KR101397095B1 - Handover apparatus in wireless communication system and method thereof - Google Patents

Abstract

In a wireless communication system, a mobile station transmits a handover request message to a serving base station, receives a handover command message from the serving base station, and performs handover from the serving base station to the serving base station Performs a physical channel change to the target base station, allocates a fast ranging resource from the target base station at the time of completing the physical channel change, and performs ranging with the target base station using the allocated high-speed ranging resource .

Handover break time, Mobile station, Serving base station, Target base station

Description

TECHNICAL FIELD [0001] The present invention relates to a handover apparatus and method in a wireless communication system,

1 is a flowchart illustrating a message flow for a handover procedure of a conventional wireless communication system

2A and 2B are flowcharts of a handover message according to the first embodiment of the present invention.

FIGS. 3A and 3B are flowcharts of a handover message according to the second embodiment of the present invention.

4 is a flowchart of a handover procedure performed by a mobile station according to an embodiment of the present invention.

5 is a flowchart of a handover procedure performed by the target base station according to the embodiment of the present invention.

6 is a time flow diagram of a handover procedure of a conventional wireless communication system

FIG. 7 is a timing diagram of a handover procedure of a wireless communication system according to an embodiment of the present invention.

8 is a graph showing a simulation result of a handover break time according to an embodiment of the present invention

The present invention relates to a wireless communication system, and more particularly, to a handover apparatus and method.

Generally, in a wireless communication system, a mobile station can perform a handover from a serving base station currently receiving a service to another target base station. When the mobile station performs handover, a handover break time occurs. The handover break time means a time when the mobile station is not provided with a service. The handover procedure and the handover break time of the conventional mobile station will now be described with reference to FIG.

1 is a diagram illustrating a handover procedure in a conventional wireless communication system.

1, a mobile station (MS) 110 transmits a mobile station handover-request (MSHO-REQ) message to a serving base station (SBS) 120 (Step 152). The MS 110 receives a BSHO-RSP (Base Station Handover-Response) message from the serving BS 120 (operation 154). Upon receiving the BSHO-RSP message, the MS 110 transmits a Handover-Indication (HO-IND) message indicating the start of the handover to the serving BS 120 in operation 156. Upon receiving the HO-IND message, the serving base station 120 informs the target base station 130 that the mobile station 110 is to perform handover to the target base station 130 (158) step). The target BS 130 transmits a Fast Ranging IE (Information Element) to the MS 110 in order to transmit a ranging-request message (RNG-REQ) (Step 160). Then, the mobile station 110 transmits an RNG-REQ message to the target BS 130 in a transmission interval recognized through the reception of the HS-RNs IE (step 162). In response, the target BS 130 transmits a Ranging-Response (RNG-RSP) message to the MS 110 (operation 164).

As described above, the target BS 130 can transmit the information element for the fast ranging only after the MS 110 recognizes from the serving BS 120 that the MS 110 will hand over to the MS 110 . Accordingly, after the mobile station 110 has an action time from the time of transmitting the HO-IND message to the time of receiving the HS-RNs IEs, Can be performed. That is, the mobile station can not transmit or receive data during the active time and the handover break time, which means time until the ranging procedure is completed. Therefore, a method for minimizing the handover break time is needed.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a system and method for minimizing a handover break time by allowing a base station to have a final right for a handover command in a wireless communication system. And methods.

A method according to an embodiment of the present invention comprises: A method for performing a handover of a mobile station in a wireless communication system, the method comprising: transmitting a handover request message to a serving base station; receiving a handover command message from the serving base station; Performing a physical channel change from the serving base station to a target base station to be handed over from the serving base station to the target base station at a point of time when the physical channel change is completed; And performing ranging with the target BS using a ging resource.

Another method according to an embodiment of the present invention comprises: A method for supporting handover of a serving base station in a wireless communication system, the method comprising: receiving a handover request message from a mobile station; performing communication for determining a transmission time point of a fast ranging information element with a target base station; And transmitting a handover command message to the mobile station when information on a transmission time point of the HS-RAN is received from the base station.

