KR20110068329A - Mobile communication terminal and multiple wireless sources management server for adaptively implementing hand over between various wireless networks and method thereof - Google Patents

Abstract

PURPOSE: A mobile terminal and multiple radio resource management server which supports adaptive heterogeneous network handover are provided to report state information to a wireless interface and to support adaptive heterogeneous network handover. CONSTITUTION: A wireless resource management unit(306) collects wireless communication network information. A server control unit(304) determines a wireless interface from a mobile terminal through the combination of wireless interface state information. The server control unit handovers the mobile terminal through a determined wireless interface.

Description

MOBILE COMMUNICATION TERMINAL AND MULTIPLE WIRELESS SOURCES MANAGEMENT SERVER FOR ADAPTIVELY IMPLEMENTING HAND OVER BETWEEN VARIOUS WIRELESS NETWORKS AND METHOD THEREOF}

The present invention relates to a handover between heterogeneous wireless communication networks (hereinafter referred to as "heterogeneous network") in a mobile network, and in particular, a mobile network multiple radio resource for a plurality of wireless interfaces supported by a mobile communication terminal. By providing the threshold value information set according to the characteristics of each air interface in the management server, the amount of unnecessary data transmission to the mobile network is reduced by preventing the mobile communication terminal from reporting the state information of all air interfaces to the mobile network. In addition, according to the state of the air interface, the handover pre-registration procedure and the handover execution procedure are separated and performed, so that mobile communication terminals and multiplexing devices supporting adaptive heterogeneous network handover can be minimized. The radio resource management server and the radio resource management method .

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 [Task management number: 2006-S-003-04, Task name: Development of the next-generation mobile communication service platform].

In the next-generation mobile network, various wireless communication networks, such as LTE-Advanced network, Wibro network, and wireless LAN network, are being evolved to be harmoniously connected and converged through an IP-based core network. Wireless networks support a variety of data rates for different wireless technologies.

Accordingly, in the next generation mobile network, the user wants to provide a seamless service while moving to the same wireless network or heterogeneous network regardless of the wireless technology of various wireless communication networks. To this end, next-generation mobile networks can provide users with access to the optimal wireless communication network anytime, anywhere according to their preferences in consideration of service characteristics of each mobile communication terminal such as user's cost, data transmission rate, and coverage. You need support to help.

Meanwhile, in the conventional method of performing handover between various wireless communication networks as described above, after receiving information measured by the mobile communication terminal from the mobile network, the mobile communication terminal selects an appropriate wireless communication network from the mobile network so that the mobile communication terminal has an optimal mobile network environment. Is supporting access to the wireless communication network to receive the service.

However, in the conventional method for performing handover, since the state information of all the air interfaces is periodically reported to the mobile network for all the air interfaces supported by the mobile communication terminal, there is a problem such as an unnecessary increase in data transmission amount in the mobile network.

Accordingly, the present invention provides the threshold information set in accordance with the characteristics of each air interface in the mobile network multiple radio resource management server for a plurality of air interfaces supported by the mobile communication terminal, the state of all the air interface in the mobile communication terminal By not reporting the information to the mobile network, it reduces the amount of unnecessary data transmission to the mobile network and minimizes data loss during handover between heterogeneous networks by separating the handover pre-registration procedure and the handover execution procedure according to the state of the air interface. The present invention provides a mobile communication terminal, a multi-radio resource management server, and a radio resource management method supporting adaptive heterogeneous network handover.

The present invention described above is a multi-radio resource management server, and when a mobile communication terminal accesses a mobile network, information of the wireless communication network connected to the mobile communication terminal and information of other wireless communication networks available in the area where the mobile communication terminal is located are collected. Requesting the radio resource management unit and status information of the wireless interfaces supported by the mobile communication terminal to the mobile communication terminal, and providing status information of the wireless interfaces and information of other wireless communication networks available in the area where the mobile communication terminal is located. And a server control unit for determining one air interface to be used in the mobile communication terminal and handing over the mobile communication terminal to the determined air interface.

The server controller may separate a handover pre-registration procedure and a handover execution procedure according to the state information measured by the mobile communication terminal with respect to the wireless interface when the mobile terminal is handed over to the determined wireless interface. It is characterized in that the execution.

