KR101513096B1 - ADJACENT BSs INFORMATION GENERATING METHOD BASED ON DISTRIBUTION - Google Patents

Abstract

A method for generating adjacent base station information based on a distribution type is disclosed. Embodiments of the present invention generates adjacent base station information by obtaining minimum identification information for all other mobile base stations from a central network management server when an initial network plan of the mobile base station is established. And then, the method transmits a message which requests the transmission of adjacent base station generation information to all other mobile base stations based on a connected link when a connection of a new link is sensed along with the movement of the mobile base station. In succession, the method renews the adjacent base station generation information according to a response message when the response message corresponding to whether an adjacent base station is determined based on the connected link is received from all other mobile base stations receiving the message respectively.

Description

[0001] DESCRIPTION [0002] ADJACENT BSs INFORMATION GENERATING METHOD BASED ON DISTRIBUTION [

The present invention relates to a method for generating neighboring base station information using a message exchange between distributed base stations.

As the number of Internet users on the move increases due to the development of mobile communication and terminal technologies, a handover support technology of terminals between base stations based on neighbor base station information is becoming important. In addition, mobility of base stations is becoming more important as it applies to various environments such as disaster recovery network, car network, military battle network as well as private network of mobile communication network. Accordingly, research on generating and sharing information of neighboring base stations that change with the movement of the base station is needed.

Such a method of generating and sharing information of the adjacent base stations is roughly classified into a central control method and a distributed control method.

The central control scheme is a scheme in which a mobile station grasps information of a neighboring base station through a central network management server. This central control scheme has a disadvantage in that the central network management server must monitor the network situation in a short cycle and has an overhead that must always go through the central network management server in generating and sharing the neighbor base station information. Also, when a failure occurs in the central network management server, the mobile station can not collect information of the neighboring base stations, and thus can not support the handover service of the mobile station.

On the other hand, the distributed control scheme is a scheme for grasping neighboring base station information through information exchange between mobile stations based on the initially acquired mobile station information. This distributed control method solves most of the problems caused by the central control method. However, the distributed control scheme also has a disadvantage that the mobile station has information on security problems such as location information of all other mobile stations, and has an overhead to periodically exchange information between mobile stations.

It is therefore an object of the present invention to provide a method and apparatus for generating and updating neighboring base station information in response to a message exchange between mobile stations without causing security problems associated with other mobile stations And a method of generating neighboring base station information based on a distributed type.

In order to achieve the above object, a method of generating distributed-type neighbor base station information according to an embodiment of the present invention includes the steps of: acquiring minimum identification information for all other mobile stations from a central network management server, Comprising: a first step of generating information; A second step of detecting connection to a new link according to movement of the mobile station; A third step of, if it is detected that the mobile station is connected to a new link, transmitting a message requesting transmission of neighboring base station establishment information to all the other mobile stations based on the connected new link; A fourth step of receiving, from each of the other mobile base stations that have received the message, a response message corresponding to the neighboring base station determined based on the connected new link; And a fifth step of updating neighbor base station creation information according to the received response message.

In one embodiment, in the fourth step, when the mobile station fails to receive the response message from at least some of the other mobile stations, the mobile station requests confirmation of other mobile station information for which the response message is not received Transmitting a message to the central network management server; And receiving a response message corresponding to the confirmed status information from the central network management server when the status information on the other mobile station corresponding to the received message is confirmed by the central network management server .

In one embodiment, the mobile station compares the minimum identification information for all the other mobile base stations stored in its database with the number of response messages transmitted from all other mobile base stations, And identifies the base station information.

In one embodiment, the minimum identification information includes at least IP address information.

In one embodiment, the message transmitted from the mobile station to all the other mobile stations includes an ID, an IP address, and location information of the mobile station corresponding to the connected new link.

In one embodiment, in the fourth step, when a message requesting transmission of the neighbor base station creation information is received, each of the other mobile base stations transmits the location information of the mobile station and the distance information And generates a response message corresponding to one of attachment to the neighbor base station, withdrawal, and no response.