Another method according to an embodiment of the present invention comprises: A method for supporting handover of a target base station in a wireless communication system, the method comprising the steps of: performing communication for determining a transmission time point of a serving base station and a fast ranging information element; The method includes the steps of transmitting information on a transmission time point of a fast ranging information element to the serving base station by transmitting the fast ranging information element to the mobile station at a transmission time of the fast ranging information element, And performing ranging with the mobile station using the allocated high-speed ranging resource.

An apparatus according to an embodiment of the present invention includes: A mobile station in a wireless communication system, the mobile station comprising: a transmitter for transmitting a handover request message to a serving base station; a receiver for receiving a handover command message from the serving base station; A physical channel change is performed to a target base station to be overrun, a high-speed ranging resource is allocated from the target base station at the time of completing the physical channel change, and a ranging resource is allocated to the target base station And a control unit for performing a control operation.
Another apparatus according to an embodiment of the present invention includes: In a serving base station in a wireless communication system, a serving base station performs communication for determining a transmission time point of a fast ranging information element with a target base station by controlling a transmitting unit, a receiving unit for receiving a handover request message from a mobile station, and a transmitting unit and a receiving unit. And a controller for transmitting the handover command message to the mobile station through the transmitter when information on a transmission time point of the HS-RAN is received from the target BS.
Another apparatus according to an embodiment of the present invention includes: A target base station in a wireless communication system performs communication for determining a transmission time point of a fast ranging information element with a transmitter, a receiver, and a serving base station, and when a transmission time point of the fast ranging information element is determined, And transmits the information on the transmission time point of the HS-RAN to the serving BS, and transmits the HS-RAN to the serving BS by transmitting the HS-RAN to the MS, And a controller for assigning the ranging resource to the mobile station and performing ranging with the mobile station using the allocated high-speed ranging resource.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, only parts necessary for understanding the operation of the present invention are described, and other background techniques are omitted so as not to disturb the gist of the present invention.

The present invention proposes an apparatus and method for minimizing a handover break time in a wireless communication system.

2A and 2B are flowcharts of a handover message according to the first embodiment of the present invention.

Referring to FIG. 2A, a mobile station (MS) 210a transmits a mobile station handover request (MSHO-REQ) to a serving base station (SBS) 220a (252a step). The serving base station 220a transmits an authentication key request and allocation of the mobile station to the target base station 230a (TBS) and context information of the mobile station through a backbone message (step 254a ). Upon receiving the backbone message, the target BS 230a transmits to the serving BS 220a whether a fast ranging IE (Information Element) can be transmitted to the MS 210a at a specific point in time ) (Step 256a). Then, the serving base station 220a transmits a final handover-command (HO-CMD) message to the mobile station 210a (step 258a). Herein, the handover-command message includes an identifier of the selected target base station 230a so that the mobile station 210a can perform handover from the serving base station 220a to the target base station 230a. The handover-command message is described under the assumption that it includes the identifier of the selected target base station. At this time, the time point at which the mobile station 210a receives the handover command message means a time point meaning that the time required until the physical channel change of the mobile station is completed is considered. For example, it is assumed that the target base station 230a decides to transmit the HS-RAN on the (n + 10) th frame and notifies the serving base station 220a of the determination. It is assumed that the time required until the mobile station 210a performs the physical channel change is two frames. Then, the serving BS 220a transmits the HO-CMD message in the (n + 8) th frame.

After receiving the HO-CMD message, the mobile station 210a performs a physical channel change (phy switching) for physically changing the channel of the target base station in the channel of the serving base station. The physical channel operation, i.e., the action time, of the mobile station 210a is completed upon receipt of the fast ranging information element from the target base station. At this time, the completion time can be at least 2 frames. As shown in FIG. 1, the active time exceeds two frames because the target base station 130 can not transmit the fast ranging information element to the mobile station 110 quickly.

