KR20100038559A - Apparatus and method for re-configurating communication path of emergency caller in wireless cellular communication system - Google Patents

Abstract

PURPOSE: A device for resetting a communication route of a terminal which is unable to directly communicate with a base station in a wireless cellular communications system and a method thereof are provided to efficiently support route resetting while minimally reducing the power consumption of a terminal when the resetting of the communication route is required. CONSTITUTION: A terminal transmits a message to a base station(200). The message informs the transmission of a help signal for a rely request. If a message which informs the transmission of the help signal is received from the base station, the terminal broadcasts the help signal for the replay request. If a message that informs the transmission of the help signal, the base station transmits a message that informs the reception preparation of the help signal to terminals in a cell coverage.

Description

Apparatus and method for reconfiguring a communication path of a terminal that cannot be directly communicated with a base station in a wireless cellular communication system {APPARATUS AND METHOD FOR RE-CONFIGURATING COMMUNICATION PATH OF EMERGENCY CALLER IN WIRELESS CELLULAR COMMUNICATION SYSTEM}

The present invention relates to an apparatus and method for resetting a communication path of a terminal that is not capable of direct communication with a base station in a wireless cellular communication system. In particular, a terminal that is not capable of direct communication with a base station in a wireless cellular communication system is a terminal within cell coverage. A device for efficiently supporting the resetting while reducing power consumption of the terminal when the communication path needs to be reconfigured according to a change in various communication environments in a situation where a wireless emergency communication service is provided through a relay method with the help of And to a method.

Recently, an out-of-coverage terminal or a terminal in a coverage hole, which cannot directly communicate with a base station, is wireless in an emergency situation through a relaying method with the help of a terminal in cell coverage. A technology for receiving emergency communication services has been proposed.

1 is an exemplary diagram illustrating an emergency call processing communication scenario in a typical wireless cellular communication system.

Referring to FIG. 1, when an emergency occurs in the terminal A 110 outside the cell coverage and the terminal B 112 in the coverage hall, the terminal A 110 and the terminal B 112 are respectively the base station 100. The wireless emergency communication service may be provided with the help of the terminal C 114 and the terminal D 116 in the coverage.

On the other hand, in the state in which the terminal which cannot directly communicate with the base station establishes a communication path to the base station in order to request an emergency call service, the preset communication path must be reset according to various communication environment changes. Situations may arise where the communication environment with the base station is better. In this case, the terminal which cannot directly communicate with the base station must recognize the change of the communication environment efficiently and reset the communication path to the base station, which requires a handover.

However, the prior art does not propose a method for resetting a communication path according to a change in a communication environment of a terminal that is not capable of direct communication with a base station. In addition, in the case of a terminal requesting an emergency call service, there is a requirement to minimize power consumption, and there is no way to support such a requirement.

An object of the present invention is to provide an apparatus and method for resetting a communication path of a terminal that is not capable of direct communication with a base station in a wireless cellular communication system.

Another object of the present invention is to provide a wireless emergency communication service in a wireless cellular communication system in which a terminal which cannot directly communicate with a base station is provided with a wireless emergency communication service through a relay method with the help of a terminal within cell coverage, according to changes in various communication environments. The present invention provides an apparatus and method for efficiently resetting a path while minimizing power consumption of the terminal when it is necessary to reconfigure.

Another object of the present invention, when resetting the communication path of the terminal that can not be directly communicated with the base station in a wireless cellular communication system, the base station is located in the adjacent position of the terminal or the serving relay terminal using the location information of the terminals in the cell coverage Determining only terminals to be candidate target relay terminals, requesting the determined candidate target relay terminals to transmit an EAR amble, and scanning the terminal to transmit an emblem transmitted by the candidate target relay terminals. An apparatus and method for making a request are provided.

Another object of the present invention is to notify all terminals in cell coverage through the base station that the terminal will transmit a help signal for a relay request when reestablishing a communication path of a terminal that is incapable of direct communication with the base station in a wireless cellular communication system. Accordingly, when all the terminals in the cell coverage is ready to receive the help signal, it provides an apparatus and method for broadcasting a help signal for the terminal relay request (broadcast).

According to an embodiment of the present invention to achieve the above object, the operation method of the base station for resetting the communication path of the terminal that can not be directly communicated with the base station in a wireless cellular communication system, the help signal for a relay request from the terminal When a first help request message indicating to transmit is received, transmitting a second help request message notifying the terminals in cell coverage to prepare to receive the help signal; and the help signal from the terminals in the cell coverage. And when a first help response message indicating completion of reception of the reception is received, transmitting a second help response message indicating to start transmission of the help signal to the terminal.

