KR101335650B1 - Method and apparatus for handoff in overlaid networks environment - Google Patents

Abstract

The present invention relates to a handoff of a mobile terminal, and a method and apparatus for performing a handoff in a network environment in which a plurality of networks using different frequencies overlap according to the present invention includes a sensor having a small transmission range. Using the node 3 and the mobile terminal 5 tagged with user information, the mobile terminal 5 detects that the mobile terminal has entered the second network service area and determines a handoff time point through a user authentication procedure. . Accordingly, handoff can be efficiently performed without changing an interface or a mobile terminal.

Handoff, Handover, Nested Network, Femtocell, Picocell, Home Base Station

Description

Method and apparatus for performing handoff in a nested network environment

The present invention relates to a handoff of a mobile terminal, and more particularly, to a method and apparatus for performing handoff in a network environment in which a plurality of networks using different frequencies overlap.

One of the biggest features of the mobile communication system using the cellular network is to ensure the mobility of the mobile terminal. At this time, the handoff function is necessary to ensure the mobility of the terminal.

Handoff (also referred to as handover) refers to a function that automatically switches a call channel so that a call is not disconnected while the subscriber moves from the service area of one base station to the service area of another base station. When a mobile terminal moves from a service domain provided by one base station to a service region provided by another base station, handoff is automatically performed. In this case, when the signal of the mobile terminal generally falls below a predetermined threshold, it is determined that the mobile terminal has moved and the handoff process is started.

On the other hand, home base stations (femtocell basestation) that supports wireless communication in a limited area has recently been discussed. It is called femtocell, picocell, etc. in the sense that it supports only very limited service area.Wireless communication service in limited area, which is much narrower than general cellular network with low power, ie home, office, campus, etc. To provide.

At this time, an overlapping network area occurs where two network networks supporting different frequencies overlap. In general, while a cellular cellular network (macro cellular network) provides a fairly wide service area, femtocell network (femtocell network) provides a relatively limited service area, such as home, office, campus.

1 is a reference diagram illustrating a nested network environment. Referring to FIG. 1, a network environment in which a mobile terminal overlaps an overlapping network area 100, that is, a service area 200 by a general cellular network and a femtocell service area 100 that provides a wireless communication service in a restricted area while the mobile terminal is moving. In the case where the mobile terminal 5 enters the femtocell service area 100 is illustrated. At this time, a handoff from the general cellular base station 9 to the femtocell base station 1 is required.

However, the conventional handoff method is a method of finding a new base station in order to change the channel only when the signal from the base station 9 falls below a certain reference value T_DROP. Therefore, in the case of the above-described overlapping network, even if the limited femtocell area 100 is included in the service area 200 of the general cellular network, a signal may be maintained above a reference value, thereby preventing a handoff from being performed automatically.

On the other hand, Qualcomm has proposed a pilot beacon scheme, that is, a base station transmits a pilot beacon to a frequency region which is not served by the base station to inform its service region. As shown in FIG. 2, the general base station 9 providing the F1 and F2 channels transmits a pilot beacon to another frequency (F3) area which is not served by the FB and informs its service area. Handoff may be performed by receiving pilot beacons for F1 and F2.

However, according to the method proposed by Qualcomm, an additional interface is required to transmit pilot beacons, which increases cost. In addition, when a large number of femtocells exist, the capacity of the pilot channel is decreased and the transmission amount of the pilot beacon is increased, thereby degrading the performance of the existing mobile communication network.

Accordingly, the present invention has been made to solve the above-mentioned problems, and efficiently handoff without increasing costs or degrading the performance of an existing mobile communication network in a network environment in which a plurality of networks using different frequencies overlap. An object of the present invention is to provide a method and an apparatus thereof.

In order to achieve the above object, the present invention provides a second network service area using a sensor node (3) having a small transmission range and a tagged mobile terminal (5) recording user information in an overlapping network environment. The present invention proposes a handoff method and system for detecting handoff and determining a handoff time point through a user authentication procedure.