After the physical channel change, the mobile station 210a decodes the MAP information received from the target BS 230a and allocates the fast ranging information element in step 260a. The mobile station 210a transmits a ranging-request (RNG-REQ: Ranging-Request) message to the target BS 230a in a transmission interval allocated to the HS-RNs received from the target BS 230a (Step 262a), and then receives a ranging-response (RNG-RSP) message from the target BS 230a (step 264a).

Referring to FIG. 2B, the mobile station 210a can not receive the HO-CMD message. As shown in FIG. 2A, steps 252a to 256a correspond to steps 252b to 256b of FIG. 2B, respectively, and a description thereof will be omitted.

If the mobile station 210b does not receive the HO-CMD message (step 258b), the mobile station 210b does not transmit the RNG-REQ message. Therefore, the target base station 230b does not receive the RNG-REQ message from the mobile station 210b after the assignment of the fast ranging resource. The target BS 230b negotiates a retransmission time point of the fast ranging IE with the serving BS 220b, and notifies the negotiated retransmission time to the serving BS 220b (step 260b). Then, the serving BS 220b retransmits the HO-CMD message to the MS 210b (step 262b). As described above with reference to FIG. 2A, in FIG. 2B, the time point at which the mobile station 210b re-receives the HO-CMD message refers to a viewpoint in which the time required for completing the physical channel change of the mobile station is considered. Accordingly, upon receiving the HO-CMD message, the mobile station 210b performs physical channel switching after a point of time previously agreed upon by the target BS and the serving BS.

Since the step 264b of receiving the ranging information element after the physical channel change and the step 268b of receiving the ranging response message correspond to the steps 260a to 264a of FIG. 2a, respectively , And a description thereof will be omitted.

FIGS. 3A and 3B illustrate a second embodiment for reducing an increase in handover break time in response to a transmission failure of an HO-CMD message. The HO-CMD message HO- CMD ACK) message.

Referring to FIG. 3A, the serving base station 320a transmits a HO-CMD message to the mobile station 310a (step 358a). At this time, the time point at which the MS 310a receives the handover command message includes a time point (HO-CMD ACK timeout) for transmitting a handover command ACK message and a time until completion of the physical channel change of the MS And the time when they are added together. For example, it is assumed that the target base station 330a determines to transmit the HS-RAN on the (n + 13) th frame and notifies the serving base station 320a of the determination. It is assumed that the time set to transmit the handover command ACK message is three frames, and the time required until the mobile station 310a performs the physical channel change is two frames. Then, the serving base station 320a transmits the HO-CMD message in the (n + 8) th frame.

 When the MS 310a successfully receives the HO-CMD message, the MS 310a transmits the HO-CMD ACK message to the serving BS 320a within a time set to transmit the HO-CMD ACK message And transmits an HO-CMD ACK message (step 360a). Here, the serving base station 320a supports the normal service to the mobile station 310a until the HO-CMD ACK message is received from the mobile station. Therefore, the handover break time is from the time point when the mobile station 310a transmits the HO-CMD ACK message (step 360a) to the time point when the mobile station 310a receives the ranging-response message (step 366a).

The mobile station 310a performs a physical channel change from the serving base station 320a to the target base station 330a after a time set to transmit the HO-CMD ACK message has elapsed. The mobile station 310a receives the fast ranging information element from the target base station 330a (step 362a). Therefore, since the active time is the estimated time required until the target base station 330a allocates the HS-RNs to the MS 310a, the active time is shorter than the time set to transmit the HO-CMD ACK message, It is the sum of the channel change times.

Thereafter, the mobile station 310a performs a ranging procedure with the target base station 330a (steps 364a and 366a). Here, the target BS 330a may transmit the HS-RAS information element regardless of whether the serving BS 320a has successfully received the HO-CMD ACK message.