The server controller may transmit a measurement control message requesting status information for each of the air interfaces supported by the mobile communication terminal to the mobile communication terminal, and receive a measurement report message in response to the measurement control message to transmit the measurement information. Characterized by collecting the star status information.

The server controller may provide threshold information for each air interface supported by the mobile communication terminal when the measurement control message is transmitted, and provides status information of the corresponding air interface for the air interface exceeding the threshold. Characterized in that the reception via the measurement report message from the mobile communication terminal.

The state information of the air interface may include speed information for each air interface, SNR information, or user preference information measured in an area where the mobile communication terminal is located according to the measurement control message.

In addition, the present invention provides a mobile communication terminal, a communication unit for transmitting or receiving data by accessing a wireless communication network through a wireless interface selected from among the wireless interfaces supported in the currently located area, and periodically or by receiving status information on the wireless interfaces. A wireless interface state measuring unit measuring according to an occurrence of an event, transmitting state information of the wireless interfaces to the wireless communication network through the communication unit, and receiving a handover command for the selected wireless interface from the wireless communication network; A control unit for performing a handover to the corresponding air interface according to the handover command of the interface.

The controller may be further configured to receive and store threshold information for reporting status information of the wireless interfaces from the wireless communication network, and to measure the status of the wireless interfaces periodically or at an event occurrence to exceed the threshold. If there is a wireless interface, it is characterized by transmitting the state information of the corresponding wireless interface to the wireless communication network.

In addition, the present invention is a method for managing multiple radio resources, when the mobile communication terminal is connected to the mobile network, the information of the wireless communication network connected to the mobile communication terminal and other wireless communication network available in the area where the mobile communication terminal is located; Collecting information, collecting status information of wireless interfaces supported by the mobile communication terminal from the mobile communication terminal, and status information of the wireless interfaces and other wireless communication networks available in an area where the mobile communication terminal is located. Determining a single air interface to be used in the mobile communication terminal by combining the information of the information; and handing over the mobile communication terminal to the determined air interface.

The collecting of the state information of the air interface may include transmitting a measurement control message requesting status information for each air interface supported by the mobile communication terminal to the mobile communication terminal, and the measurement control message from the mobile communication terminal. And collecting status information for each air interface by receiving the measurement report message responsive to the message.

In the handover step, the handover pre-registration procedure and the handover execution procedure may be separately executed according to the state information measured by the mobile communication terminal for the determined air interface.

In the present invention, by providing the threshold information set in accordance with the characteristics of each air interface in the mobile network multiple radio resource management server for a plurality of air interfaces supported by the mobile communication terminal, the mobile communication terminal to obtain the state information of all air interfaces Reduction of unnecessary data transmission to the mobile network by reporting the status information only to the corresponding wireless interface that needs to be reported according to the environment of the wireless communication network in the area where the mobile communication terminal is located and the measurement value of each wireless interface, without reporting to the mobile network. There is an advantage to this.

In addition, the radio resource management server sets the states of the plurality of air interfaces supported by the mobile communication terminal in various stages, and separates the handover pre-registration procedure and the handover execution procedure according to the state information of the air interface to access the wireless communication network. By performing the handover for the mobile communication terminal, there is an advantage in that data loss due to the handover between heterogeneous networks can be minimized.

Hereinafter, with reference to the accompanying drawings will be described in detail the operating principle of the present invention. In the following description of the present invention, when it is determined that a detailed description of a known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

1 illustrates the structure of various mobile networks to which the present invention is applied. Hereinafter, various mobile networks to which a mobile communication terminal can access will be described with reference to FIG. 1.

First, the LTE-Advanced network 108 supports a data service at high speed, medium speed, or low speed of the mobile communication terminal 100. The Wibro network 106 supports a data service during a medium speed or low speed movement of the mobile communication terminal 100. The wireless LAN network 104 supports a data service during a low speed movement of the mobile communication terminal 100. In this case, the coverage of the WLAN network 104 may be included in the coverage of the WiBro network 106 or may be separated.