According to an embodiment of the present invention to achieve the above object, in a wireless cellular communication system, a method of operating a base station for resetting a communication path of a terminal incapable of direct communication with a base station may include cell coverage adjacent to the terminal or the serving relay terminal. Transmitting a relay request message for requesting relay to my terminals; and when a relay response message is received from the terminals in the adjacent cell coverage, the terminal in cell coverage that has accepted the relay request through the relay response message. Scanning a message, transmitting a ranging response message for requesting transmission of an EAR to the UEs in the cell coverage, and scanning an emblem transmitted by the UEs in the cell coverage. Includes sending a scanning request message to request And it characterized in that.

According to an embodiment of the present invention to achieve the above object, an apparatus for resetting a communication path of a terminal that is not capable of direct communication with a base station in a wireless cellular communication system, informing that the base station transmits a help signal for a relay request. A terminal for transmitting a message and broadcasting a help signal for the relay request when a message indicating that the help signal is to be transmitted is received from the base station; and a help for a relay request from the terminal. When a message indicating that a signal is to be transmitted is received, a message informing that terminals in cell coverage are ready to receive the help signal is transmitted, and a message informing that the help signal is ready to be received from terminals in the cell coverage is received. When received, transmission of the help signal to the terminal It characterized in that it comprises the base station transmitting a message indicating that start.

According to an embodiment of the present invention to achieve the above object, an apparatus for resetting a communication path of a terminal that is not capable of direct communication with a base station in a wireless cellular communication system, the terminal in the cell coverage adjacent to the terminal or the serving relay terminal A base station requesting a relay to the terminal, requesting transmission of an EAR (Able Amble) to terminals in cell coverage that have accepted the relay request, and requesting the terminal to scan an emblem transmitted by the terminals in the cell coverage; And scanning the emblem according to the scanning request, and determining the target relay terminal according to the scanning result.

The present invention provides an apparatus and method for resetting a communication path of a terminal that is not capable of direct communication with a base station in a wireless cellular communication system, thereby efficiently supporting the resetting of the communication path while reducing power consumption of the terminal. There is an advantage in providing an emergency call service business model that is adaptive to changes in various communication environments.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Hereinafter, the present invention reconfigures communication paths according to changes in various communication environments in a situation where a terminal which cannot directly communicate with a base station is provided with a wireless emergency communication service through a relay method with the help of a terminal within cell coverage in a wireless cellular communication system. When necessary, an apparatus and method for efficiently supporting rerouting while minimizing power consumption of the terminal will be described.

In the following description, a UE which is located in an out-of-coverage or coverage hole where direct communication with a base station is impossible and requests an emergency call service is defined as an emergency caller (EC). . In addition, an EAR (Emergency Ad) is located in a cell coverage where direct communication with a base station is possible and relays an emergency call service request of the EC to the base station. -hoc Relay).

The embodiment according to the present invention considers only the Two-hop Emergency Relay Scenario between the EC and the base station for convenience of description, but of course, the multi-hop emergency relay scenario may also be considered.

The present invention proposes a rerouting method for optimizing the power consumption of EC for two cases as follows.

(1) When the base station knows the location of the terminals in cell coverage (in-coverage)

    Yes, using Global Positioning System (GPS)

(2) the base station does not know the location of the terminals in the cell coverage

2 is an exemplary diagram illustrating a communication path resetting scenario of a terminal that is not capable of direct communication with a base station in a wireless cellular communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the terminal EC 210, which cannot directly communicate with a base station (BS) 200, is capable of providing a wireless emergency communication service through a relay method with the aid of the serving EAR 220, which is a terminal within cell coverage. In a situation in which it is provided, it may be necessary to reset the communication path to the EC (210) according to the change in the communication environment.

At this time, the first embodiment of the present invention, the base station 200 looks at the path resetting method for the case of knowing the location information (eg, using the GPS) of the terminals in the cell coverage as follows. When resetting the path, the base station 200 candidates only the terminals 230-1 to 230-3 existing in the adjacent position of the EC 210 or the serving EAR 220 by using the location information of the terminals in the cell coverage. Decide on a target EAR. Thereafter, the base station 200 requests the determined candidate target EARs 230-1 to 230-3 to transmit an EAR amble, and asks the EC 210 for the candidate target EARs 230-. 1 to 230-3) request to scan the transmitting symbol.