More specifically, the present invention provides a method of performing a handoff in a network environment where a first network and a second network using different frequencies overlap, (a) entering a service area of a second network from a predetermined sensor node. Receiving user information of a mobile terminal; (b) confirming whether the user is a registered user based on the received user information; And (c) if the user is a registered user, transmitting a handoff request message to a base station of a second network to a base station of a first network to which the mobile terminal is currently connected. Suggest.

Here, step (a) detects the entry of the mobile terminal and receives the user information from the mobile terminal by detecting tag information attached to the mobile terminal using a sensor node installed at a predetermined entrance and exit in the service area of the second network. It is characterized by.

In particular, the sensor node is a contact or contactless sensor having a limited transmission range, which is installed at an entrance in a service area to detect entry of a mobile terminal, and reads tag information attached to the mobile terminal and transmits it to a base station of a second network. It is preferable.

Meanwhile, according to another aspect of the present invention, the above object is to provide a tag for recording user information in a system for performing handoff in a network environment where a first network and a second network using different frequencies overlap. A mobile terminal; A sensor node that reads user information from a tag attached to a mobile terminal entering a service area of a second network and transmits the user information to a base station of the second network; And checking whether the user is a registered user based on the user information received from the sensor node, and if the user is a registered user, transmitting a handoff request message to the base station of the first network to which the mobile terminal is currently connected. Achieved by a handoff system comprising a base station.

On the other hand, according to another aspect of the present invention, in the base station of the second network for providing a wireless communication service in a limited area in a network environment where the first network and the second network using different frequencies overlap, A receiver configured to receive user information of a mobile terminal entering a service area of a second network from a predetermined sensor node; An authenticator configured to confirm whether the user is a registered user based on the received user information; And a handoff control unit which transmits a handoff request message to a base station of a second network to a base station of a first network to which the mobile terminal is currently connected when the user is a registered user. Is achieved.

As described above, according to the present invention, a method and apparatus for efficiently performing handoff in a network environment in which a plurality of networks using different frequencies overlap are provided.

That is, the present invention detects that the mobile terminal enters the second network service area by using a sensor node having a small transmission range and a tagged mobile terminal that records user information, and determines a handoff time point through a user authentication procedure. By determining, handoff is performed only when the sensor node passes through the installed gateway and is registered as a legitimate user, and no handoff is performed for any user passing near the second network base station. Therefore, even in an overlapping network environment in which a plurality of networks using different frequencies are overlapped, an accurate wireless communication service area can be set.

In addition, the communication service may be provided only to a user who is allowed to access the femtocell area by checking whether the user is a registered user and performing handoff based on the user information read from the tag.

Furthermore, since the sensor node uses a small-cost low-cost transmission sensor, it is possible to construct a handoff system more economically than a pilot beacon method requiring a separate interface.

In addition, since only a separate tag module is attached to the existing mobile terminal, there is no need to change the hardware or software for the existing mobile terminal, and there is an advantage that the model or type of the terminal is not limited.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention of the user, the operator, or the custom. Therefore, the definition should be based on the contents throughout this specification.

Figure 2 shows an example of the configuration of the handoff system according to the present invention, Figure 3 is a schematic diagram showing this.

2 and 3, a handoff system according to the present invention includes a femtocell base station 1, a sensor node 3, a mobile terminal 5 with a tag module, and a general cellular network base station 9. do. In addition, it may further include a femtocell base station management control node (6) and the switch center (8).

The handoff system according to the present invention is handoff in an overlapped network environment where a first network 200 providing a general cellular network service and a second network 100 providing a femtocell network service in a restricted area overlap. Perform The handoff system according to the present invention reads user information from a mobile terminal 5 with a tag recording user information and a tag attached to a mobile terminal 5 entering a service area of a second network, thereby reading a second network. It is checked whether the user is a registered user based on the sensor node 3 transmitted to the base station 1 and the user information received from the sensor node. And a base station 1 of the second network which transmits a handoff request message to the base station 9 of the first network.

More specifically, the femtocell base station 1 supporting the second network 100 provides a wireless communication service in an in-building area such as a home, an office, or a campus. Points to the providing base station. Various standards such as wideband code division multiple access (WCDMA), IEEE 802.16, or IEEE 802.11 may be selectively used for wireless communication services in this limited area. It also manages a registered user list that can use a limited area of wireless communication services.