The core network 110 is a network to which a plurality of servers and systems for managing a mobile network are connected, and according to an embodiment of the present invention, a multi-radio resource for managing radio resources of a mobile communication terminal 100 is provided. The management server 112 and the core network system 114 that performs overall network management of the mobile network, and the like.

The mobile communication terminal 100 supports a plurality of air interfaces for connecting to heterogeneous networks according to various moving speeds, and receives packet service through handover between heterogeneous networks.

The base station 102 of the mobile network plays a role of a physical layer, is responsible for transmitting and receiving data through an air interface, manages radio resources, and is responsible for establishing a radio bearer. In addition, to set the wireless physical channels (physical channel) necessary for data exchange with the mobile communication terminal 100, converts the data transmitted from the upper protocol (protocol) to the wireless environment to transmit to the mobile communication terminal 100, The data received from the mobile communication terminal 100 is transferred to a higher layer protocol.

The multi-radio resource management server 112 is based on the state information of the radio interface measured from the mobile communication terminal 100 and the information on the radio resources transmitted from the base station 102 of the mobile network is located in the mobile communication terminal 100 It performs a function of providing an optimal air interface to the mobile communication terminal 100 in the area.

The core network system 114 includes an authentication server, an access gateway, and the like necessary for basic access and handover control of the mobile communication terminal 100.

FIG. 2 illustrates a detailed block configuration of a mobile communication terminal 100 according to an embodiment of the present invention. Hereinafter, an operation of each block of the mobile communication terminal 100 will be described in detail with reference to FIG. 2.

First, the communication unit 208 includes a plurality of air interfaces for connection to a heterogeneous network, and connects to a wireless communication network through one air interface selected from the plurality of air interfaces.

The audio unit 212 modulates a voice signal input through the microphone MIC into a wireless signal under the control of the control unit 206, and demodulates the received wireless signal and transmits it to the speaker SPK as a voice signal. The key input unit 200 includes a plurality of numeric keys, and generates corresponding key data when the user presses a predetermined key and outputs the corresponding key data to the controller 206.

The display unit 204 displays various types of information of the mobile communication terminal 100 under the control of the controller 206, and receives and displays key data generated by the key input unit 200 and various information signals of the controller 206. .

The control unit 206 controls the overall operation of the mobile communication terminal 100, and when the mobile communication terminal 100 is connected to the wireless communication network according to an embodiment of the present invention to the corresponding wireless communication network through one selected air interface It accesses and transmits state information of a wireless interface that can be supported by the mobile communication terminal 100. In addition, the controller 206 transmits the air interface state information of the mobile communication terminal 100 and the area where the mobile communication terminal 100 is located from the multi-radio resource management server 112 in the mobile network after transmitting the above state information of the air interface. When the air interface handover command is received in consideration of the state of the wireless communication network, the switchover to the corresponding air interface according to the handover command.

FIG. 3 illustrates a detailed block diagram of the multiple radio resource management server 112 according to an embodiment of the present invention. The multiple radio resource management server 112 includes a network interface 300 and a memory unit. 302, a server controller 304, a radio resource manager 306, and the like.

First, the network interface unit 300 is connected to the core network system 114 through a core network 110 to interface data transmitted / received between the core network system 114 and the multiple radio resource management servers 112. do.

When the mobile communication terminal 100 accesses the mobile network, the radio resource management unit 112 may transmit information on the wireless communication network and the mobile communication terminal connected to the mobile communication terminal 100 from the core network system 114 through the network interface unit 300. Collects information of other wireless communication networks available in the area where the 100 is located.

The server controller 304 controls overall operations for managing radio resources of the mobile communication terminal 100 according to an operation program stored in the memory unit 302. That is, the server controller 304 requests the state information of the air interface supported by the mobile communication terminal 100, and the area in which the state information of the air interface received from the mobile communication terminal 100 and the mobile communication terminal 100 are located. In consideration of the information of the other wireless communication network available in the determination of the optimal air interface to use in the mobile communication terminal 100, handover the mobile communication terminal 100 to the determined wireless interface.

At this time, the server controller 304 performs a handover pre-registration procedure and a handover execution procedure according to the state information for each air interface supported by the mobile communication terminal 100 when performing the handover on the air interface of the mobile communication terminal 100. By separating and executing, it is possible to reduce the data loss due to the handover between the heterogeneous networks of the mobile communication terminal 100 as much as possible.

