KR20100064833A - Handover method in mobile network and mobile network system thereof - Google Patents

Abstract

PURPOSE: A handover method in a mobile network and a mobile network system thereof are provided to obtain network information which is near a mobile terminal and accessible from the mobile terminal in consideration of the moving time and moving speed of mobile terminal, thereby performing effective and rapid heterogeneous handover. CONSTITUTION: A system measures moving time of mobile terminal(S410). The system measures the moving speed of the mobile terminal(S430). The mobile terminal request accessible neighboring network information to network access information server(S490). The network connection information server transmits the network information which is available for neighboring of the mobile terminal through location information of the mobile terminal to the mobile terminal(S530). The mobile terminal selects network corresponding to the moving speed(S540).

Description

A handover method in a mobile communication network, and a mobile communication network system using the same

The present invention relates to a handover method in a mobile communication network and a mobile communication network system using the same. More specifically, the user selects an optimal network service from a mobile communication terminal located in a region where two or more mobile communication networks overlap. It relates to a handover method provided to.

The present invention is derived from a study conducted as part of the IT growth engine technology development of the Ministry of Knowledge Economy and the Ministry of Information and Communication Research and Development. [Task management number: 2008-S-006-01, Task name: Open IPTV in wired and wireless environment (IPTV2. 0) Technology Development].

Recently, a mobile communication network has an overlay network structure in which a wireless access network for high-speed data transmission, a wide-area cellular wireless access network, a local-area wireless access network, etc. converge and have overlapped service areas. .

In the overlay mobile communication network environment, handover support for determining and accessing an optimal network among overlapping mobile communication networks is provided to provide a service in an optimal network without interruption regardless of a user's moving speed. need. There is also a need for efficient resource management and a fast handover method.

     The technical problem to be achieved by the present invention is that when a user moves to a heterogeneous network in various wireless network environments, the mobile terminal does not use a cycle time for network discovery and selection, but the surrounding network information according to the movement time and the speed of the mobile terminal change. To provide a method for obtaining from the network and heterogeneous network handover method using the same.

The present invention relates to a handover method in a mobile communication network and a mobile communication network system using the same. The handover method comprises the steps of: measuring a moving speed of the mobile terminal when the mobile terminal connected to the first network moves more than a predefined moving time threshold value; Requesting network information from the network access information server based on the moving speed; Receiving network information accessible from a network access information server; Selecting the second network corresponding to the moving speed from the received network information, and connecting the mobile terminal to the second network.

According to the present invention, the mobile terminal obtains peripherally accessible network information in consideration of the moving time and the moving speed which are the dynamic values of the mobile terminal, so that the inter-network handover can be performed more efficiently and faster than periodically acquiring the information. have.

      In order to achieve the above object and technical problem the present invention will be described in detail with reference to the accompanying drawings.

1 illustrates an embodiment of a structure in which a plurality of wireless networks overlap.

Referring to FIG. 1, a plurality of wireless networks may overlap according to a location of a wireless network base station.

That is, a plurality of radio networks A, B, and C to which different radio network technologies are applied may overlap, and a plurality of radio network cells belonging to one radio network may overlap each other.

For example, as two base stations providing the A wireless network are located as shown in FIG. 1, there may be an A1 wireless network cell and an A2 wireless network cell providing the A wireless network. In addition, as seven base stations providing a B wireless network are located, there may be seven wireless network cells B1, B2, B3, B4, B5, B6, and B7 providing the A wireless network. In addition, as one base station providing a C wireless network is located, there may be a C wireless network cell providing the C wireless network.

      The plurality of wireless networks may be a Wibro network, a cellular network, or a wireless local area network (WLAN). In the next-generation mobile communication network, various wireless networks are evolving in a manner of being harmoniously connected and converged through an IP-based core network. It supports data transfer rate. In this next generation mobile communication network, a user wants to provide a seamless service while moving between access networks to the same network and heterogeneous network regardless of wireless technologies of various wireless networks.

       The next generation mobile communication network can access the optimal wireless network anytime and anywhere according to the user's preference by considering the service characteristics of each system such as user's cost, data transmission speed, and coverage to provide seamless service to the user. Support from the network is required. When handover of a mobile terminal, the mobile terminal needs to know what network is nearby and which network is accessible for the mobile terminal to move to the optimal network and should be able to obtain such network information from the network. Here, the network means various types of wireless networks.