Referring to FIG. 3B, steps 352b to 356b of FIG. 3B correspond to steps 352a to 356a of FIG. 3A, respectively, and thus detailed description thereof will be omitted.

If the mobile station 310b fails to receive the HO-CMD message from the serving base station 320b in step 358b, the serving base station 320b transmits the HO-CMD ACK message from the mobile station 310b The UE does not receive the HO-CMD ACK message within the time set for the HO-CMD ACK message. Accordingly, the serving base station 320b must retransmit the HO-CMD message. In this case, the serving BS 320b may negotiate with the target BS 330b when retransmitting the HO-CMD message. However, unlike the above, the serving BS 320b and the target BS 330b negotiate HO-CMD messages and high-speed ranging information elements at a point in time when a high-speed ranging IE is retransmitted in advance. To the mobile station 310b.

For example, in case the mobile station can not receive the handover command message, the target base station determines to transmit the fast ranging information element in step 364b from the n + 12th frame to the mobile station, It is assumed that the base station is notified. In this case, the time point set to transmit the HO-CMD ACK message is 2 frames, the time from the time when the HO-CMD ACK message is set to be transmitted to the time when the mobile station receives the new handover command message, The mobile station transmits the handover command acknowledgment message to the serving base station from the time when the mobile station retransmits the handover command acknowledgment message to the serving base station from the time point of receipt of the handover command message until the mobile station retransmits the handover command acknowledgment message, It is assumed that three frames are received until the information ranging information element is received. Then, in step 356b, the target BS and the serving BS negotiate to transmit the HS-RN on the (n + 2) th frame, and report the result of the negotiation to the serving BS. Accordingly, the serving BS and the target BS may transmit the HO-CMD message and the fast ranging information element to the mobile station, respectively, based on the negotiated setting time.

The subsequent steps (steps 360b to 368b) correspond to the steps 358a to 366a, respectively, as shown in FIG. 3A, and thus a detailed description thereof will be omitted.

FIG. 4 is a flowchart illustrating a process of handover of a mobile station according to an embodiment of the present invention.

Referring to FIG. 4, in step 410, the mobile station transmits an MSHO-REQ message and proceeds to step 420. FIG. In step 420, the MS determines whether the HO-CMD message is received from the serving BS. As a result of the determination, if the HO-CMD message is received, step 430 is performed. If the HO-CMD message is not received, the process proceeds to step 420.

Here, if a system using the HO-CMD ACK message is implemented to further shorten the handover break time, the mobile station determines whether the HO-CMD ACK message can be transmitted to the serving BS in step 430 . If the MS can transmit an HO-CMD ACK message to the serving BS, the MS proceeds to step 440, and the MS transmits an HO-CMD ACK message to the serving BS. On the other hand, if the mobile station can not transmit the HO-CMD ACK message, the mobile station proceeds to step 450.

In step 450, the mobile station receives a fast ranging information element from the target base station at a preset time in the target base station. In step 460, the MS transmits an RNG-REQ message to the target BS. In step 470, the MS receives an RNG-RSP message from the target BS.

5 is a flowchart illustrating a handover of a target BS according to an embodiment of the present invention.

Referring to FIG. 5, in step 510, the target BS receives an authentication key request and assignment of the MS, and context information of the MS from the serving BS.

In step 520, the target BS notifies the serving BS of when to transmit the fast ranging IE, and then proceeds to step 530.

Here, if a system using the HO-CMD ACK message is implemented to further shorten the handover break time, the target BS determines in step 530 whether the information on the H0-CMD ACK message is received from the serving BS . If no information regarding the HO-CMD ACK message is received as a result of the determination, the process proceeds to step 540. In step 540, the target BS transmits a fast ranging IE to the MS at a preset time. Otherwise, if the target BS has received information on the HO-CMD ACK message, i.e., that the HO-CMD ACK message has failed, the process proceeds to step 570. In step 570, the target BS retransmits the transmission time point of the fast ranging IE to the serving BS, and then proceeds to step 530.