In addition, the server control unit 304, in collecting the state information of the air interface from the mobile communication terminal 100, requesting the state information for each air interface supported by the mobile communication terminal 100 to the mobile communication terminal 100 A measurement control message is transmitted, and a measurement report message received in response to the measurement control message is received from the mobile communication terminal 100 to collect status information for each air interface included in the measurement report message. The operation of collecting the air interface state information of the mobile communication terminal 100 in the multiple radio resource management server 112 will be described in detail later with reference to FIG. 5.

4 illustrates a structure of a measurement object of the mobile communication terminal 100 according to an exemplary embodiment of the present invention.

First, the measurement entity 20 refers to an object that can be measured by the mobile communication terminal 100, and may be divided into a measurement entity having characteristics independent of the air interface and a measurement entity having characteristics dependent on the air interface.

The independent measurement entity measures the velocity measurement entity 21 indicating the current speed of the mobile communication terminal 100 irrespective of the air interface and the preferred network indicating the preferred network of the mobile communication terminal 100. There may be an object 22. The speed measurement entity 21 is used as a handover decision factor for which wireless communication network is better to hand over to the mobile communication terminal 100 as the mobile terminal 100 increases and decreases in speed. do.

In addition, the preferred network measurement entity 22 refers to a wireless communication network preferred by the mobile communication terminal 100 among wireless communication networks searched around the mobile communication terminal 100 as the speed of the mobile communication terminal 100 increases and decreases. This is also used as a handover decision factor. The dependent measurement entity may include a limited velocity measurement entity 24 based on characteristics of the air interface 23, an SNR measurement entity 25 representing a signal strength of the air interface 23, and the mobile communication terminal 100. There may be a location ID measurement entity 26 that indicates the current location of the.

The mobile communication terminal 100 uses each of the measurement objects in a periodic 27 or event 28 method, and measures values or state information of the measurement objects for each air interface to the multi-radio resource management server 112 in the mobile network. Report. The periodic method is a method of measuring a measurement object every predetermined periodic period time 29 and reporting the measured value to the multi-radio resource management server 112, and the event method is a condition of the highest or lowest threshold value 30. According to the method, the status information of the measurement object is reported.

5 illustrates a processing flow of a measurement control message and a measurement report message between the mobile communication terminal 100 and the radio resource management server 112 according to an embodiment of the present invention.

First, the mobile communication terminal 100 performs an initial access procedure to the mobile network (S500). Then, the multi-radio resource management server 112 receives the current location information of the mobile communication terminal 100 and information on the wireless communication network to which the mobile communication terminal 100 is connected from the core network system 114 in the core network 110. (S502).

Subsequently, the multi-radio resource management server 112 collects information on other wireless communication networks around the mobile communication terminal 100 based on the current location of the mobile communication terminal 100 to generate any wireless information about the mobile communication terminal 100. Determine whether there is a communication network (S504). In this case, it is assumed that the multi-radio resource management server 112 manages the shape information of the heterogeneous network.

Then, the multi-radio resource management server 112 measures the control policy (rule policy) for the measurement object to be reported from the mobile communication terminal 100 and the method to receive the report (periodic or event method) measurement control message (measurement control message) ) And transmits it to the mobile communication terminal 100 (S506).

That is, the multi-radio resource management server 112 defines the following rule policy to reduce the amount of unnecessary data transmitted on the mobile network according to an embodiment of the present invention. In this manner, the speed measurement entity 21, which is an independent measurement entity for the air interface, may be reported from the mobile communication terminal 100 in a periodic or event manner according to the defined rule policy. In addition, the preferred network measurement entity 22 may receive a report in the event method in such a manner that only when the preferred network of the mobile communication terminal 100 is changed.

And, the rule policy for the air interface can be defined in two ways. If a wireless interface to which the mobile terminal 100 is currently connected is defined as an active wireless interface, the rule policy for the active wireless interface may be as follows. That is, the speed limit measurement object of the active air interface is defined as a speed limit value that matches the characteristics of the active air interface, and when the speed limit value is satisfied, the SNR measurement value is periodically or evented to the multi-radio resource management server 112. Report it. At this time, the location information of the mobile communication terminal 100 is also reported.