Here, if the base station 200 does not know the location information of the terminals in the cell coverage, the base station 200 should request all terminals in the cell coverage to transmit the EAR (Amble). In this case, since the base station 200 needs to send a request message to all terminals within the cell coverage, resource waste and inefficiency occur. In addition, all terminals in the cell coverage receiving the request message, that is, terminals not located in the proximity of the EC 210, transmit the emblem, resulting in overhead such as waste of resources and interference. Done.

Therefore, in the second embodiment of the present invention, another base station resetting method is proposed for the case where the base station 200 does not know the location information of the terminals in the cell coverage, and the path resetting method for this case will be described as follows. same. In this case, first, the EC 210 notifies all the terminals in the cell coverage through the base station 200 to transmit the help signal for the relay request, so that all the terminals in the cell coverage can prepare to receive the help signal. Make sure As such, when all terminals in the cell coverage complete preparation for receiving the help signal, the EC 210 broadcasts the help signal for the relay request. In this case, the base station 200 determines only candidate terminals EARs 230-1 to 230-3 in cell coverage that have transmitted an acceptance response to the relay request, and then determine the determined candidate target EARs 230-. 1 to 230-3 may be requested to transmit an EAR Amble, and the EC 210 may be requested to scan an emblem transmitted by the candidate target EARs 230-1 to 230-3.

3 is a diagram illustrating a method for resetting a communication path of a terminal (EC) that is not capable of direct communication with a base station when the base station knows the locations of terminals in cell coverage in the wireless cellular communication system according to the first embodiment of the present invention. A signal flow diagram illustrating the procedure of.

Referring to FIG. 3, the EC 300 measures the current link state between the EC 300 and the serving EAR 310 in step 301, and includes a measurement report (EC_MSR_RPT: EC_Measurement_Report) including the measurement result to the base station 320. Send a message. That is, the EC 300 measures the signal strength, error rate, latency, and the like from the serving EAR 310 that is currently set, and includes the measurement result in the measurement report message to the base station 320. ). In this case, the EC 300 periodically or at the request of the base station 320 or when the necessity of rerouting is determined as the measurement result has a value less than or equal to a threshold, the base station 320 is determined. The measurement report message is transmitted.

The serving EAR 310 measures the link state of the current serving EAR 310 itself in step 303, and transmits a measurement report (EAR_MSR_RPT: EAR_Measurement_Report) message including the measurement result to the base station 320. That is, the serving EAR 310 measures its battery consumption level, capacity level, etc., and transmits the measurement result to the base station 320 by including the measurement result in a measurement report message. In this case, the serving EAR 310 is determined periodically or at the request of the base station 320, or when the determination of the necessity of rerouting is determined as the measurement result has a value less than or equal to the threshold, the base station 320 Transmit the measurement report message.

The base station 320 measures the current link state, for example load balancing, between the serving EAR 310 and the base station 320 in step 305. Thereafter, the base station 320 determines the current link state measurement result and serving EAR between the EC 300 and the serving EAR 310 obtained through the measurement report message from the EC 300 and the serving EAR 310 in step 307. Using the current link state measurement result of 310 and the current link state measurement result between the serving EAR 310 and the base station 320 measured by the base station 320 itself, the measurement result is a value less than or equal to a threshold. It is checked whether the necessity of rerouting is determined as having. Hereinafter, a case in which the necessity of rerouting is determined will be described.

Thereafter, the base station 320 searches for the UEs in the cell coverage adjacent to the EC 300 and the serving EAR 310, and in step 309 and 311, searches for the UEs in the cell coverage 330 and 340 as EARs. It transmits a relay request (BS_REL_REQ: BS_Relay_Request) message requesting to perform a relay role by switching modes.

Thereafter, the base station 320 receives a relay response (MS_REL_RSP: MS_Relay_Response) message from the terminals 330 and 340 found in the cell coverage in steps 313 and 315, and accepts the relay request through the relay response message. The terminals 330 and 340 in the cell coverage are determined as candidate target EARs 330 and 340, and an EAR-Amble is allocated to the determined candidate target EARs 330 and 340 in step 317. do. Here, the emblem is assigned to each candidate target EAR as a unique value.