The sensor node 3 is a contact or small area contactless sensor, which is installed in an entrance path of a building such as an entrance door. It may support RFID (Radio Frequency Identification), Bluetooth, and WLAN, called electronic tags. The mobile terminal 5 attached with the tag detects the entry into the building area 100 and reads user information from the tag module and transmits the user information to the femtocell base station 1.

The mobile terminal 5 may embed a tag in which user information is recorded or may be attached in a module form. When a mobile terminal 5 having a tag recording user information is embedded or attached in the form of a module, the sensor node 3 reads the tag information to obtain user information, and the femtocell base station reads the tag information. Deliver to (1).

The femtocell base station 1 detects the mobile terminal entering the service area through the sensor node 3 and compares the user information read from the tag attached to the mobile terminal through the sensor node 3 with the registered user list. If it is determined that the user information of the mobile terminal is a registered user, it is determined that this time is the handoff time, and the mobile terminal transmits a handoff request message to the general cellular network base station 9 currently assigned the channel.

Meanwhile, the general cellular network base station 9 (the base station of the first network) supporting the first network 200, when receiving a handoff request message, performs a handoff to the corresponding mobile terminal and goes to the corresponding mobile terminal 5. Send a handoff message. Now, the mobile terminal 5 receiving the handoff message changes the channel to find the femtocell base station 1 and is connected to the femtocell base station 1 to start a wireless communication service.

In addition, the femtocell base station management control node 6 is a node that manages a plurality of femtocell base stations, and transmits a handoff request message from the femtocell base station 1 to the switch center 8. The switch center 8 transmits a handoff request message to the general cellular network base station 9 via the cellular network. The femtocell base station management control node 6 and the switch center 8 are well-known technologies, and detailed description thereof will be omitted.

Hereinafter, the handoff process will be described based on the configuration of the handoff system according to the present invention described above.

First, when a user with a tagged mobile terminal 5 passes through a door installed on a boundary in a specific building, the sensor node 3 installed in the door reads user information from a tag attached to the mobile terminal and the femtocell base station. Deliver to (1). The user information may include media access control (MAC) address information of the mobile terminal 5, subscriber telephone number information, mobile station identification (MSID) information, or mobile identification number (MIN). ) May include unique information for identifying the mobile terminal 5.

The femtocell base station 1 compares the received user information with a pre-stored registered user list to confirm whether the user is a registered user. If the user is not a registered user, the procedure is terminated without performing the handoff. If the user is a registered user, the mobile terminal 5 transmits a handoff request message to the femtocell base station management control node 6 to participate in the wireless communication service provided by the femtocell base station 1.

The femtocell base station management control node 6 is a general cellular network base station 9 to which the mobile terminal 5 is currently connected via a mobile communication core network via an access network based on the received handoff request message. Send a handoff request message. The general cellular network base station 9 transmits a handoff message to the corresponding mobile terminal.

Accordingly, the handoff from the general cellular network base station 9 to the femtocell base station 1 currently connected to the mobile terminal is completed. That is, the mobile terminal 5 changes the channel (F1 / F2-> F3) to find the femtocell base station 1 and is connected to the femtocell base station 1 to start receiving wireless communication service.

In this case, the handoff request message may further include channel information currently being serviced by the general base station 9 or the femtocell base station 1 in order to minimize the delay occurring during the handoff.

In addition, prior to performing the above-described handoff process, the general base station 9 and the femtocell base station 1 exchange a context with respect to the corresponding mobile terminal 5 through mutual message exchange to minimize the delay occurring during the handoff. ) Or exchange authentication information in advance.

Furthermore, the femtocell base station 1 advances the resources for the mobile terminal 5 before the mobile terminal 5 performs the above-described handoff process to minimize the delay time for the mobile terminal 5 to wait for resource allocation. If the femtocell base station 1 does not have sufficient resources to allocate to the mobile terminal 5, even if the registered user does not perform the above-described handoff process.

Accordingly, a more efficient handoff system can be constructed by minimizing a delay time for handoff and preventing a resource allocation failure after the handoff.