      3GPP TS 31.102 recommends that mobile terminals store time to search and select a network in the USIM card and not change the network too often than the defined cycle time. If the mobile station has a long cycle time to obtain the surrounding network information from the network, if the mobile station moves to another wireless network, the mobile terminal obtains the neighboring network information from the network when the cycle time arrives, thus providing a fast handover to the mobile terminal. It can't support it, which can cause packet loss. On the contrary, if the cycle time for obtaining the surrounding network information from the network is set short, the overhead increases because frequent signaling occurs to obtain the network information.

     Therefore, it is possible to support heterogeneous network handovers more efficiently by acquiring the neighbor network information by the dynamic value of the mobile station than the method by which the mobile station obtains the neighbor network information by the static value by periodic time. I need a way.

       2 illustrates an embodiment of a plurality of wireless network structures.

      The plurality of wireless networks may include a cellular network 20 supporting data services during high / medium / low speed movement of the mobile terminal 10, a WiBro network 30 supporting data services during low / low speed movement, and a data service during low speed movement. The wireless LAN network 40 may be included. As described above, handover between heterogeneous networks between different wireless networks should efficiently allocate resources according to the characteristics of the wireless networks, thereby maximizing resource utilization.

      Without considering the efficient distribution of a plurality of wireless network resources, if the mobile terminal 10 is connected only to the cellular network 20 that supports data services at high speed, the resources of the cellular network 20 are not only wasted but also other wireless Since network resources are not utilized, it is necessary to hand over to an optimal wireless network connection.

      The core network 50 includes a network access information server 60 and a core network system 70. The mobile terminal 10 supports multiple modes to allow access to different access networks supporting various moving speeds, and the mobile terminal receives various packet services through heterogeneous network handover. The base station 80 of each radio network manages radio resources and performs a function of managing a radio bearer. The network access information server 60 provides a function of providing peripheral network information of the mobile terminal to the mobile terminal so that the mobile terminal 10 can perform a heterogeneous network handover in a multi-RAT environment. The core network system 70 includes an access gateway and an authentication server required for basic access and handover control of the mobile terminal 10. The coverage of the WLAN network 40 may be included in the coverage of the WiBro network 30 or may be separated.

A handover method in a mobile communication network according to the present invention comprises the steps of: measuring a moving speed of a mobile terminal when a mobile terminal connected to a first network moves above a predefined movement time threshold;

Requesting network information accessible from a plurality of wireless networks, based on the moving speed;

Receiving network information accessible from the network access information server; And

And selecting a second network corresponding to the moving speed from the network information, and connecting the mobile terminal to the second network.

      3 is a flowchart illustrating a handover between heterogeneous networks according to an embodiment of the present invention.

      The movement time of the mobile terminal is sensed (S210). The movement time of the mobile terminal is compared with a predefined movement time threshold value and the threshold time (S220). If the moving time of the mobile terminal is greater than the moving time threshold and the threshold time, the moving speed of the mobile terminal is measured (S230). As a method of measuring the position and the moving speed of the mobile terminal, a method of estimating using a navigation system such as a global positioning system (GPS) or the Doppler effect may be used.

      If the condition is not satisfied, i.e., the moving time of the mobile terminal is less than the moving time threshold and the threshold time, the moving time of the mobile terminal is continuously measured and detected.

      The mobile terminal determines whether the movement speed reaches a critical speed (S250). The threshold speed may be set in a plurality of stages in consideration of characteristics such as a service supportable speed for each of a plurality of wireless networks.

      For example, the cellular network 20 supports a data service during high / medium / low speed movement of the mobile terminal 10, the WiBro network 30 that supports data service in the medium / low speed movement of the mobile terminal, and In the case of the wireless LAN network 40 supporting data services at low speed, the threshold speed may be defined as two stages of the first and second threshold speeds, and then the movement speed of the mobile terminal is greater than the second threshold speed. In a case where the cellular network 20 is smaller than the first threshold speed, the handover process may be performed to be connected to the wireless LAN network 40 and the WiBro network 30 in the interval therebetween.