In step 550, the target BS determines whether an RNG-REQ message is received from the MS. If the target BS receives an RNG-REQ message from the MS, the target BS transmits an RNG-RSP message to the MS in step 560. Otherwise, if the RNG-REQ message is not received, step 570 is performed again.

6 is a time chart illustrating a handover procedure in a conventional wireless communication system.

6, a handover procedure in a wireless communication system is performed with a mobile station 610, a serving base station 620, and a target base station 630. The handover procedure is performed from the serving gateway 630 to an authenticator (step 657 and step 658) of the backbone message flow for messages transmitted and received between the gateway (AGW) 650 and the gateway (AGW) 650. In step 652 to step 664, the handover entry is prepared in the wireless communication system. Since this is not related to the present invention, a detailed description thereof will be omitted. Here, the serving BS 620 may be included in a serving gateway (SGW) 630 and is described on the assumption that the MS 610 has successfully received a handover response message.

The MS 610 receives a Base Station Handover-Response (BSHO-RSP) message from the serving BS 620, which has received a Handover-Response (HO-RSP) message 666). The serving base station 620 then transmits a handover ACK message to the target BS 640 through the serving gateway 630 (steps 668 and 670). Then, the MS 610 transmits a MOB_HO-IND message to the serving BS 620 (step 672). The serving BS 620 transmits a HO Confirm message to the target BS 640 through the serving gateway 630 (steps 674 through 676). In response, the target BS 640 transmits a handover ACK message to the serving BS 620 through the serving gateway 630 (steps 678 to 680). The target base station 640 transmits and receives a path re- sponse response and a request (Path Reg Req, Path Reg RSP, Path Reg Ack) message to and from the serving gateway 630 (steps 681 through 683). The MS 610 transmits a ranging request message to the target BS 640 in step 684. The target BS 610 transmits a path ranging response and a request message to the serving gateway 630, (Steps 685 to 687). In step 688, the target BS 640 in response transmits the ranging response message to the MS 610. In the present invention, the steps (steps 666 to 680) in the rectangle can be replaced by one HO-CMD message. Therefore, it is possible to minimize the handover delay time due to message transmission / reception. 7 is a time chart illustrating a handover procedure according to an embodiment of the present invention.

7, the MS 710 transmits an MSHO-REQ message to the serving BS 720 in step 752. The serving BS 720 receives the MSHO-REQ message from the serving BS 720 through a Serving Gateway (SGW) (HO-REQ: Handover-Request) message to the target BS 730 (steps 754 to 756). Here, the serving BS 720 may include the serving gateway 730.

The target BS 740 receiving the HO-REQ transmits a Context Request message to the serving gateway 730 in step 758. In response, the serving gateway 730 transmits a context request message to an authenticator gateway 750 and receives a context response message (steps 760 to 762) And transmits a context response message to the target BS 740 (step 764).

The serving gateway 730 requests data path registration to the target base station 740 to change the data path of the mobile station 710 to the target base station 740 in operation 766. The serving gateway 730 transmits a response to the data path registration request to the target BS 740 (step 768). The serving gateway 730 receives a data path registration acknowledgment message from the target base station in step 770 and the serving gateway 730 changes the data path to the target base station 740.

Thereafter, the target BS transmits a handover response message to the serving BS 720 through the serving gateway 730 (steps 772 through 774). The serving BS 720 transmits an HO-CMD message to the MS 710 (step 776). Thereafter, when the mobile station 710 performs a physical channel change, the mobile station 710 receives a fast ranging information element based on a specific time point set in the target base station 740 from the target base station 740 778).

Finally, the MS 710 having received the HS-RNs transmits and receives a ranging-request and ranging-response to the target BS 740 to perform a handover success procedure (steps 780 to 782 step).

Here, although FIG. 7 shows the flow only to the first embodiment, it should be noted that the second embodiment is also possible as it is shown for convenience. 6 may be implemented in the HO-CMD message step by having the serving BS 720 have a final command message so that the mobile station 710 and the base station 720, The handover break time generated in the handover procedure can be minimized.