On the other hand, Figure 4 is a block diagram of a handoff system according to another embodiment of the present invention.

Referring to FIG. 4, a handoff system is shown when a plurality of sensor nodes are installed. When a plurality of doors are installed on the boundary in the building area 100, a plurality of sensor nodes should also be installed. In this case, it is preferable that a sensor aggregation node 4 is further provided to collect user information transmitted from the plurality of sensor nodes 3 and 3a and deliver the collected user information to the femtocell base station 1. . This is to remove the restriction on the number of ports of the femtocell base station 1 and to build a more stable system by preventing the failure of the sensor node does not directly affect the femtocell base station 1.

5 is a configuration diagram of a femtocell base station 1 according to an embodiment of the present invention.

Referring to FIG. 5, the femtocell base station 1 according to the present invention is a base station of a second network that provides a wireless communication service in a limited area such as a home, an office, a campus, and the like. The entry detection signal receiving unit 10 and the user authentication unit are provided. 12 and a handoff control unit 14. In addition, it may further include a user registration information database 18 for recording the registered user information.

The entry detection signal receiving unit 10 receives the tag information of the mobile terminal 5 from the mobile terminal 5 entering the service area 100 of the second network by using the sensor node 3 installed at the entrance and exit of the service area. By detecting, it detects the entry of the mobile terminal and receives user information from the mobile terminal. As described above, the sensor node 3 is a contact or contactless sensor having a limited transmission range and is installed at an entrance in a service area to detect an entry of a mobile terminal, and read tag information attached to the mobile terminal to read the second information. Transmit to base station 1 of the network.

The user authentication unit 12 checks whether the user is a registered user based on the user information received by the entry detection signal receiving unit 10.

If the handoff control unit 14 is not a registered user as a result of the confirmation, the handoff control unit 14 ends the control without performing a handoff. As a result of the check, if the user is a registered user, the mobile terminal 5 transmits a handoff request message to the base station 9 of the first network currently connected to the base station 1 of the second network.

Here, the handoff control unit 14 may further include channel information, which is being serviced by the base station of the second network, in the handoff request message so as to perform the handoff more efficiently. In addition, the handoff control unit 14 may exchange information about the mobile terminal 5 in advance through a message exchange with the base station 9 of the first network before performing the handoff. It is possible to secure in advance the resources to be allocated to the mobile terminal (5). Further, the handoff control unit 14 may not transmit the handoff request message when the resource that can be allocated to the mobile terminal 5 is equal to or less than a predetermined reference value even if the user is registered as a result of the confirmation of the user authentication unit 12. Can be.

6 is a flowchart illustrating a handoff method according to the present invention.

Referring to FIG. 6, in order to perform a handoff according to the present invention, first, user information of a mobile terminal 5 that has entered a service area 100 of a second network using a sensor node 3 is received ( S802). Based on the received user information, an authentication procedure for checking whether the user is a registered user is performed using the registered user list 18 in the user authentication unit 12 (S804).

If it is determined that the user is not a registered user (S806) and does not perform a handoff, and if it is determined that the user is a registered user (S806), a handoff request is made to the base station 9 of the first network to which the mobile terminal 5 is currently connected. The message is transmitted to request the handoff to the second network base station 1 (S808).

As described above, the present invention detects that the mobile terminal enters the second network service area by using the sensor node 3 having a small transmission range and the tagged mobile terminal 5 that records the user information. Determining the handoff time point through. Accordingly, the handoff is performed only when the sensor node 3 passes through the installed entrance and is registered as a legitimate user, and no handoff is performed for any user passing near the second network base station. Therefore, even in an overlapping network environment in which a plurality of networks using different frequencies are overlapped, an accurate wireless communication service area can be set.

In addition, since only a tag module that records user information is attached to an existing mobile terminal, there is no need to change hardware or software for the existing mobile terminal, and there is an advantage that the model or type of the mobile terminal is not limited.

In addition, by using a low-cost small-scale transmission sensor, it is possible to build a handoff system more economically than the conventional pilot beacon method that requires a separate interface.