      When the threshold speed value is reached, the mobile station requests neighbor network information accessible to the network access information server by comparing the movement speed of the mobile terminal with a threshold speed value of the predefined movement speed (S280). When the mobile station requests neighboring network information that can be accessed, the mobile station may also provide information on the current location of the mobile station and radio access technology (RAT) supported by the mobile station.

       If the condition is not satisfied, the network connection information server terminates without requesting the surrounding network information. That is, the mobile terminal moves for a predetermined time, but the change in the moving speed is not large. The mobile terminal continues to receive service from the network to which it is currently connected.

      The network access information server transmits network information available around the mobile terminal to the mobile terminal using the location information of the mobile terminal and the mobile terminal obtains the information (S330). The mobile terminal selects a suitable network corresponding to the moving speed of the mobile terminal, for example, according to the received neighbor network information and the policy of the mobile terminal (S340).

      The mobile terminal compares the currently connected network with the selected network (S350). If it does not match, the mobile station performs a heterogeneous network handover to the selected network (S360) and ends the procedure. If there is a match, the mobile station does not perform heterogeneous network handover and maintains the service in the currently connected wireless network and terminates the procedure.

     The requesting of the network information may include determining a change type of the moving speed; and comparing the moving speed with a reference speed and requesting network information from the network access information server.

      4 is a flowchart illustrating a handover between heterogeneous networks according to an embodiment of the present invention.

     The movement time of the mobile terminal is sensed and measured (S410). The movement time of the mobile terminal and the predefined movement time threshold value, the threshold time is compared (S420). If the moving time of the mobile terminal is greater than the moving time threshold value, the threshold time, the moving speed of the mobile terminal is measured (S430). If the condition is not satisfied, the moving time of the mobile terminal is continuously measured.

     The mobile terminal determines the type of change in the moving speed (S450). The reference speed may be set in a plurality of steps in consideration of characteristics such as a speed that can support a service for each of a plurality of wireless networks.

      For example, the cellular network 20 supports a data service during high / medium / low speed movement of the mobile terminal 10, the WiBro network 30 that supports data service in the medium / low speed movement of the mobile terminal, and In the case of the wireless LAN network 40 supporting data services at low speed, the reference speed may be defined as two stages of the first and second reference speeds.

     In the case of the speed increase type, in which the moving speed of the mobile terminal increases, the moving speed of the mobile terminal is compared with the first reference speed or the second reference speed value of the predefined moving speed (S470).

      If the measured mobile speed satisfies the condition of being greater than the first reference speed or the second reference speed, the mobile terminal requests neighbor network information accessible from the network access information server (S490). When the mobile station requests the neighboring network information, the mobile station may give information on the current location of the mobile station and radio access technology (RAT) supported by the mobile station.

      If the condition is not satisfied, the network connection information server terminates without requesting the surrounding network information. That is, the mobile terminal has moved for a certain time, but the change in the moving speed is not large. The mobile terminal continues to receive service from the network to which it is currently connected.

      In the case of the deceleration type in which the moving speed of the mobile terminal decreases, it is determined whether or not the moving speed of the mobile terminal is smaller than the first reference speed or the second reference speed value of the predefined moving speed (S480).

     If the measured mobile speed satisfies the condition of being smaller than the first reference speed or the second reference speed, the mobile terminal requests the neighboring network information from the network access information server (S490).

      If the condition is not satisfied, the network connection information server terminates without requesting the surrounding network information. That is, the mobile terminal has moved for a certain time, but the change in the moving speed is not large. The mobile terminal continues to receive service from the network to which it is currently connected.

      The network access information server transmits network information available around the mobile terminal to the mobile terminal using the location information of the mobile terminal, and the mobile terminal obtains the information (S530). The mobile terminal selects an appropriate network, for example, a network corresponding to the moving speed of the mobile terminal according to the received neighbor network information and the policy of the mobile terminal (S540).

      The mobile terminal compares whether the currently connected network matches the selected network (S550). If it does not match, the mobile station performs heterogeneous network handover to the selected network (S560). If there is a match, the mobile station continues the service in the currently connected wireless network without performing the heterogeneous network handover (S570).

      The embodiment in which the mobile terminal uses the mobile terminal as a trigger for requesting neighboring network information by dividing the moving speed threshold of the mobile terminal into two steps, a first reference speed and a second reference speed, is not limited thereto. In step the speed thresholds may be set.