FIG. 8 is a simulation result of a total handover break time for a case of using a conventional wireless communication system, using HO-CMD, and using HO-CMD ACK in addition to HO-CMD.

Referring to FIG. 8, in the conventional wireless communication system, it is assumed that the time from transmission of the HO-IND message to transmission of the high-speed ranging information element is 10 frames. If the HO-CMD message fails, I assume it takes 10 frames to recognize. In addition, it is assumed that the HO-CMD ACK timeout takes 3 frames until the HO-CMD ACK timeout is 3 frames, and the HO-CMD ACK message is retransmitted after the HO-CMD ACK timeout. As a result of the simulation, when the HO-CMD message is used, the handover break time is shorter than that in the case of using the HO-IND message due to the optimized time allocation. In addition, when the HO-CMD ACK message is used together, the handover break time can be minimized by shortening the handover break time that occurs when transmission of the HO-CMD message fails.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but is capable of various modifications within the scope of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims, and equivalents thereof.

As described above, the present invention has an advantage of providing an improved service by minimizing a service disconnection time due to a handover to a mobile station in a wireless communication system.

Claims (42)

A method for a mobile station to perform a handover in a wireless communication system, Transmitting a handover request message to a serving base station; Receiving a handover command message including an identifier of a target base station to be handed over from the serving base station; Performing a physical channel change from the serving base station to the target base station from the time of receiving the handover command message; Receiving a high-speed ranging resource from the target BS at a time of completing the physical channel change; And performing ranging with the target BS using the allocated high-speed ranging resource. delete The method according to claim 1, And transmitting a handover command ACK message indicating that the handover command message is received to the serving BS after receiving the handover command message. The method according to claim 1, Wherein the time point at which the MS receives the handover command message is a time when a time required until the physical channel change of the MS is completed is considered. The method of claim 3, The first time interval including the time interval from the reception of the handover command message to the reception of the high-speed ranging resource may include transmitting the handover command acknowledgment message from the time of receiving the handover command message And a third time interval including a time interval from a time point at which the handover command acknowledgment message is set to be transmitted to a time point at which the fast ranging resource is allocated, Wherein the handover method is a handover method of a mobile station. The method according to claim 1, Receiving the handover command message from the serving base station when the handover command message is not received from the serving base station; Re-executing the physical channel change from the serving base station to the target base station to be handed over from the time of re-reception of the handover command message; The method comprising the steps of: reallocating the fast ranging resources at a point of time when completing the re- And re-performing ranging with the target BS using the re-allocated high-speed ranging resource. Claim 7 has been abandoned due to the setting registration fee. The method according to claim 6, Further comprising the step of transmitting to the serving BS a handover command acknowledgment (ACK) message informing that the handover command message is re-received after re-receiving the handover command message. . Claim 8 has been abandoned due to the setting registration fee. The method according to claim 6, Wherein the time point at which the mobile station re-receives the handover command message is a time when a time required until the physical channel change of the mobile station is completed is considered. Claim 9 has been abandoned due to the setting registration fee. 8. The method of claim 7, A fourth time interval including a time interval from the time of re-receipt of the handover command message to the time point when the high-speed ranging resource is reallocated may include a handover command acknowledge message from a point in time when the handover command message is re- A sixth time interval including a time interval from the time point at which the handover command acknowledgment message is reset to the time point at which the handover command acknowledgment message is reestablished to the time point at which the fast ranging resource is re- Wherein the mobile station includes a time interval. A method for supporting handover of a serving base station in a wireless communication system, Receiving a handover request message from a mobile station; Performing communication for determining a transmission time point of a target base station and a fast ranging information element; And transmitting a handover command message to the mobile station when the information on the transmission time point of the HS-RNs is received from the target BS. 11. The method of claim 10, Wherein the handover command message includes an identifier of the target BS. 11. The method of claim 10, Further comprising the step of receiving, from the mobile station, a handover command ACK message indicating that the handover command message is received after transmitting the handover command message. . 