KR20100068784A - Handover server and handover method over multi-interface environment - Google Patents

Abstract

PURPOSE: A handover server in multi-interface environment in multi-interface environment and a method thereof are provided to process handover by reflecting triggering information including static data and dynamic data. CONSTITUTION: A storage part(110) stores triggering information. The triggering information includes static data allocated by a mobile telecom system and dynamic information changed according to circumferences. When handover events occur, a hand over processor(120) process the handover by selecting one wireless connection system among a plurality of wireless access systems.

Description

Handover server and handover method over multi-interface environment

The present invention relates to a handover technology between a plurality of radio access systems, and more particularly, to a handover server and a handover method in a multi-interface environment.

The present invention is derived from a study conducted as part of the IT growth engine technology development project of the Ministry of Knowledge Economy and the Ministry of Information and Telecommunications Research and Development. .

The next generation mobile communication environment will provide users with more diverse wireless environments. A user with a user equipment (UE) capable of integrating multiple radio access technologies may want a reasonable handover based on the variables of the network environment surrounding the user equipment and his own user environment variables. Will be.

On the other hand, the network operator will want to provide a wireless access service that satisfies both the user and the operator by distributing the network load and allowing the user to receive the service in an optimal environment.

To this end, it is further evolved from the vertical handover based on simple signal strength and network shape, and appropriate handover according to the load balancing of the network, the operator's pricing, the user's priority, and the application being serviced is required. It is expected.

Therefore, the present inventor not only collects the radio strength in the network but also collects various triggering information and performs the rational handover by referring to the handover. The research on handover technology was conducted.

The present invention has been invented under the above-described purpose, and the multi-processing process is performed by reflecting the static information statically allocated by the user terminal and the mobile communication system and the triggering information including the dynamic information that changes according to time or situation. An object thereof is to provide a handover server and a handover method in an interface environment.

According to an aspect of the present invention for achieving the above object, when a handover event occurs, the handover server to the static information that is statically allocated by the user terminal and the mobile communication system, and dynamic information that changes according to time or situation A handover process may be performed by selecting any one of a plurality of radio access systems (RATs) according to triggering information included therein.

Accordingly, the present invention is further evolved from the vertical handover based on the conventional simple signal strength and network shape, and the static information such as the policy of the user terminal and the mobile communication system and the environment of the user terminal and the mobile communication system. By reflecting dynamic information such as) during handover, it satisfies user's needs and has an efficient effect in terms of overall network operation.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce.

In the following description of the present invention, detailed descriptions of well-known functions or configurations will be omitted if it is determined that the detailed description of the embodiments of the present invention may unnecessarily obscure the gist of the present invention.

Prior to describing the present invention, terms used throughout the specification are defined. These terms are terms defined in consideration of functions in the embodiments of the present invention, and are terms that can be sufficiently modified according to the intention, convention, etc. of the user or operator, and the definitions of these terms are based on the contents throughout the specification of the present invention. Will have to be lowered.

A multi-interface environment refers to an environment in which a user terminal (UE) can access a plurality of radio access technologies (RATs) to receive radio data services.

The handover server refers to an apparatus for handover processing by selecting any one of a plurality of radio access systems (RATs) under a multi-interface environment with reference to triggering information when a handover situation occurs.

Triggering information is information including static information statically allocated by the user terminal and the mobile communication system, and dynamic information that changes according to time or circumstances.

The static information refers to information related to a policy of a user terminal and a mobile communication system such as a quality policy and a price policy, for example.

The dynamic information refers to information related to an environment of a user terminal and a mobile communication system such as user input information, signal strength information, and radio resource information.

1 is a schematic diagram of a multi-interface environment. As shown in the figure, a multi-interface environment has a structure in which a plurality of radio access technologies (RATs) are superimposed, and a user terminal (UE) has a plurality of radio access systems (RATs). Radio access service) to receive a wireless data service.

2 is a schematic diagram of a handover system in a multi-interface environment according to the present invention. As shown in the figure, the handover server 100 is interworked between the user terminal 200 and the mobile communication system 300 to reflect the triggering information, a plurality of radio access system (RAT) 400 in a multi-interface environment By selecting one of the wireless access system to determine the handover to provide an optimal wireless data service to the user terminal 200.

3 is a block diagram illustrating a configuration of a handover server in a multi-interface environment according to the present invention. As shown in the figure, the handover server 100 according to this embodiment includes a storage unit 110 and a handover processing unit 120.