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

1 is a reference diagram illustrating a nested network environment;

2 is an example of a configuration of a handoff system according to the present invention;

3 is a schematic view showing a handoff system according to an embodiment of the present invention;

On the other hand, Figure 4 is a block diagram of a handoff system according to another embodiment of the present invention,

5 is a configuration diagram of a second base station according to an embodiment of the present invention;

6 is a flowchart illustrating a handoff method according to the present invention.

Claims (17)

A method for performing handoff in a network environment where a first network and a second network using different frequencies overlap each other, (a) receiving, at a base station of a second network, user information of a mobile terminal entering a service area of the second network from a predetermined sensor node; (b) checking whether the user is a registered user at a base station of a second network based on the received user information; And (c) the base station of the second network, if the user is a registered user, transmitting a handoff request message to the base station of the second network to the base station of the first network to which the mobile terminal is currently connected; Method for performing handoff, characterized in that. The method of claim 1, In the step (a), by detecting the tag information attached to the mobile terminal using the sensor node installed at a predetermined entrance and exit in the service area of the second network, the mobile terminal detects the entry of the mobile terminal and And performing user information. 3. The method of claim 2, The sensor node is a contact or contactless sensor having a limited transmission range, which is installed at an entrance in the service area and detects an entry of the mobile terminal, reads tag information attached to the mobile terminal, and is a base station of the second network. Method for performing handoff, characterized in that for transmitting. The method of claim 1, And the base station of the second network provides a wireless communication service for a relatively limited area compared to the base station of the first network. The method of claim 1, The handoff request message in step (c) further comprises the channel information that the base station of the second network is in service. The method of claim 1, Before the step (a), the base station of the first network and the base station of the second network, the method for performing handoff, characterized in that for exchanging information about the mobile terminal in advance through the message exchange.  The method of claim 1, Before the step (a), the base station of the second network, characterized in that for securing the resources to be allocated to the mobile terminal in advance. The method of claim 1, wherein the step (c) And a handoff request message is not transmitted if the resource allocated to the mobile terminal is equal to or less than a predetermined value even if the user is a registered user. A system for performing handoff in a network environment where a first network and a second network using different frequencies overlap. A mobile terminal with a tag recording user information; A sensor node that reads the user information from a tag attached to the mobile terminal entering the service area of the second network and transmits the user information to a base station of the second network; And Determining whether the user is a registered user based on the user information received from the sensor node, and transmitting the handoff request message to a base station of the first network to which the mobile terminal is currently connected when the user is a registered user. 2. A handoff system comprising a base station of a network. 10. The method of claim 9, The sensor node is a contact or contactless sensor having a limited transmission range and is installed at an entrance included in a service area of the second network to detect entry of the mobile terminal and read tag information attached to the mobile terminal. Handoff system to the base station of the second network. A base station of a second network that provides a wireless communication service in a limited area in a network environment where a first network and a second network using different frequencies overlap each other. A receiver configured to receive user information of a mobile terminal entering a service area of the second network from a predetermined sensor node; An authenticator configured to confirm whether the user is a registered user based on the received user information; And And a handoff controller for transmitting a handoff request message to a base station of the second network to a base station of the first network to which the mobile terminal is currently connected when the user is a registered user. Base station. 12. The method of claim 11, The receiving unit detects an entry of the mobile terminal by detecting tag information attached to the mobile terminal by using the sensor node installed at a predetermined entrance in a service area of the second network, and receives the user information from the mobile terminal. And a second network base station for receiving. The method of claim 12, The sensor node is a contact or contactless sensor having a limited transmission range, which is installed at an entrance in the service area and detects an entry of the mobile terminal, reads tag information attached to the mobile terminal, and reads the tag information of the second network. And a second network base station for transmitting to the base station. The method of claim 12, And the handoff control unit further includes, in the handoff request message, channel information on which the base station of the second network is in service. The method of claim 12, And the handoff control unit exchanges information on the mobile terminal in advance through a message exchange with a base station of the first network before performing the handoff. The method of claim 12, And the handoff control unit secures resources to be allocated to the mobile terminal before handoff. The method of claim 12, The handoff control unit does not transmit the handoff request message when the resource allocated to the mobile terminal is equal to or less than a predetermined reference value even if the user is a registered user.

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