In step 319 and step 321, the base station 320 transmits a ranging response (RNG-RSP: Ranging-Response) message including the allocated emblem to the candidate target EARs 330 and 340. Here, the ranging response message is a message for notifying the candidate target EARs 330 and 340 to start the role of the EAR. In addition, in step 323, the base station 320 transmits a scanning request (BS_SCN-REQ: BS_Scanning-Request) message requesting scanning of the emblems received from adjacent EARs to the EC 300.

Meanwhile, the candidate target EARs 330 and 340 switch the mode to the EAR according to the reception of the ranging response message from the base station 320, and the emblems allocated through the ranging response message in steps 325 and 327. (EAR-Amble) is transmitted to the EC (300).

Thereafter, the EC 300 scans an emblem received from adjacent EARs according to the reception of the scanning request message in step 329. As described above, the method of scanning at the time when the scanning request message is received may have the effect of power saving as compared to the case of the existing initial access that scans randomly randomly.

In step 331, the EC 300 determines a target EAR 330 using the scanning result, and in step 333, an initial access request (EC_INIT-REQ: EC_Initial access-Request) to the determined target EAR 330. Send a message. For example, the EC 300 may select an emblem having the largest signal strength by measuring signal strength of each emblem received from neighboring EARs, and determine the neighboring EAR corresponding to the selected emblem as a target EAR. . Alternatively, the target EAR 330 may be determined using not only the scanning result but also information such as remaining battery capacity of the serving EAR 310, wherein the remaining battery capacity of the serving EAR 310 may be determined. The information may be received from the serving EAR 310 through a broadcast channel (BCH) channel.

In step 335, the target EAR 330 transmits a connection request (EAR_CONN-REQ: EAR_Connection-Request) message requesting a relay link connection to the base station 320. Thereafter, when the target EAR 330 receives a connection response (BS_CONN-RSP: BS_Connection-Response) message to establish a relay link connection from the base station 320 in step 337, the target EAR 330 establishes a relay link connection and the step in step 339. The EC 300 transmits an initial access response (EC_INIT-RSP: EC_Initial access-Response) message for notifying that the relay link connection has been successfully established. In this case, the EC 300 transmits an end indication (EC_TERM-IND: EC_Terminate-Indicate) message to inform the termination of the relay link connection to the serving EAR 310 in step 341, thereby transmitting to the target EAR 330. Complete the rerouting procedure.

FIG. 4 is a view illustrating resetting a communication path of a terminal (EC) that is not capable of direct communication with a base station when the base station knows the locations of terminals in cell coverage in the wireless cellular communication system according to the first embodiment of the present invention. It is a flowchart illustrating an operation method of the terminal (EC).

Referring to FIG. 4, the EC measures the current link state between the EC-serving EARs in step 401 and transmits a measurement report (EC_MSR_RPT: EC_Measurement_Report) message including the measurement result to the base station in step 403. That is, the EC measures the signal strength, error rate, latency, and the like from the currently set serving EAR, and transmits the measurement result to the base station by including the measurement result in a measurement report message.

In step 405, the EC checks whether a scanning request (BS_SCN-REQ: BS_Scanning-Request) message is received from the base station and then requests scanning for an emblem received from neighboring EARs. When the scanning request message is received, the EC scans an emblem received from adjacent EARs in step 407.

Thereafter, the EC determines the target EAR using the scanning result in step 409, and completes the rerouting procedure to the target EAR by performing an initial access procedure with the determined target EAR in step 411. That is, the EC transmits an initial access request (EC_INIT-REQ) message to the target EAR, and receives an initial access response (EC_INIT-RSP: EC_Initial access-Response) message from the target EAR. A termination indication (EC_TERM-IND: EC_Terminate-Indicate) message is transmitted to the serving EAR to indicate termination of the relay link connection.

The EC then terminates the algorithm according to the invention.

FIG. 5 is a view illustrating resetting a communication path of a terminal (EC) that is not capable of direct communication with a base station when the base station knows the locations of terminals in cell coverage in the wireless cellular communication system according to the first embodiment of the present invention. It is a flowchart illustrating a method of operating the base station.

Referring to FIG. 5, the base station acquires the current link state measurement result between the EC-serving EAR and the current link state measurement result of the serving EAR by receiving a measurement report message from the EC and the serving EAR in step 501, and in step 503. Measure the current link status between the serving EAR and base stations.