In one embodiment, in the first step, the mobile station stores the minimum identification information for all the other base stations in its own database, and in the third step, the mobile station stores the minimum identification information for all the other base stations And transmits a message for requesting the transmission of the neighbor base station creation information based on the minimum identification information.

In one embodiment, the method further includes the step of providing a handover service for at least one terminal according to the updated neighbor base station creation information after the fifth step.

According to the distributed-type neighbor base station information generation method according to the embodiment of the present invention, by exchanging messages between mobile stations only with minimum identification information of other mobile stations, it is possible to generate and share neighbor base station information, The security problem associated with the other mobile base station can be solved.

In addition, according to the distributed-type neighbor base station information generation method according to the embodiment of the present invention, when a link disconnection occurs while the mobile station is moving, or in an unexpected situation where some other mobile station is not operated, It is possible to receive additional information for determining a future operation.

FIG. 1 is a flowchart illustrating an example of a method of generating a distributed-type neighbor base station information according to an embodiment of the present invention.
FIG. 2 is an example of minimum identification information for another mobile station possessed by the mobile station, according to an embodiment of the present invention.
3 is an illustration of information about a mobile station included in a message transmitted to another mobile station, according to an embodiment of the present invention.
4 is a conceptual diagram for explaining a method for a mobile station to generate and update neighboring base station information according to an embodiment of the present invention.

Hereinafter, a distributed-type neighbor base station information generation method according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they may obscure the subject matter of the present invention. In order to clearly explain the present invention, parts not related to the description are omitted, and like parts are denoted by similar reference numerals throughout the specification.

First, it should be noted that the neighbor base station information generating method according to an embodiment of the present invention can be applied to a system for performing inter-terminal communication using a distributed control method. Unlike the central control method, the distributed control method does not need to always go through the central network management server in generating the information of the neighboring base station and grasps the neighboring base station information based on the initially acquired mobile station information.

In this specification, 'mobile base station' generally refers to a moving point in communication with a terminal, and includes a base station, a Node-B, an eNode-B (eNode-B ), A base transceiver system (BTS), an access point, a relay, and a femto-cell.

FIG. 1 is a flowchart illustrating an example of a method of generating a distributed-type neighbor base station information according to an embodiment of the present invention.

As shown in FIG. 1, for example, when establishing the initial network plan of a mobile station communicating with a mobile station, the mobile station acquires minimum identification information and neighboring base station information for all other mobile stations from the central network management server S110).

Here, a signal corresponding to the establishment of the initial network plan of the mobile station may be received from the central network management server. Also, the minimum identification information for all other mobile base stations corresponds to at least IP address information for each of the other mobile base stations, and does not include the location information of other mobile base stations.

The acquired information is stored in the database (DB) 5 of the mobile station itself (S120).

When it is detected that the mobile station is connected to a new link, that is, a network other than the previous network (S130) in accordance with the movement of the mobile station (S130), the mobile station transmits its own database DB) 5 (step S140).

Then, the mobile station transmits a message requesting transmission of neighboring base station generation information to all other mobile stations corresponding to the detected identification information, based on the connected new link (or new network) (S150) .

Subsequently, the mobile station receives a response message corresponding to whether or not the neighboring base station judged based on the connected new link (or new network) from each of all the other mobile stations that have received the message S160). Specifically, the response message may include information on whether or not the mobile station has been added to or removed from the neighboring base station based on the location information of the mobile base station itself and the location information of the mobile station As shown in FIG.

When the response message is received from all other mobile stations (S170), the mobile station updates neighbor base station information according to the received response message (S190).

At this time, it is determined whether a response message is received from all other mobile base stations. The minimum identification information for all the other mobile base stations stored in the database (DB) 5 of the mobile base station itself and the response message Can be known by comparison. Accordingly, it is possible to identify another mobile station from which a response message has not been received.