For example, assuming that the multi-radio resource management server 112 knows that the mobile communication terminal 100 is currently connected to the WiBro air interface, the rule policy of the WiBro active air interface may be defined as follows. The speed limit value of the WiBro air interface may be defined as 80 km / h or less, and a rule policy for periodically reporting the SNR every 1 ms may be transmitted to the mobile communication terminal 100 in a measurement control message.

Then, the mobile communication terminal 100 measures the SNR signal every 1 ms only when the moving speed is 80 km / h or less, and transmits the SNR signal of the WiBro air interface to the multi-radio resource management server 112 and the location information of the mobile communication terminal 100. Is sent in the measurement report message.

In addition, the multi-radio resource management server 112 may define a wireless interface to which the mobile communication terminal 100 is not connected as an inactive wireless interface, and define a rule policy for the inactive wireless interface as follows. . The speed limit measurement object of the inactive air interface is defined as a speed limit value suitable for the characteristics of the inactive air interface, and the threshold value of the SNR is defined to satisfy the speed limit while satisfying the speed limit and the SNR state value of the inactive air interface. The rule policy for reporting to the multi-radio resource management server 112 may be included in the measurement control message and transmitted to the mobile communication terminal. At this time, the location information of the mobile communication terminal 100 is also reported.

For example, when the inactive wireless interface of the mobile communication terminal 100 is a wireless LAN, a rule policy may be defined as follows. Define the speed limit value of the wireless LAN wireless interface to less than 10km / h, define a rule policy of the SNR threshold value of -75dBm (signal strength more than 50% level) and put it in the measurement control message to the mobile communication terminal 100 send.

Then, when the speed of the mobile communication terminal 100 is 10 km / h or less, and the SNR signal of the wireless LAN indicates a signal strength of 50% or more, the mobile communication terminal 100 transmits the wireless LAN to the multiple radio resource management server 112. SNR status information and location information are transmitted in the measurement report message. That is, according to the above rule policy, the mobile communication terminal 100 transmits the measurement object value of the inactive air interface only when the speed limit measurement object and the SNR measurement object of the mobile communication terminal 100 are satisfied. You can reduce the amount of data.

In addition, the value of the measurement object may be determined according to the characteristics of the wireless interface as well as the rule policy for the other wireless interface as well as the wireless LAN. The mobile communication terminal 100 measures a measurement entity according to a rule policy received from the multi-radio resource management server 112, and transmits a value of the measurement entity or state information of the air interface in a measurement report message (S508).

6 shows a flowchart in which the multi-radio resource management server 112 receives information on radio resources from the base station 102 of the mobile network.

Hereinafter, referring to FIG. 6, the base station 102 in each mobile network periodically reports the state information of the radio resources currently managed by the multi-radio resource management server 112 (S600). The state information of the radio resource may include the number of mobile communication terminals 100 currently connected to the base station 102 and the currently available radio resources. The multiple radio resource management server 112 uses the information received from each base station 102 for the optimal radio interface selection algorithm.

7 is a diagram illustrating an adaptive heterogeneous network handover performed by a multiple radio resource management server 112 based on information received from a mobile communication terminal 100 and a base station 102 of a mobile network according to an embodiment of the present invention. An operation control flowchart is shown. Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 1 and 7.

First, when the multi-radio resource management server 112 receives the information that the mobile communication terminal 100 is initially connected to the mobile network from the core network system 114 (S700), the wireless interface that can be supported by the mobile communication terminal 100 In order to receive a value or status information from the measurement entity measured by the mobile communication terminal 100, the rule policy is transmitted to the mobile communication terminal 100 in a measurement control message (S702).

Subsequently, the multi-radio resource management server 112 is in a waiting state for receiving the value or status information of the measurement object from the mobile communication terminal 100 (S704), and the measurement report message is transmitted from the mobile communication terminal 100. In case of receiving the measurement report message from the mobile communication terminal 100 (S706).