Thereafter, the base station uses the obtained current link state measurement result between the EC-serving EAR, the current link state measurement result of the serving EAR, and the current link state measurement result between the serving EAR and the base station itself measured in step 505. Then, it is checked whether the necessity of rerouting is determined as the measurement result has a value less than or equal to the threshold. If the necessity of rerouting is not determined, the base station returns to step 501 and repeats the following steps.

On the other hand, when the necessity of rerouting is determined, the base station searches for terminals in cell coverage adjacent to the EC and the serving EAR in step 507. In step 509, the base station transmits a relay request (BS_REL_REQ: BS_Relay_Request) message to request the UEs in the searched cell coverage to switch to the EAR mode to perform a relay role, and from the terminals in the found cell coverage. Receive a relay response (MS_REL_RSP: MS_Relay_Response) message.

Thereafter, the base station determines, in step 511, terminals within cell coverage that have accepted the relay request through the relay response message as candidate target EARs, and assigns an EAR-Able to the determined candidate target EARs in step 513. After (Allocation), a ranging response (RNG-RSP: Ranging-Response) message including the allocated emblem is transmitted to the candidate target EARs. Here, the emblem is assigned to each candidate target EAR as a unique value, and the ranging response message is a message for notifying the candidate target EARs to start the role of the EAR. In addition, in step 515, the base station transmits a scanning request (BS_SCN-REQ: BS_Scanning-Request) message requesting scanning of the emblem received from adjacent EARs to the EC.

In step 517, the base station determines whether a connection request (EAR_CONN-REQ: EAR_Connection-Request) message is received from the target EAR and receives a connection request message from the target EAR. In the step, the relay link connection procedure with the target EAR is performed to complete the rerouting procedure to the target EAR. That is, when a connection request message is received from the target EAR, the base station transmits a connection response (BS_CONN-RSP: BS_Connection-Response) message to establish a relay link connection to the target EAR to perform a rerouting procedure to the target EAR. To complete.

The base station then terminates the algorithm according to the invention.

FIG. 6 is a view illustrating a resetting of a communication path of a terminal (EC) that is not capable of direct communication with a base station when the base station does not know the location of terminals in cell coverage in the wireless cellular communication system according to the second embodiment of the present invention. A signal flow diagram illustrating the procedure of the method.

Referring to FIG. 6, in step 601, the base station 620 measures a current link state, for example, load balancing, between the serving EAR 610 and the base station 620, and measures the result by the EC 600. Send a measurement report (BS_MSR_RPT: BS_Measurement_Report) message including a. In this case, the base station 620 periodically or at the request of the EC 600, or when the necessity of rerouting is determined as the measurement result has a value equal to or less than a threshold value, the EC 600 The measurement report message is transmitted.

The serving EAR 610 measures the link state of the current serving EAR 610 itself in step 603 and transmits a measurement report (EAR_MSR_RPT: EAR_Measurement_Report) message including the measurement result to the EC 600. That is, the serving EAR 610 measures its battery consumption level, capacity level, and the like, and transmits the measurement result to the EC 600 by including the measurement result in a measurement report message. In this case, the serving EAR 610 is determined periodically or at the request of the EC 600, or when the necessity of rerouting is determined as the measurement result has a value less than or equal to a threshold. Transmit the measurement report message.

The EC 600 measures the current link state between the EC 600 and the serving EAR 610 in step 605. That is, the EC 600 measures the signal strength, error rate, latency, and the like from the serving EAR 610 that is currently set. Thereafter, the EC 600 determines a current link state measurement result and serving EAR between the serving EAR 610 and the base station 620 obtained through the measurement report message from the base station 620 and the serving EAR 610 in step 607. By using the current link state measurement result of 610 and the current link state measurement result between the EC 600 and the serving EAR 610 measured by the EC 600 itself, the measurement result is a value less than or equal to a threshold. It is checked whether the necessity of rerouting is determined as having. Hereinafter, a case in which the necessity of rerouting is determined will be described.

In step 609, the EC 600 transmits a help request (EC_HLP-REQ: EC_Help-Request) message indicating that it will transmit a help signal (Help signal) to the base station 620 to find a new EAR. In this case, in step 611 and 613, the base station 620 notifies the UEs in the cell coverage that the EC 600 will transmit a help signal and requests to aggressively detect the help signal. Sends a help request (BS_HLP-REQ: BS_Help-Request) message. As such, the method of previously requesting the terminals in the cell coverage to detect the help signal includes a failure alarm (False) compared to the case of the existing initial access in which the terminals in the cell coverage detect the help signal randomly without any information. It can reduce the alarm, increase the probability of detection success and furthermore, the power saving effect.