The storage unit 110 stores triggering information including static information statically allocated by the user terminal 200 and the mobile communication system 300 and dynamic information that changes according to time or circumstances.

In this case, the static information is information related to a policy of the user terminal and the mobile communication system such as a quality policy and a price policy. The static information may be managed by a user profile and a service profile.

For example, the static information exists in a wireless data network of an IMS (IP Multimedia Subsystem), and determines a quality (QoS) and a billing rule by interworking with a call processing server (pCSCF) and a service server provided by a wireless data network. The network entity may be obtained from a network entity such as a policy and charging rule function (PCRF).

On the other hand, the dynamic information is information related to the environment (environment) of the user terminal and the mobile communication system. In this case, the dynamic information may include user input information, user terminal environment information including signal strength information, and system environment information including radio resource information.

When the handover event occurs, the handover processing unit 120 selects any one of a plurality of radio access system (RAT) 400 according to the triggering information stored in the storage unit 110. Handover process.

That is, the handover processing unit 120 moves static information related to a policy of a user terminal such as a quality policy and a price policy and a policy of a mobile communication system, user input information, signal strength information, and radio resource information. Based on the information related to the environment of the communication system, any one of a plurality of radio access system (RAT) 400 is selected and handovered.

For example, when the handover event occurs when the handover processing unit 120 moves according to the movement of the user terminal, the wireless access systems (RATs) corresponding to the quality and price required by the user input information input through the user terminal, etc. Search from the static information related to the policy of the user terminal and the mobile communication system such as the quality policy and the price policy, and the strength is excellent by referring to the signal strength information and the radio resource information among the found RATs. In addition, it may be implemented to select and handover any one radio access system (RAT) having less radio resource occupation.

By doing so, the handover server in the multi-interface environment according to this embodiment is further evolved from the vertical handover based on the conventional simple signal strength and the network shape, so that the policy of the user terminal and the mobile communication system, etc. By reflecting static information and dynamic information such as user terminal and environment of the mobile communication system at the time of handover, it is possible to provide efficient handover in terms of overall network operation while satisfying user's needs.

A handover operation of a handover server in a multi-interface environment according to the present invention having the above-described configuration will be described with reference to FIG. 4. 4 is a flow diagram illustrating an embodiment of a handover operation of a handover server in a multi-interface environment according to the present invention.

When the user terminal 200 is turned on, an initial access procedure is performed to establish a connection between the user terminal and the initially set wireless access system 300. In this state, when the wireless environment of the currently connected wireless access system 300 becomes poor due to movement of the user terminal 200, the user terminal 200 generates a handover event and transmits mobility information to the handover server 100. request. The mobility information is wireless access system information that can be used by the user terminal.

Then, in response to the request for mobility information from the user terminal 200, the handover server 100 provides the user terminal 200 with mobility information including a list of wireless access systems available to the user terminal in step S110. .

The user terminal 200 having received the mobility information generates the rank list information of the radio access system (RAT) with reference to this, and transmits it to the handover server 100. At this time, when generating the rank list information of the radio access system (RAT), it may be implemented to determine the priority according to the setting information previously set by the user.

Then, the handover server 100 receives the rank list information of the radio access system (RAT) generated and transmitted by the user terminal 200 from the user terminal 200 in step S120.

Next, in step S130, the handover server 100 requests the user terminal 200 to measure the signal strength of the radio access systems (RATs) included in the rank list information of the radio access system (RAT), and the corresponding user. Receive measurement report information on the radio wave strength of each radio access system (RAT) from the terminal.

When the measurement report information on the signal strength of each radio access system (RAT) is received from the user terminal 200 by the step S130, the handover server 100 refers to the measurement report information and the triggering information in step S140 Handover processing is performed by selecting any one of the RATs included in the rank list.

In FIG. 4, a radio access system (RAT) connected to a user terminal before handover is denoted as a source radio access system, and a radio access system (RAT) connected to a user terminal after handover is designated as a target radio access system.

In this case, the triggering information includes static information statically allocated by the user terminal 200 and the mobile communication system 300, and dynamic information that changes according to time or circumstances.

The static information is information related to a policy of a user terminal and a mobile communication system such as a quality policy and a price policy. The static information may be managed by a user profile and a service profile.

For example, the static information exists in a wireless data network of an IMS (IP Multimedia Subsystem), and determines a quality (QoS) and a billing rule by interworking with a call processing server (pCSCF) and a service server provided by a wireless data network. It can be obtained from the PCRF (Policy and Charging Rule Function).