When receiving the measurement report message as described above, the multi-radio resource management server 112 checks the state information of the air interface by calculating a cost for the air interfaces sent by the mobile communication terminal 100 (S708). In this case, the value calculation for the air interface may be performed based on the weight of the measurement entity, the value of the measurement entity, and information received from the base station 102 of the mobile network.

Subsequently, the multi-radio resource management server 112 determines the state change of the air interface according to the state information of the air interface (S710). When determining the state change of the air interface as described above, the multi-radio resource management server 112 continuously checks the state information of the air interfaces supported by the mobile communication terminal 100 (S712).

For example, if a value of a wireless interface that is inactive among any of the wireless interfaces supported by the mobile communication terminal 100 is greater than or equal to a threshold value (a value capable of handover advance procedure), the multiple radio resource management server 112 may be used. Changes the inactive wireless interface to the selected wireless interface state (S714). In this case, the selected wireless interface means a wireless interface that the mobile communication terminal 100 may be handed over, and the multi-radio resource management server 112 performs a wireless connection and authentication procedure on the mobile communication terminal 100 in advance. Instructs a handover pre-registration procedure execution command (S716).

In addition, if the value of the selection radio interface is equal to or less than a threshold value (a value capable of handover pre-procedure), the multiple radio resource management server 112 changes the selection radio interface to the inactive radio interface state (S718). That is, for example, when the signal strength of the selected air interface is weakened, the mobile communication terminal 100 is instructed to cancel the already performed handover pre-registration procedure (S720).

Alternatively, if the calculated value of the selected air interface is greater than or equal to a threshold (a value capable of a handover execution procedure), the multi-radio resource management server 112 is in a stand-by air interface state. Change to (S722). At this time, the ready wireless interface means a wireless interface that the mobile communication terminal 100 can execute the handover immediately. After the multi-radio resource management server 112 compares the value of the active air interface to which the mobile communication terminal 100 is currently connected and the value of the ready air interface (S724), the state of a certain air interface is further increased. Check whether excellent (S726).

That is, as a result of the comparison, if the state of the active air interface is checked to be superior to that of the ready air interface, the multi-radio resource management server 112 allows the service to continue to be executed on the active air interface (S728).

However, if the result of the comparison determines that the state of the ready radio interface is superior to that of the active radio interface, the multi-radio resource management server 112 instructs the mobile terminal 100 to perform a handover procedure to the ready radio interface. Instructs to perform (S730). In this case, the handover execution procedure means performing an IP packet forwarding procedure from the active radio interface to the preparation radio interface and a bearer change procedure from the preparation radio interface.

Subsequently, the multi-radio resource management server 112 instructs the mobile communication terminal 100 to terminate the connection of the active air interface, changes the state of the active air interface to the inactive air interface state (S732), and prepares the ready air interface. Change to the active air interface state (S734). Then, since the air interface states of the mobile communication terminal 100 have been changed, the multi-radio resource management server 112 puts a new rule policy for the measurement entity of the air interface in the measurement control message and sends it back to the mobile communication terminal 100. It transmits (S736), and receives the measurement report message (S738).

As described above, the present invention provides the threshold information set according to the characteristics of each radio interface in the mobile network multiple radio resource management server for the multiple radio interfaces supported by the mobile communication terminal, thereby all the radios in the mobile communication terminal. Instead of reporting the status information of the interface to the mobile network, it is necessary to report the status information only to the corresponding wireless interface that needs to be reported according to the environment of the wireless communication network in the area where the mobile communication terminal is located and the measurement value of each wireless interface. To reduce the transmission of data. In addition, the multi-radio resource management server has a plurality of stages of the state of the radio interface supported by the mobile communication terminal, and separate the handover pre-registration procedure and the handover execution procedure according to the state information of the radio interface to the wireless communication network By performing a handover for the access of the, it is possible to minimize the data loss due to the handover between heterogeneous networks in the mobile communication terminal.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should not be limited by the described embodiments but should be defined by the appended claims.