On the other hand, if the response message is not received from at least some of the other mobile base stations in step S170, the mobile station communicates with the central network management server and confirms the other mobile stations that have not transmitted the response message Send the requesting message. If the status information of the other mobile station corresponding to the received message is confirmed by the central network management server, a response message corresponding to the confirmed status information is received from the central network management server (S180).

After the execution of step S190, the mobile station provides a hand-over to at least one terminal according to the updated neighbor base station information. At this time, the mobile BS may provide information on a wireless channel and / or a resource allocation scheme when providing a hand-over to at least one terminal. Further, if the handover is successfully performed, the mobile station can resume control of the suspended communication, for example, if it can transmit a message to the corresponding mobile base station .

As described above, according to the distributed-type neighbor base station information generation method according to the present invention, since the neighbor base station information can be updated and shared by exchanging messages between mobile stations only with minimum identification information of other mobile base stations, It is possible to provide an environment in which the security problem related to the mobile station is solved.

In the meantime, in the embodiment of the present invention, a problem related to the security of other mobile stations is considered in performing communication through message exchange with other mobile stations. The types of messages exchanged between mobile base stations may vary, but there are differences in essential parameters.

In this regard, FIG. 2 is an example of minimum identification information for another mobile station possessed by the mobile station, according to an embodiment of the present invention. 3 is an example of information on a mobile station included in a message transmitted to another mobile station, according to an embodiment of the present invention.

The information on the other mobile base station possessed by the mobile base station has a data structure or a packet structure including only minimum identification information.

For example, as shown in FIG. 2, information on other mobile base stations held by the mobile base station includes index numbers (or index numbers) of other mobile base station information, other mobile base station IDs, and other mobile base station IPs . However, the present invention is not limited to this, and when there are few other mobile base stations to be held, only the mobile base station IP information may be included. However, in any case, it does not include 'location information' related to the security of other mobile base stations.

In addition, the message transmitted to the other mobile base station includes at least location information about the mobile base station itself. That is, at this time, a message is created with positional information as an essential parameter. Accordingly, the other mobile base station, which has received the message, determines whether the neighbor base station is available based on the location information of the mobile base station included in the message and the distance information calculated based on the location of the mobile base station. That is, all the other mobile BSs can determine whether the neighboring BSs themselves are present or not, without disclosing their location information to the mobile BS. As a result, if there is changed information, it is possible to update the database (DB) of another mobile station itself.

For example, as shown in FIG. 3, a message transmitted to another mobile station may include a mobile station ID, a mobile station IP, and mobile station location information. At this time, since the other mobile base station that has received the message must determine whether the neighbor base station is applicable to itself, the mobile base station location information must be included in the message.

In the case of updating and sharing the neighbor base station information according to the above-described data structure (or packet structure), a central control scheme in which an existing central control server collectively updates and shares neighbor base station information, The overhead is smaller than that of the distributed control method in which the location information of the other mobile station is managed and the request / response message is exchanged, and the security problem for other mobile stations is also solved.

4 is a conceptual diagram for explaining a more specific example of a method for a mobile station to generate and update neighboring base station information according to an embodiment of the present invention.

As shown in FIG. 4, a method of generating neighboring base station information based on the mobile station 1 (i.e., the target mobile station) 10 will be described. The mobile station 1 10 acquires neighbor base station information and IP addresses of other mobile stations 20, 30 and 40 from the central network management server 200 when the initial network plan is propagated. Then, the acquired information is stored in its own database. When the mobile station 1 10 is connected to a new network (or link) as the mobile station 1 moves, its own information (ID of the mobile station 1 10, IP , And location information) and whether the neighboring base station is available.

At this time, each of the other mobile base stations 20, 30, and 40 transmits the received information (ID, IP, and location information of the mobile station 1 10) . And returns a response message corresponding to the determination result to the mobile station 1 (10). For example, if the mobile base station 2 (20) is newly 'incorporated' into the neighbor base station, the mobile base station 3 (30) has left the neighbor base station and the mobile base station N (40) And transmits a corresponding response message. Then, the mobile station 1 (10) generates neighbor base station information based on the received response message.