On the other hand, the dynamic information is information related to the environment (environment) of the user terminal and the mobile communication system. In this case, the dynamic information may include user input information, user terminal environment information including signal strength information, and system environment information including radio resource information.

Meanwhile, the triggering information may be collected from the user terminal 200 and the mobile communication system 300 at every handover, or may be used at the time of handover in a pre-collected and stored state periodically.

For example, the handover server 100 performs wireless communication with the user terminal, such as the quality policy and the price policy, for wireless access systems (RATs) corresponding to the quality and price required by the user input information input by the user through the user terminal. Search from static information related to the policy of the system, and refer to any one of the radio access systems (RAT) that have excellent strength and low radio resource occupancy by referring to signal strength information and radio resource information ( Handover by selecting RAT). In this case, the user input information, quality policy, price policy, radio resource information, and the like are triggering information.

If the handover is determined in step S140 by the handover server 100 selecting one of the radio access systems (RATs), the handover server 100 is a user terminal, the source radio access system and the selected target radio access system The user terminal releases the connection with the source radio access system by notifying the message, and connects to the selected target radio access system, and terminates the handover.

Accordingly, by the above, the present invention is further evolved from the vertical handover based on the conventional simple signal strength and the network shape, and the static information such as the policy of the user terminal and the mobile communication system and the user terminal and the mobile communication system. By reflecting dynamic information such as environment at the time of handover, it is possible to provide an efficient handover in terms of overall network operation while satisfying the user's desires, thereby achieving the above object of the present invention. Will be.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. .

The present invention is a handover technology field and its application technology in a multi-interface environment in which a user terminal (UE) is connected to a plurality of radio access systems (RATs) to receive wireless data services. Industrially available in the field.

1 is a schematic diagram of a multi interface environment;

2 is a schematic diagram of a handover system in a multi-interface environment according to the present invention;

3 is a block diagram illustrating a configuration according to an embodiment of a handover server in a multi-interface environment according to the present invention.

4 is a flowchart illustrating an embodiment of a handover operation of a handover server in a multi-interface environment according to the present invention.

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

100: handover server 110: storage unit

120: handover processing unit 200: user terminal

300: mobile communication system 400: wireless access system

Claims (10)

A storage unit for storing static information statically allocated by the user terminal and the mobile communication system and triggering information including dynamic information that changes according to time or situation; A handover processing unit for selecting and handing over any one of a plurality of wireless access systems according to the triggering information stored in the storage unit when a handover event occurs; Handover server in a multi-interface environment comprising a. The method of claim 1, The static information is: Handover server in a multi-interface environment, characterized in that the information related to the policy of the user terminal and the mobile communication system (Policy). The method of claim 1, The dynamic information is: Handover server in a multi-interface environment, characterized in that the information related to the environment (environment) of the user terminal and the mobile communication system. The method of claim 2, The static information is: A handover server in a multi-interface environment, which is managed by a user profile and a service profile. The method of claim 2, The static information is: Handover server in a multi-interface environment, characterized in that obtained from the network entity to determine the quality (QoS) and charging rules (Rule) in conjunction with the service server provided in the wireless data network. The method of claim 3, wherein The dynamic information is: Handover server in a multi-interface environment, characterized in that it comprises user input information, and user terminal environment information including signal strength information. The method of claim 3, wherein The dynamic information is: Handover server in a multi-interface environment characterized by including the system environment information including radio resource information. A mobility information providing step of, by the handover server, providing mobility information including a list of wireless access systems available to the user terminal to the user terminal in response to a request for mobility information from the user terminal; A rank list information receiving step of receiving, by the handover server, the rank list information of the radio access system generated with reference to mobility information from the user terminal; The handover server requests the user terminal to measure the signal strength of the radio access systems (RATs) included in the rank list information of the radio access system, and provides measurement report information on the radio wave strength of each radio access system from the user terminal. Receiving a measurement report; A handover processing step, wherein a handover server selects any one of wireless access systems included in the rank list by referring to the measurement report information and the triggering information and performs handover processing; Handover method in a multi-interface environment comprising a. The method of claim 8, The triggering information is: A handover method in a multi-interface environment, comprising static information statically allocated by a user terminal and a mobile communication system, and dynamic information changing according to time or circumstances. The method of claim 9, The static information is: Handover method in a multi-interface environment, characterized in that the information related to the policy of the user terminal and the mobile communication system (Policy).

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