       5 and 6 are diagrams illustrating a network information request trigger threshold, a first reference speed, and a second reference speed according to time and distance.

The moving speed of the mobile terminal is compared with a predefined first reference speed and second reference speed. The first reference speed is defined as Th (V _min ) 110 and the second reference speed is defined as Th (V _max ) 120. And the current moving speed of the mobile terminal is defined as C _v .

It is inefficient to get the surrounding network information from the network access information server unconditionally due to the change of the moving speed of the mobile terminal. Therefore, if the moving speed is continuously changed for a predetermined time and the moving speed of the mobile terminal reaches the moving speed threshold value, i.e., the first reference speed and the second reference speed, the mobile terminal can obtain the information of the neighboring network accessible by the mobile terminal. Do it. A predetermined time is defined as Th (D _t ) and a time during which the moving speed of the current mobile terminal is changed is defined as C (D _t ).

      5 shows a type in which the moving speed of the mobile terminal increases.

When the mobile station continues to increase from the low speed wireless network to the high speed wireless network for a certain period of time and reaches a first reference speed, the mobile terminal detects that the mobile terminal has moved to the coverage of the medium and high speed mobile network. Follow the procedure to obtain. This is expressed as in Equation 1 below. C (D _t ) is the detected travel time and Th (D _t ) is the set threshold time. C _v represents the current moving speed of the mobile terminal and Th (V _min ) represents the first reference speed.

[Equation 1]

When the mobile station continues to increase for a certain period of time from the medium-low speed wireless network to the high-speed wireless network and reaches a second reference speed or more, the mobile terminal detects that the mobile terminal has moved to the coverage of the high-speed wireless network. Follow the procedure to obtain. This is expressed as in Equation 2. C (D _t ) is the detected travel time and Th (D _t ) is the set threshold time. C _v represents the current moving speed of the mobile terminal, and Th (V _max ) represents the second reference speed.

[Equation 2]

       6 shows a type in which the moving speed of the mobile terminal decreases.

When the mobile terminal continues to decrease from the high speed mobile network to the low speed mobile network for a predetermined time and falls below the second reference speed, the mobile terminal detects that the mobile terminal has moved to the coverage of the low and low speed mobile network, and obtains network information of the surrounding network. Follow the procedure. This is expressed as in equation (3). Th (D _t ) is a set threshold time. C _v represents the current moving speed of the mobile terminal, and Th (V _max ) represents the second reference speed.

&Quot; (3) "

When the mobile station continues to decrease for a certain period of time from the high speed wireless network to the low speed wireless network and falls below the first reference speed, the mobile terminal detects that the mobile station has moved to the coverage of the low speed wireless network and detects the surrounding network information. Follow the procedure to obtain. This is expressed as in Equation 4. C (D _t ) is the detected travel time and Th (D _t ) is the set threshold time. C _v represents the current moving speed of the mobile terminal and Th (V _min ) represents the first reference speed.

&Quot; (4) "

       According to the present invention, when the movement time reaches a predetermined time without periodically requesting neighboring network information and the movement speed reaches a predetermined speed, that is, the conditions related to the movement time and the conditions related to the movement speed must be satisfied. Requests information about the surrounding network from the information server. Therefore, according to the present invention, the mobile station obtains peripherally accessible network information in consideration of the moving time and the moving speed, which are dynamic values of the mobile station, thereby performing inter-network handover more efficiently and faster than periodically acquiring the information. can do.

The mobile communication network system according to the present invention comprises a mobile terminal connected to a first network; And a network access information server for providing accessible network information to the mobile terminal, wherein the mobile terminal moves above a predefined travel time threshold, and the moving speed of the mobile terminal reaches a threshold speed. Request network information from a connection information server, and the mobile terminal receives the network information, and selects and connects to a network corresponding to the moving speed.

The network access information server is requested to transmit network information only when the time at which the mobile terminal moves is greater than a threshold time and the mobile terminal reaches a reference speed, and in this case, neighbor network information accessible to the mobile terminal. To provide. In other words, if the mobile terminal moves very small, handover may not be performed successfully or may be unnecessary. Therefore, it does not request the neighboring network information, thereby increasing network resource efficiency.

