KR20120113673A - Method for communication of base station and terminal - Google Patents

Abstract

PURPOSE: A communication method of a base station and a communication method of a mobile terminal are provided to supply a communication service through an adjacent base station or a relay station in case a backhaul link of a base station is damaged. CONSTITUTION: A first base station(110) transmits information about a terminal(200) to a second base station(120)(S510). The first base station transmits information about transmitting the information to the second base station to the terminal(S530). The information includes context information. The first base station transmits a list of the second base station to the terminal. The list of the second base station is arranged in order of priority. [Reference numerals] (AA) Backhaul link; (BB, CC) Information transmission

Description

Communication method of base station and communication method of terminal {METHOD FOR COMMUNICATION OF BASE STATION AND TERMINAL}

The present invention relates to a communication method of a base station and a communication method of a terminal.

In the event of a disaster or disaster, important infrastructure can be destroyed or damaged. Many infrastructures, such as wireless telephones, landline telephones, and Internet networks, are considered important infrastructure infrastructures. If these communication facilities are destroyed or damaged, social congestion and disaster recovery can be difficult to secure. have. Therefore, in this case, it is important to support high reliability, such as a means to quickly recover or replace a communication facility. In supporting high reliability, the HR-Network must meet the following requirements.

First, backward compatibility with existing systems, ie, systems such as WirelessMAN-OFDMA or WirelessMAN-Advanced Interface, must be satisfied. Next, the base station (HR-base station, HR-BS), the terminal (HR-mobile station, HR-MS) and the relay station (HR-relay station, HR-RS), etc. It should be possible to have a multi-mode operation that plays a role. Also

Communication should continue even if the base station, relay station or radio link is unavailable, i.e. if a single point of failure (SPOF) occurs. And direct communication between different terminals should be possible. In the network, multicast transmission, that is, enhanced multicast communication should be possible, and path management for managing path establishment and forwarding for data transmission and reception including multipath management should be available. However, in the prior art, only requirements exist, and a method of supporting multiple paths is required.

In particular, if the base station or relay station does not perform its duty, it is necessary to reset the path. In addition, when more than one path is set, an alternative path may be used to overcome the resetting process delay. However, setting up alternate paths can result in network loads and support the establishment, maintenance, and change of continuous alternate paths.

On the other hand, when a base station services through a multi carrier or a multi frequency, it is necessary to overcome the degradation of service quality through an alternate path even when any carrier or any frequency is out of service or quality of service is deteriorated. .

An object of the present invention is to maintain a communication service through a neighboring base station or a relay station when the backhaul link of the base station is damaged in the communication system and thus the base station or the relay station does not play a role. In addition, the problem to be solved by the present invention is that the base station serving by using a multi-carrier or multiple frequencies to continue the service through another carrier or another frequency.

The communication method according to the present invention is a communication method of a base station, comprising: transmitting information about a terminal served by a first base station to a neighboring second base station, and wherein the first base station transmits the information to the second base station. Transmitting the fact to the terminal.

The information may include context information.

The transmitting to the terminal may further include transmitting, by the first base station, a list of a plurality of the second base stations to the terminal.

The list of the second base station may be a list sorted by priority.

The transmitting to the terminal may further include transmitting, by the first base station, priorities of the plurality of second base stations to the terminal.

A communication method according to another embodiment of the present invention is a communication method of a terminal, the method comprising: receiving a fact that the terminal transmits information about the terminal to a neighboring second base station from a first base station serviced by the terminal; and Handing over from the first base station to the second base station.

The receiving may include receiving a list of a plurality of the second base stations from the first base station.

The list of the second base station may be a list sorted by priority.

The receiving may include receiving priorities of the plurality of second base stations from the first base station.

The handover may be performed based on the priority.

A communication method according to another embodiment of the present invention is a communication method of a base station, which transmits information on a terminal served by a first base station to a neighboring second base station, and after the backhaul link of the first base station is lost. The first base station establishing a relay link with the second base station.

The information may include at least one of server information, context ID, and context information for data transmission and reception.

The transmitting may be performed periodically.

A communication method according to another embodiment of the present invention is a communication method of a terminal using a multi-carrier, receiving a state information of a carrier from a base station, and performing the carrier change by the terminal according to the state information. Steps.

The state information may include at least one of a cause of quality deterioration, a cause of failure, a service resumption prediction time, and a time of failure.

The method may further include measuring a carrier state other than a current carrier.

A communication method according to another embodiment of the present invention is a communication method of a terminal using a multi frequency, the method comprising: receiving status information of a frequency from a base station, and according to the status information, the terminal performs internal frequency handover ( inter-FA HO).

The state information may include at least one of a cause of quality deterioration, a cause of failure, a service resumption prediction time, and a time of failure.

According to the present invention, when the backhaul link of the base station is damaged in the communication system and thus the base station or the relay station does not play a role, the communication service may be continued through the adjacent base station or the relay station. In addition, a base station serving using multiple carriers or multiple frequencies may continue service through another carrier or another frequency.