Thereafter, when the base station 620 receives the help response (MS_HLP-RSP: MS_Help-Response) message from the terminals in the cell coverage in steps 615 and 617, the base station 620 proceeds to step 619 to the help signal to the EC 600. Transmits a help response (BS_HLP-RSP: BS_Help-Response) message indicating the start of transmission. As a result, the base station 620 notifies the EC 600 that the help signal is ready to be received. At this time, the EC 600 broadcasts the help signal according to the reception of the help response message, thereby switching the mode to the EAR to the terminals 630 and 640 in the adjacent cell coverage to perform a relay role. Ask to do.

Then, the base station 620 receives a relay response (MS_REL_RSP: MS_Relay_Response) message from the terminals 630, 640 in the cell coverage in step 623 and 625, the cell accepts the relay request through the relay response message The in-coverage terminals 630 and 640 are determined as candidate target EARs 630 and 640, and an EAR-Amble is allocated to the determined candidate target EARs 630 and 640 in step 627. . Here, the emblem is assigned to each candidate target EAR as a unique value.

Thereafter, the base station 620 transmits a ranging response (RNG-RSP: Ranging-Response) message including the allocated emblem to the candidate target EARs 630 and 640 in steps 629 and 631. Here, the ranging response message is a message for notifying the candidate target EARs 630 and 640 to start the role of the EAR. In addition, in step 633, the base station 620 transmits a scanning request (BS_SCN-REQ: BS_Scanning-Request) message requesting scanning of the emblems received from adjacent EARs to the EC 600.

Meanwhile, the candidate target EARs 630 and 640 switch the mode to the EAR according to the reception of the ranging response message from the base station 620, and the emblems allocated through the ranging response message in steps 635 and 637. (EAR-Amble) is transmitted to the EC 600.

Thereafter, the EC 600 scans an emblem received from adjacent EARs according to the reception of the scanning request message in step 639. As described above, the method of scanning at the time when the scanning request message is received may have the effect of power saving as compared to the case of the existing initial access that scans randomly randomly.

In step 641, the EC 600 determines a target EAR 630 using the scanning result, and in step 643, an initial access request (EC_INIT-REQ: EC_Initial access-Request) to the determined target EAR 630. Send a message. For example, the EC 600 may measure the signal strength of each emblem received from neighboring EARs, select an emblem having the largest signal strength, and determine the neighboring EAR corresponding to the selected emblem as the target EAR. Alternatively, the target EAR 630 may be determined using information on the remaining battery capacity of the serving EAR 610 as well as the scanning result, wherein the remaining battery capacity of the serving EAR 610 may be determined. The information may be received from the serving EAR 610 through a broadcast channel (BCH) channel.

In operation 645, the target EAR 630 transmits a connection request (EAR_CONN-REQ: EAR_Connection-Request) message requesting a relay link connection to the base station 620. Thereafter, when the target EAR 630 receives a connection response (BS_CONN-RSP: BS_Connection-Response) message to establish a relay link connection from the base station 620 in step 647, the target EAR 630 establishes a relay link connection. The EC 600 transmits an initial access response (EC_INIT-RSP: EC_Initial access-Response) message indicating that the relay link connection has been successfully established. In this case, the EC 600 transmits an end indication (EC_TERM-IND: EC_Terminate-Indicate) message to inform the termination of the relay link connection to the serving EAR 610 in step 651, thereby transmitting to the target EAR 630. Complete the rerouting procedure.

FIG. 7 illustrates a communication path of a terminal (EC) that is incapable of direct communication with a base station when the base station does not know the location of terminals in cell coverage in the wireless cellular communication system according to the second embodiment of the present invention. A flowchart illustrating a method of operating the terminal EC for resetting.

Referring to FIG. 7, the EC acquires the current link state measurement result between the serving EAR and the base station and the current link state measurement result between the serving EAR by receiving the measurement report message from the base station and the serving EAR in step 701. Measures the current link state between EC-serving EARs.

In step 705, the EC uses the obtained current link state measurement result between the serving EAR and the base station, the current link state measurement result of the serving EAR, and the current link state measurement result between the EC-serving EAR measured by the EC itself. Then, it is checked whether the necessity of rerouting is determined as the measurement result has a value less than or equal to the threshold. If the necessity of rerouting is not determined, the base station returns to step 701 and repeats the following steps.