      The plurality of wireless networks may include cellular networks, WiBro networks, and WLAN networks. In general, the cell radius of the WiBro network is about 1km ~ 2km, the coverage of the WLAN (WLAN) is about 100m ~ 300m. In the case of the WiBro network, a normal service is provided even at a speed of about 60 km / h or more, but a WLAN can be normally serviced at a stationary or pedestrian level. However, in terms of price, the WLAN has an advantage of providing a service at a lower cost than the WiBro network. In addition, the cellular network can provide a stable service during high speed as well as low speed. However, even in a low speed section, if the mobile stations use only cellular networks, resources of a plurality of wireless networks may be wasted and costs may be increased. Therefore, it is desirable to select an appropriate wireless network according to the moving speed of the mobile terminal.

     If the mobile station has a long period of time to get the surrounding network information from the network, if the mobile station moves to another wireless network, the mobile terminal obtains the surrounding network information from the network when the cycle time comes, thus supporting fast handover to the mobile terminal. This can cause packet loss. On the contrary, if the cycle time for obtaining the surrounding network information from the network is set short, the overhead increases because frequent signaling occurs to obtain the network information.

      In addition, even when the change in the moving speed is large, if the moving time is too short, it may be desirable not to handover, considering the signaling overhead between heterogeneous networks. During the handover from the low speed network to the high speed network, if the mobile terminal moves to the low speed again to enable the low speed wireless network service, if the handover is attempted again to the low speed network, the handover may be repeatedly performed and resources may be wasted. .

       Accordingly, in the mobile communication network system according to the present invention, when a user moves to a heterogeneous network in various wireless network environments, the mobile terminal does not use a fixed cycle time for network discovery and selection, but changes in movement time and speed of the mobile terminal. Considering this, it is possible to provide the neighboring network information to the mobile terminal, and by using the same, more efficient inter-network handover and wireless network resource management and use are possible. Although the preferred embodiments of the present invention have been illustrated and described,

       The present invention is not limited to the above specific embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Such modifications should not be individually understood from the technical spirit or the prospect of the present invention.

1 illustrates an embodiment of a structure in which a plurality of wireless networks overlap.

2 illustrates an embodiment of a plurality of wireless network structures.

3 is a flowchart illustrating a handover between heterogeneous networks according to an embodiment of the present invention.

4 is a flowchart illustrating a handover between heterogeneous networks according to an embodiment of the present invention.

5 and 6 are diagrams illustrating a network information request trigger threshold, a first reference speed, and a second reference speed according to time and distance.

Claims (10)

Measuring a moving speed of the mobile terminal when the mobile terminal connected to the first network moves more than a predefined moving time threshold value; Requesting network information accessible from a plurality of wireless networks, based on the moving speed; Receiving network information accessible from the network access information server; And Selecting a second network corresponding to the moving speed from the network information, and connecting a mobile terminal to the second network. The method of claim 1, The requesting of the network information may include requesting network information from the network access information server when the moving speed reaches a critical speed. The method of claim 2, The threshold speed is a handover method in a mobile communication network, characterized in that it is defined in a plurality of steps based on the speed that can support the service for each of the plurality of networks. The method of claim 1, The plurality of wireless networks includes a cellular network, a WiBro network, a wireless LAN network. The method of claim 1, The requesting of the network information includes: determining a change type of the moving speed; and comparing the moving speed with a reference speed and requesting network information from the network access information server. Handover method in communication network. The method of claim 5, The reference speed is a handover method in a mobile communication network, characterized in that it is defined in a plurality of steps based on the speed that can support the service for each of the plurality of networks. The method of claim 5, And the network information is requested to the network access information server when the measured movement speed is greater than the reference speed when the change type of the movement speed is an increase type. The method of claim 5, And the network information is requested to the network access information server when the measured movement speed becomes smaller than the reference speed when the change type of the movement speed is a deceleration type. The method of claim 1, The connecting of the mobile terminal to the second network is performed when the first network currently connected to the second network is different. A mobile terminal connected to the first network; And And a network access information server for providing accessible network information to the mobile terminal. When the mobile terminal moves more than a predefined moving time threshold value and the moving speed of the mobile terminal reaches the threshold speed, the mobile terminal requests network information from the network access information server. The mobile terminal receives the network information, and selects and connects to a network corresponding to the moving speed.

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