11. The method of claim 10, Wherein the time of transmitting the handover command message is a time when a time required until the physical channel change of the mobile station is completed is considered. 11. The method of claim 10, Performing a communication to determine a transmission time point of the HS-RAN if the transmission of the handover command message fails; Further comprising the step of retransmitting the handover command message to the MS when the information on the transmission time point of the HS-RNs is re-received from the target BS. Claim 15 is abandoned in the setting registration fee payment. 15. The method of claim 14, Wherein the handover command message includes an identifier of the target BS. Claim 16 has been abandoned due to the setting registration fee. 15. The method of claim 14, Further comprising the step of receiving from the MS a handover command ACK message indicating that the handover command message has been received after retransmitting the handover command message . Claim 17 has been abandoned due to the setting registration fee. 15. The method of claim 14, Wherein the time point of retransmission of the handover command message is a time when a time required until the physical channel change of the mobile station is completed is considered. 15. The method of claim 14, Wherein the step of retransmitting the handover command message to the mobile station further comprises transmitting the handover command message to the mobile station at a retransmission time point of the handover command message determined through communication with the target base station. Wherein the serving base station is a mobile station. A method for supporting handover of a target base station in a wireless communication system, Performing communication for determining a transmission time point of a serving base station and a fast ranging information element; Transmitting the information on the transmission time point of the fast ranging IE to the serving BS when the transmission time point of the HS-RNs IE is determined; Allocating a fast ranging resource to the mobile station by transmitting the fast ranging information element to a mobile station at a transmission time of the fast ranging information element; And performing ranging with the mobile station using the assigned high-speed ranging resource. 20. The method of claim 19, When the mobile station receives information indicating that the handover command message is not received, performing communication again to determine a transmission time point of the serving base station and the fast ranging information element; Transmitting the information on the transmission time point of the determined RRs to the serving BS when the transmission time point of the RRs is determined again; Reallocating the fast ranging resource element to the mobile station by retransmitting the fast ranging information element to the mobile station at a transmission time of the determined fast ranging information element; And performing the ranging with the mobile station using the reallocated high-speed ranging resource. 21. The method of claim 20, Wherein the step of transmitting the information on the transmission time point of the determined high-speed ranging information element to the serving base station comprises the step of transmitting, to the mobile station, the fast ranging information element The method of claim 1, further comprising: transmitting information indicating that an element is to be transmitted to the serving BS. In a mobile station in a wireless communication system, A transmitter for transmitting a handover request message to a serving base station; A receiving unit for receiving a handover command message from the serving base station; Performing a physical channel change from the serving base station to a target base station to be handed over from the time when the handover command message is received, allocating a fast ranging resource from the target base station upon completion of the physical channel change, And a controller for performing ranging with the target base station using the allocated high-speed ranging resources. 23. The method of claim 22, Wherein the handover command message comprises an identifier of the target base station. 23. The method of claim 22, Wherein the transmitter transmits a handover command ACK message indicating that the handover command message is received to the serving base station when the handover command message is received from the serving base station. 23. The method of claim 22, Wherein a time point at which the mobile station receives the handover command message is a time when a time required until the mobile station completes the physical channel change is considered. 25. The method of claim 24, The first time interval including the time interval from the reception of the handover command message to the reception of the high-speed ranging resource may include transmitting the handover command acknowledgment message from the time of receiving the handover command message And a third time interval including a time interval from a time point at which the handover command acknowledgment message is set to be transmitted to a time point at which the fast ranging resource is allocated, And a mobile station. 