On the other hand, when the necessity of rerouting is determined, the EC transmits a help request (EC_HLP-REQ: EC_Help-Request) message indicating that the EC will transmit a help signal to the base station in order to find a new EAR in step 707. In step 709, it is checked whether a help response (BS_HLP-RSP: BS_Help-Response) message indicating that the help signal is transmitted is received from the base station, that is, the reception preparation of the help signal is completed. When the help response message is received, the EC broadcasts a help signal in step 711, thereby requesting terminals in adjacent cell coverage to switch to EAR to perform a relay role.

Thereafter, in step 713, the EC checks whether a scanning request (BS_SCN-REQ: BS_Scanning-Request) message is received from the base station to request scanning of an emblem received from neighboring EARs. If the scanning request message is not received, the EC returns to step 711 and repeats the following steps. On the other hand, when the scanning request message is received, the EC scans the emblem received from the adjacent EAR in step 715.

Thereafter, the EC determines a target EAR using the scanning result in step 717, and completes a rerouting procedure to the target EAR by performing an initial access procedure with the determined target EAR in step 719. That is, the EC transmits an initial access request (EC_INIT-REQ) message to the target EAR, and receives an initial access response (EC_INIT-RSP: EC_Initial access-Response) message from the target EAR. A termination indication (EC_TERM-IND: EC_Terminate-Indicate) message is transmitted to the serving EAR to indicate termination of the relay link connection.

The EC then terminates the algorithm according to the invention.

8A and 8B illustrate communication of a terminal (EC) that is not capable of direct communication with a base station when the base station does not know the location of terminals in cell coverage in the wireless cellular communication system according to the second embodiment of the present invention. A flowchart illustrating a method of operating the base station for rerouting.

8A and 8B, in step 801, the base station measures a current link state between serving EAR-base stations, for example, load balancing, and in step 803, a measurement report including measurement results in EC (BS_MSR_RPT). : BS_Measurement_Report) Sends a message.

In step 805, the base station determines whether a help request (EC_HLP-REQ: EC_Help-Request) message is received from the EC indicating that a help signal is transmitted to find a new EAR. When the help request message is received, the base station notifies the UEs in cell coverage that the EC will transmit a help signal in step 807 and then requests a help request for aggressively detecting the help signal. (BS_HLP-REQ: BS_Help-Request) Sends a message.

Thereafter, the base station determines whether a help response (MS_HLP-RSP: MS_Help-Response) message is received from the terminals within the cell coverage in step 809, and when the help response message is received, the base station determines to the EC in step 811. A help response (BS_HLP-RSP: BS_Help-Response) message indicating the start of the help signal transmission, that is, the completion of the reception of the help signal is transmitted.

In step 813, the base station determines whether a relay response (MS_REL_RSP: MS_Relay_Response) message is received from the terminals in the cell coverage. When the relay response message is received, the base station determines, in step 815, terminals within cell coverage that have accepted the relay request through the relay response message as candidate target EARs, and in step 817, the base station ambles the determined candidate target EARs. After allocating (EAR-Amble), a ranging response (RNG-RSP: Ranging-Response) message including the allocated emblem is transmitted to the candidate target EARs. Here, the emblem is assigned to each candidate target EAR as a unique value, and the ranging response message is a message for notifying the candidate target EARs to start the role of the EAR. In addition, in step 819, the base station transmits a scanning request (BS_SCN-REQ: BS_Scanning-Request) message requesting scanning of the emblem received from adjacent EARs to the EC.

In step 821, the base station determines whether a connection request (EAR_CONN-REQ: EAR_Connection-Request) message is received from the target EAR and receives a connection request message from the target EAR. In the step, the relay link connection procedure with the target EAR is performed to complete the rerouting procedure to the target EAR. That is, when a connection request message is received from the target EAR, the base station transmits a connection response (BS_CONN-RSP: BS_Connection-Response) message to establish a relay link connection to the target EAR to perform a rerouting procedure to the target EAR. To complete.