1 is a diagram illustrating a communication situation according to an embodiment of the present invention.
2 is a diagram illustrating an example in which a base station establishes a relay link when a backhaul is damaged according to an embodiment of the present invention.
3 is a diagram illustrating an example in which a user equipment handovers when a backhaul is damaged according to another embodiment of the present invention.
4 is a diagram illustrating an example of setting a path through a carrier change when a backhaul is damaged according to another embodiment of the present invention.
FIG. 5 is a diagram illustrating an example of path setting through frequency change when a backhaul is damaged according to another exemplary embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, a mobile station (MS) is a terminal, a mobile terminal (MT), a subscriber station (SS), a portable subscriber station (PSS), an access terminal (access) terminal, AT, user equipment (UE), advanced mobile station (AMS), high reliability mobile station (HR-MS), etc. It may also include all or part of the functions of the PSS, AT, UE, AMS, HR-MS and the like.

In addition, the base station (BS) is a node B (eB), an evolved node B (eNodeB), an access point (AP), a radio access station (radio access station (RAS)), a base transceiver station (receive base transceiver station, BTS), mobile multihop relay (MMR) -BS, advanced base station (ABS), high reliability base station (HR-BS), relay serving as a base station station, RS), advanced relay station (ARS), high reliability relay (HR-RS) serving as a base station, etc. may be referred to as Node B, eNodeB, AP, RAS, It may also include all or part of the functions of BTS, MMR-BS, ABS, HR-BS, RS, ARS, HR-RS and the like.

Now, the relaying method of the base station will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a communication situation according to an embodiment of the present invention, FIG. 2 is a diagram illustrating an example in which a base station establishes a relay link when a backhaul is damaged according to an embodiment of the present invention, and FIG. According to another exemplary embodiment of the present invention, a diagram illustrating an example in which a terminal hands over when a backhaul is damaged.

Referring to FIG. 1, a general communication system includes a server 400 managing a base station 110 and 120 and a terminal 200 transmitting and receiving to and from the base station 110. In this case, between the base stations 110 and 120, and between the base stations 110 and 120 and the server 400, respectively, are connected by a backhaul link. In addition, the terminal 200 and the base station 110 are wirelessly connected. The terminal 200 may receive a wireless service or report data through the base station 110. The base station 110 may transmit the data reported from the terminal 200 to the server 400 or another communication device through the predefined path 10.

If the backhaul link of the base station 110 is broken as shown in FIG. 2, the base station 110 may establish a relay link between the base stations 120 and serve as a relay station. Then, the path 20 through the base station 120 is reset between the terminal 200 and the server 400, and the service between the terminal 200 and the server 400 may be continued.

At this time, the service between the terminal 20 and the server 400 is cut off before the base station 110 changes the mode to the relay station, that is, until the relay link is established between the base station 110 and the base station 120. In addition, even after the relay link between the base station 110 and the base station 120 is established, the path between the base station 110 and the server 400 is delayed due to the rerouting process between the base station 120 and the server 400. May occur. In order to prevent such a delay, the base station 120 does not include a path between the base station 110 and the server 400 through the backhaul link between the base station 110 and the base station 120 in the general situation as shown in FIG. 1. It is necessary to share the path 20 that includes the path 10 and the base station 120. Then, in the situation as shown in FIG. 2, the base station 120 can quickly reset the path.

To this end, as shown in FIG. 1, the base station 110 transmits information to the base station 120 (S510). In this case, the information is information of the terminal 200 to which the base station 110 transmits and receives data. In addition, server information for transmitting and receiving data, a context identifier, context information, data information when the backhaul link is broken, and data information to be resumed. Context information, including context information. This information is periodically transmitted at the time of the backhaul break or just before the backhaul break. Then, when the path between the base station 110 and the server 400 is not available, the path between the base station 120 and the server 400 is established and managed only by setting the relay link between the base station 110 and the base station 120. The delay may be minimized by using the path 20 between the base station 120 and the server 400.

Referring to FIG. 3, an example in which the terminal 200 performs a handover to the base station 120 and resumes data transmission and reception with the server due to the backhaul link disconnection of the base station 110 is illustrated. In the process of establishing the relay link with the base station 120, the base station 110 may transmit information to the base station 120 (S510). In this case, the information includes an identifier of the terminal 200, a data context identifier, and context information at the time of stopping and resuming. Thereafter, the terminal 200 hands over to the base station 120, and the base station 120 may reset the path 30 based on information received from the previously stored path 20 or the base station 110. Alternatively, the terminal 200 may transmit context information to the base station 120 in the handover process (S520), and may reset the path based on the previously stored path or the received information by the base station 120.

In order for the terminal 200 to efficiently change the path setting from the base station 110 to the base station 120, the base station 110 shares the context information of the terminal 200 with the base station 120 even if the backhaul link is not broken. The fact that the terminal 200 can be informed that it is present (S530). In this case, the base station 110 may inform the terminal 200 of the list of the plurality of neighboring base stations shared by the terminal 200 and transmit the priorities of the plurality of neighboring base stations. Accordingly, when the terminal 200 wants to select a new path, the terminal 200 may select a neighboring base station based on the list or priority received from the base station 110 and perform handover. On the other hand, this sharing of the base station 110 and the base station 120 can be applied even after the relay link is established after the backbone link is broken.