At this time, if the total number of mobile BSs held by the mobile station 1 (10) is 200, and a response message is received for only 195 other mobile stations and a response message is not received for the five other mobile stations, 1 10 transmits an acknowledgment request message to the central network management server 200 to check the status of another mobile station that has not transmitted the response message. Then, the central network management server 200 confirms the status information of the unreceived base station and transmits the confirmation result (e.g., link quality degradation, link disconnection, unoperated, etc.) to the mobile base station 1 10 in the form of a response message . At this time, if necessary, the central network management server 200 may directly receive a response by transmitting a status confirmation request message to the unreachable base station. Accordingly, the mobile station 1 (10) can determine a future operation related to the other mobile base station based on the status information of the unresponsive mobile base station.

Also, even when neighboring base station information can not be generated due to an unexpected situation due to a message exchange between mobile stations, it is possible to identify a specific cause and decide a future operation in conjunction with the central network management server 200. [

As described above, according to the distributed-type neighbor base station information generation method according to the embodiment of the present invention, message exchange between mobile stations is performed using only the minimum identification information of other mobile stations to generate and share neighbor base station information The security problem associated with the existing mobile base station is solved.

In addition, according to the distributed-type neighbor base station information generation method according to the embodiment of the present invention, in a situation where a link disconnection occurs while the mobile station is moving or an unexpected situation in which some mobile base stations are not operated, It is possible to receive additional information for determining a future operation.

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 scope of the invention as defined in the appended claims. Therefore, the scope of the present invention should not be construed as being limited to the embodiments described, but should be determined by the scope of equivalents to the appended claims, as well as the appended claims.

Claims (8)

A first step of obtaining minimum identification information and neighboring base station information for all other mobile stations from the central network management server when establishing the initial network plan of the mobile station;
A second step of detecting connection to a new link according to the movement of the mobile station;
A third step of, if it is detected that the mobile station is connected to a new link, transmitting a message requesting delivery of neighboring base station creation information to all the other mobile stations based on the connected new link;
A fourth step of receiving, from each of the other mobile base stations that have received the message, a response message corresponding to whether the neighboring base station is determined based on the connected new link; And
And a fifth step of updating the neighbor BS information according to the received response message,
In the fourth step,
When the mobile station fails to receive the response message from at least one of all the other mobile stations,
Transmitting, to the central network management server, a message requesting confirmation of other mobile station information for which the response message is not received; And
And receiving a response message corresponding to the confirmed status information from the central network management server when the status information for the other mobile station corresponding to the received message is confirmed by the central network management server Wherein the method comprises the steps of: delete The method according to claim 1,
The mobile station
And comparing the minimum identification information for all the other mobile base stations stored in its own database with the number of response messages transmitted from all other mobile base stations to identify other mobile base station information for which no response message is received
Decentralized based neighbor base station information generation method. The method according to claim 1,
Wherein the minimum identification information includes at least IP address information. The method according to claim 1,
Wherein the message transmitted from the mobile station to all of the other mobile stations includes an ID, an IP address, and location information of the mobile station corresponding to the connected new link, Way. 6. The method of claim 5,
Each of the other mobile BSs receiving a message requesting transmission of the neighbor BS information,
Based on the location information of the mobile station and the distance information calculated based on the location information of the mobile station, generates a response message corresponding to one of attachment to the neighboring base station, A method for generating adjacent base station information. The method according to claim 1,
In the first step, the mobile station stores the minimum identification information on all the other mobile stations in its database,
And transmitting, in the third step, a message requesting delivery of the neighbor base station establishment information based on the minimum identification information for all the other mobile stations stored in the database. Way. The method according to claim 1,
After the fifth step,
And providing handover to at least one terminal in accordance with the updated neighbor base station creation information.

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