal 15 based on the selection result from the handover application method determination device 3. That is, in FIG. 3, the multi-call handover control device 5 activates the anchor-type handover control device 7 and the non-anchor-type handover control device 8 for each call.
[0038]
FIG. 7 is a diagram illustrating a signal format between the handover application method determination device and the QoS value management device. FIG. 7A shows a request signal that the handover application method determination device 3 transmits to the QoS value management device 4 in order to acquire QoS information of a call with which the mobile terminal 15 is currently communicating. For example, as the identifier of the mobile terminal, a telephone number defined in ITU-T E.164, IMUI defined in IMT-2000, or the like can be considered.
[0039]
FIG. 7B shows a response signal in which the QoS value management device 4 transmits the QoS information of each call for each mobile terminal to the handover application method determination device 3. For example, an integer value assigned in order from normalized 1 can be used as the call identifier.
[0040]
According to the present embodiment, a real-time call and a non-real-time call are identified, and if the call is a real-time call, the anchor-type handover method is selected. If the call is a non-real-time call, the non-anchor-type handover method is selected. By selecting, redundant route setting is prevented.
[0041]
【The invention's effect】
As described above, according to the present invention, it is possible to select the handover control method by judging the QoS information, and efficient data transfer is possible.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a mobile communication system using a conventional handover method.
FIG. 2 is a flowchart for explaining a conventional handover method;
FIG. 3 is a block diagram showing an example of a mobile communication system using a handover method according to the present invention.
FIG. 4 is a flowchart for explaining a QoS value setting method according to an embodiment of the present invention.
FIG. 5 is a flowchart for explaining a handover request method according to an embodiment of the present invention;
FIG. 6 is a flowchart for explaining a handover method determination processing method according to an embodiment of the present invention;
FIG. 7 is a diagram illustrating a signal format between a handover application method determination device and a QoS value management device.
[Explanation of symbols]
1, 2, 101, 102 Service node 3 Handover application method determination device 4 QoS value management device 5, 105 Multicall handover control device 6, 11, 106, 111 Layer 3 signal transmission / reception device 7, 107 Anchor type handover Control device 8 Non-anchor type handover control device 9, 12, 109, 112 RNC
10, 110 Handover control device 13, 14, 113, 114 Radio base station 15, 115 Mobile terminal

Claims (2)

In a handover method of switching a plurality of calls set between a mobile terminal and a source mobile communication node between the mobile terminal and a destination mobile communication node as the mobile terminal moves,
When the mobile terminal moves to the service area of the destination mobile communication node, the quality information for each of the plurality of calls from the mobile terminal , which is either a real-time call or a non-real-time call for each of the plurality of calls A quality information receiving step for receiving quality information including information indicating that the source mobile communication node receives the quality information via the destination mobile communication node;
A storage step in which the source mobile communication node stores the quality information received in the quality information reception step;
A completion signal transmission step for transmitting, to the mobile terminal, a completion signal indicating that the source mobile communication node has stored the quality of service information, via the destination mobile communication node;
The mobile terminal transmits an execution request signal, which is a request for executing a handover, transmitted from the mobile terminal in response to the completion signal from the source mobile communication node via the destination mobile communication node. An execution request reception step received by the node;
The source mobile communication node identifies the mobile terminal from the execution request signal from the mobile terminal, acquires the quality information stored in the storing step, and in the case of the real-time call, an anchor type A selection step of selecting a handover control scheme and, in the case of the non-real-time call, selecting a non-anchor type handover control scheme ;
A handover step in which the source mobile communication node and the destination mobile communication node switch the plurality of calls according to the handover control method selected in the selection step. Method. In a handover apparatus that switches a plurality of calls set between a mobile terminal and a source mobile communication node between the mobile terminal and a destination mobile communication node as the mobile terminal moves,
When the mobile terminal moves to the service area of the destination mobile communication node, the quality information for each of the plurality of calls from the mobile terminal , which is either a real-time call or a non-real-time call for each of the plurality of calls Quality information receiving means for receiving at the source mobile communication node via the destination mobile communication node, quality information including information indicating that
Storage means for storing the quality information received by the quality information receiving means by the source mobile communication node;
A completion signal transmitting means for transmitting, to the mobile terminal, a completion signal indicating that the source mobile communication node has stored the quality of service information via the destination mobile communication node;
The mobile terminal transmits an execution request signal, which is a request for executing a handover, transmitted from the mobile terminal in response to the completion signal from the source mobile communication node via the destination mobile communication node. Execution request receiving means received by the node;
The source mobile communication node identifies the mobile terminal from the execution request signal from the mobile terminal, acquires the quality information stored in the storage means, and in the case of the real-time call, an anchor type hand Selecting means for selecting an over control method, and in the case of the non-real-time call, selecting a non-anchor type handover control method ;
A switching unit configured to switch the plurality of calls according to the handover control method selected by the selection unit between the source mobile communication node and the destination mobile communication node; Over device.

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