The base station then terminates the algorithm according to the invention.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

1 is an exemplary diagram illustrating an emergency call processing communication scenario in a typical wireless cellular communication system;

2 is an exemplary diagram illustrating a communication rerouting scenario of a terminal that is not capable of direct communication with a base station in a wireless cellular communication system according to an embodiment of the present invention;

3 is a diagram illustrating a method for resetting a communication path of a terminal (EC) that is not capable of direct communication with a base station when the base station knows the locations of terminals in cell coverage in the wireless cellular communication system according to the first embodiment of the present invention. A signal flow diagram illustrating the procedure of

FIG. 4 is a view illustrating resetting a communication path of a terminal (EC) that is not capable of direct communication with a base station when the base station knows the locations of terminals in cell coverage in the wireless cellular communication system according to the first embodiment of the present invention. Flow chart illustrating a method of operation of the terminal (EC) for

FIG. 5 is a view illustrating resetting a communication path of a terminal (EC) that is not capable of direct communication with a base station when the base station knows the locations of terminals in cell coverage in the wireless cellular communication system according to the first embodiment of the present invention. A flowchart illustrating a method of operating the base station for

FIG. 6 is a view illustrating a resetting of a communication path of a terminal (EC) that is not capable of direct communication with a base station when the base station does not know the locations of in-coverage terminals in the wireless cellular communication system according to the second embodiment of the present invention. A signal flow diagram illustrating the procedure of the method,

FIG. 7 illustrates a communication path of a terminal (EC) that is incapable of direct communication with a base station when the base station does not know the location of terminals in cell coverage in the wireless cellular communication system according to the second embodiment of the present invention. A flowchart illustrating a method of operating the terminal EC for resetting, and

8A and 8B illustrate communication of a terminal (EC) that is not capable of direct communication with a base station when the base station does not know the location of terminals in cell coverage in the wireless cellular communication system according to the second embodiment of the present invention. A flowchart illustrating a method of operating the base station for rerouting.

Claims (6)

A method of operating a base station for resetting a communication path of a terminal in which a direct communication with a base station is impossible in a wireless cellular communication system, When a first help request message indicating that a help signal for a relay request is to be transmitted is received from the terminal, transmitting a second help request message to inform terminals in cell coverage to prepare to receive the help signal; When the first help response message indicating completion of reception of the help signal is received from the terminals within the cell coverage, transmitting a second help response message indicating to start transmission of the help signal to the terminal. Characterized in that the method. The method of claim 1, When the relay response message is received from the terminals in the cell coverage, searching for the terminals in the cell coverage that have accepted the relay request through the relay response message; Transmitting a ranging response message for requesting transmission of an EAR to the terminals within the found cell coverage; And transmitting a scanning request message for requesting the terminal to scan an emblem transmitted by the terminals in the searched cell coverage. A method of operating a base station for resetting a communication path of a terminal in which a direct communication with a base station is impossible in a wireless cellular communication system, Transmitting a relay request message for requesting relay to terminals in cell coverage adjacent to the terminal or the serving relay terminal; Searching for terminals in cell coverage that have accepted the relay request through the relay response message when a relay response message is received from the terminals in neighboring cell coverage; Transmitting a ranging response message for requesting transmission of an EAR to the terminals within the found cell coverage; And transmitting a scanning request message for requesting the terminal to scan an emblem transmitted by the terminals in the searched cell coverage. An apparatus for resetting a communication path of a terminal that is not capable of direct communication with a base station in a wireless cellular communication system, Sends a message indicating that a help signal for a relay request is to be transmitted to the base station, and when a message indicating to start transmission of the help signal is received from the base station, broadcasts a help signal for the relay request. The terminal and When a message indicating that a help signal for a relay request is to be transmitted is received from the terminal, a message informing that the terminals in cell coverage are ready to receive the help signal is transmitted, and the help signal is received from the terminals in the cell coverage. And a base station for transmitting a message indicating that the transmission of the help signal is started to the terminal when a message indicating completion of reception of a signal is received. The method of claim 4, wherein The base station requests the terminals in the cell coverage that has accepted the relay request to transmit an EAR (Able Amble), and requests the terminal to scan the emblem transmitted by the terminals in the cell coverage, The terminal may scan the emblem according to the scanning request and determine a target relay terminal according to the scanning result. An apparatus for resetting a communication path of a terminal that is not capable of direct communication with a base station in a wireless cellular communication system, Request relaying to terminals in cell coverage adjacent to the terminal or serving relay terminal, and request transmission of an EAR (amble) to the terminals in cell coverage that have accepted the relay request, and request the terminal to the terminal in cell coverage Base station that requests scanning of the symbols they transmit, And the terminal scanning the emblem according to the scanning request and determining a target relay terminal according to the scanning result.

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