23. The method of claim 22, The receiving unit re-receives the handover command message from the serving base station when the receiving unit fails to receive the handover command message from the serving base station, The control unit re-performs the physical channel change from the serving base station to the target base station to which the target base station desires to perform handover from the point of time when the handover command message is re-received, and when the re- And re-performs ranging with the target base station using the re-allocated high-speed ranging resource. Claim 28 has been abandoned due to the set registration fee. 28. The method of claim 27, Wherein the transmitter transmits a handover command ACK message indicating that the handover command message is re-received to the serving base station when the handover command message is re-received from the serving base station. Claim 29 has been abandoned due to the setting registration fee. 28. The method of claim 27, Wherein the time point at which the mobile station re-receives the handover command message is a time when a time required until the mobile station completes the physical channel change is considered. Claim 30 has been abandoned due to the set registration fee. 29. The method of claim 28, A fourth time interval including a time interval from the time of re-receipt of the handover command message to the time point when the high-speed ranging resource is reallocated may include a handover command acknowledge message from a point in time when the handover command message is re- A sixth time interval including a time interval from the time point at which the handover command acknowledgment message is reset to the time point at which the handover command acknowledgment message is reset to the time point at which the handover command acknowledgment message is re- Wherein the mobile station further comprises a time interval. In a serving base station in a wireless communication system, A transmitting unit, A receiver for receiving a handover request message from a mobile station; Wherein the control unit controls the transmission unit and the reception unit to perform communication for determining a transmission time point of the fast ranging information element with the target base station and when information on the transmission time point of the fast ranging information element is received from the target base station, And a controller for transmitting the handover command message to the mobile station through the base station. 32. The method of claim 31, Wherein the handover command message includes an identifier of the target BS. 32. The method of claim 31, Wherein the receiver receives a handover command acknowledgment (ACK) message from the mobile station indicating that the handover command message is received after the handover command message is transmitted to the mobile station. 32. The method of claim 31, Wherein the time point at which the handover command message is transmitted is a time point at which the time required until the mobile station completes the physical channel change is considered. 32. The method of claim 31, Wherein when the handover command message fails to be transmitted, the control unit performs communication again to determine a transmission time point of the HS-RAS and the target BS, Wherein the MS retransmits the handover command message to the MS. Claim 36 is abandoned in setting registration fee. 36. The method of claim 35, Wherein the handover command message includes an identifier of the target BS. Claim 37 is abandoned in setting registration fee. 36. The method of claim 35, Wherein the receiver receives a handover command acknowledgment (ACK) message from the mobile station indicating that the handover command message has been received after the handover command message is retransmitted. Claim 38 is abandoned in setting registration fee. 36. The method of claim 35, Wherein the time point at which the mobile station retransmits the handover command message is a time at which the time required until the mobile station completes the physical channel change is considered. 36. The method of claim 35, Wherein the transmitter transmits the handover command message to the mobile station at a retransmission time of the handover command message determined through communication with the target base station. A target base station in a wireless communication system, A transmitting unit, A receiving unit, The base station and the serving base station communicate with each other to determine a transmission time point of the fast ranging information element, and when the transmission time point of the fast ranging information element is determined, To the serving base station, allocating a fast ranging resource to the mobile station by transmitting the fast ranging information element to the mobile station at a transmission time of the fast ranging information element, and using the allocated fast ranging resource And a controller for performing ranging with the mobile station. 41. The method of claim 40, When the mobile station receives information indicating that the mobile station has failed to receive the handover command message from the serving base station, the control unit performs communication again to determine the transmission time point of the fast ranging information element with the serving base station, Wherein when the transmission time point of the high-speed ranging information element is determined again, information on a transmission time point of the determined high-speed ranging information element is transmitted to the serving base station, Allocating the high-speed ranging resource to the mobile station by retransmitting the ranging information element to the mobile station, and performing the ranging with the mobile station using the re-allocated high-speed ranging resource. 42. The method of claim 41, The control unit controls the transmitting unit to transmit to the serving BS information indicating that the High-speed ranging information element is to be transmitted to the mobile station at a transmission time point of the High-speed ranging information element determined through communication with the serving base station .

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