Now, a multipath setting method of a base station in a multicarrier environment will be described in detail with reference to FIG. 4.

4 is a diagram illustrating an example of setting a path through a carrier change when a backhaul is damaged according to another embodiment of the present invention.

Referring to FIG. 4, when the base station 110 and the terminal 200 are communicating through multiple carriers, one carrier operates as a primary carrier according to the capability of the terminal 200, and the other is a subcarrier. It acts as a (secondary carrier). If the specific carrier is inoperable or the service quality is deteriorated, the terminal 200 should change the carrier to a carrier of better service quality than the carrier currently being serviced.

To this end, the base station 110 transmits the state information of the carrier to the terminal 200 when it is predicted that the operation of the carrier or degradation of the service quality (S540). In this case, the status information may include a cause of quality degradation, a cause of failure, a predicted time of resuming service, or a time of failure. To this end, the base station 110 should store and manage the path information of the terminal 200 serving in the base station 110.

Upon receiving the state of the carrier, the terminal 200 may recognize the state of the carrier and change the serviced carrier. In order to efficiently perform such an operation, the channel state may be measured by scanning a state of a carrier other than a carrier currently being serviced by the terminal 200 periodically. In addition, the terminal 200 can change to a carrier of better quality through the measured channel state.

Now, a multipath configuration method of a base station in a multi-frequency environment will be described in detail with reference to FIG. 5.

FIG. 5 is a diagram illustrating an example of path setting through frequency change when a backhaul is damaged according to another exemplary embodiment of the present invention.

When the base station 110 serves by using multiple frequencies, this is a case where an optimal path is set among multipaths through frequency change, that is, inter-FA HO. As shown in FIG. 5, when a specific frequency is not available or degraded in quality, the base station 110 transmits state information about this to the terminal 200 (S550). In this case, the status information may include a cause of quality degradation, a cause of failure, a predicted time of resuming service, or a time of failure.

Then, the terminal 200 performs a frequency change, that is, an internal frequency handover (inter-frequency HO) similarly to the case of FIG. 4. At this time, the internal frequency handover may also be made by the request of the base station 110, but the terminal 200 may perform the voluntary by measuring the channel state of each frequency. At this time, the base station 110 stores and manages the service path information of the terminal 200 regardless of frequency, so that an efficient and optimized path change can be performed.

When the backhaul link of the base station is damaged in the communication system and thus the base station or the relay station does not play a role, it is possible to perform a path setting for continuing the communication service through the adjacent base station or the relay station without delay.

In addition, when a base station serving a service using a multi-carrier or a multi-frequency is not satisfactory in the service of a carrier or a frequency, the base station can continue service through another carrier or another frequency.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (18)

As a communication method of a base station,
Transmitting information about a terminal served by the first base station to a neighboring second base station, and
Transmitting to the terminal that the first base station has transmitted the information to a second base station
/ RTI > In claim 1,
Wherein the information includes context information. In claim 1,
The step of transmitting to the terminal,
And transmitting, by the first base station, the list of the plurality of second base stations to the terminal. 4. The method of claim 3,
And the list of second base stations is a list sorted by priority. In claim 1,
The step of transmitting to the terminal,
And transmitting, by the first base station, priorities of the plurality of second base stations to the terminal. As a communication method of the terminal,
Receiving the fact that the terminal has transmitted information about the terminal to a neighboring second base station from the first base station that is serviced, and
Handing over from the first base station to the second base station
/ RTI > The method of claim 6,
Wherein the receiving comprises:
Receiving a list of a plurality of the second base stations from the first base station
/ RTI > In claim 7,
The list of second base stations is a list sorted by priority. The method of claim 6,
Wherein the receiving comprises:
Receiving priorities of the plurality of second base stations from the first base station
/ RTI > The method of claim 9,
The handover step,
A communication method based on the priority. As a communication method of a base station,
Transmitting information about a terminal served by the first base station to a neighboring second base station, and
Establishing a relay link with the second base station by the first base station after the backhaul link of the first base station is lost;
/ RTI > 12. The method of claim 11,
The information includes at least one of server information, context identifier (context id) and context information (context information) for data transmission and reception. 12. The method of claim 11,
The transmitting method is performed periodically. A communication method of a terminal using a multi carrier,
Receiving status information of a carrier from a base station, and
Performing a carrier change by the terminal according to the state information
/ RTI > The method of claim 14,
The status information includes at least one of a cause of quality degradation, a cause of failure, a predicted time for resuming service, and a dead time. The method of claim 14,
And measuring a state of a carrier other than a carrier currently being serviced. A communication method of a terminal using a multi frequency,
Receiving status information of a frequency from a base station, and
The terminal performing an internal frequency handover (inter-FA HO) according to the state information
/ RTI > The method of claim 17,
The status information includes at least one of a cause of quality degradation, a cause of failure, a predicted time for resuming service, and a dead time.

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