1 is a diagram illustrating a mobile network to which an embodiment of the present invention is applied;

2 is a detailed block diagram of a mobile communication terminal according to an embodiment of the present invention;

3 is a detailed block diagram of a multi-radio resource management server according to an embodiment of the present invention;

4 is a structural diagram of measurement objects of a mobile communication terminal according to an embodiment of the present invention;

5 is a flowchart illustrating a measurement control and report message transmission and reception between a mobile communication terminal and a multi-radio resource management server according to an embodiment of the present invention;

6 is a flow chart of transmitting and receiving radio resource information between a multi-radio resource management server and a base station of a mobile network according to an embodiment of the present invention;

7 is an operation control flowchart for processing an adaptive heterogeneous network handover in a multi-radio resource management server according to an embodiment of the present invention.

<Brief description of the major symbols in the drawings>

100: mobile communication terminal 102: base station

104: wireless LAN network 106: WiBro network

108: LTE-Advanced Network 110: Core Network

112: multiple radio resource management server 112: core network system

Claims (10)

A radio resource management unit collecting information of a wireless communication network connected to the mobile communication terminal and information of another wireless communication network usable in an area where the mobile communication terminal is located when the mobile communication terminal accesses a mobile network; Requesting the mobile communication terminal state information of the wireless interfaces supported by the mobile communication terminal, combining the state information of the wireless interfaces with information of other wireless communication networks available in the area where the mobile communication terminal is located; A server control unit for determining a wireless interface to be used in the handset, and handover the mobile communication terminal to the determined wireless interface Multiple radio resource management server comprising a. The method of claim 1, The server control unit, When performing a handover of the mobile communication terminal to the determined wireless interface, multi-radio resource management for separating and executing a handover pre-registration procedure and a handover execution procedure according to the state information measured by the mobile communication terminal for the wireless interface. server. The method of claim 1, The server control unit, Sending a measurement control message for requesting the status information for each radio interface supported by the mobile communication terminal to the mobile communication terminal, and receives the measurement report message in response to the measurement control message to collect the status information for each air interface Radio Resource Management Server. The method of claim 3, wherein The server control unit, When the measurement control message is transmitted, threshold information for each radio interface that can be supported by the mobile communication terminal is provided, and for the wireless interface exceeding the threshold value, status information of the corresponding air interface is reported from the mobile communication terminal. Multiple radio resource management servers receiving over messages. The method of claim 4, wherein Status information of the air interface, The radio resource management server including speed information for each air interface, SNR information, or user preference information measured in an area where the mobile communication terminal is located according to the measurement control message. A communication unit which transmits or receives data by accessing a wireless communication network through a selected wireless interface among the supported air interfaces in the currently located area; An air interface state measuring unit measuring state information about the air interfaces periodically or according to occurrence of an event; Transmitting state information of the wireless interfaces to the wireless communication network through the communication unit, and when a handover command for the selected wireless interface is received from the wireless communication network, to the corresponding wireless interface according to the handover command among the wireless interfaces. Control unit performing handover Mobile communication terminal comprising a. The method of claim 6, The control unit, Receiving and storing threshold information for reporting status information of the wireless interfaces from the wireless communication network, and measuring a state of the wireless interfaces periodically or upon occurrence of an event, wherein a wireless interface exceeding the threshold exists The mobile terminal for transmitting the state information of the corresponding air interface to the wireless communication network. When the mobile communication terminal accesses a mobile network, collecting information of the wireless communication network to which the mobile communication terminal is connected and information of other wireless communication networks available in the area where the mobile communication terminal is located; Collecting state information of air interfaces supported by the mobile communication terminal from the mobile communication terminal; Determining one air interface to be used in the mobile communication terminal by combining state information of the air interfaces and information of another wireless communication network available in the area where the mobile communication terminal is located; Handing over the mobile communication terminal to the determined air interface; Multiple radio resource management method comprising a. The method of claim 8, Collecting state information of the air interface, Transmitting a measurement control message for requesting status information for each wireless interface that can be supported by the mobile communication terminal to the mobile communication terminal; Receiving the measurement report message in response to the measurement control message from the mobile communication terminal and collecting state information for each air interface; Multiple radio resource management method comprising a. The method of claim 8, In the handover step, And a handover pre-registration procedure and a handover execution procedure are separately executed according to the state information measured by the mobile communication terminal for the determined air interface.

Images