KR101453004B1 - Apparatus and method for sychronization of gsm neighbor cell in mobile communication system - Google Patents

Abstract

The present invention relates to an apparatus and method for acquiring synchronization of cells in an adjacent mobile communication globalization system in a mobile communication system and includes a communication unit for receiving a frequency burst and a synchronization burst and transmitting a transmission gap request message, A transmission gap detecting unit for detecting a transmission gap period preset by the base station in the transmission gap period, and a frequency burst detecting unit for searching and extracting a frequency burst of a GSM (Global System for Mobile Communications) And a control unit for controlling the communication unit to transmit the transmission gap request message including information on the changed transmission gap by calculating a time for which the synchronization burst can be extracted after extracting the frequency burst, A transmission gap request unit And a synchronization extracting unit for extracting the synchronization burst during the changed transmission gap interval, thereby improving the transmission performance of the traffic data by adjusting the occurrence frequency and length of the transmission gap interval.

Synchronization acquisition, Frequency Burst, Synchronization Burst, Transmission Gap,

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus and method for acquiring synchronization of cells in an adjacent mobile communication globalization system in a mobile communication system,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus and method for acquiring synchronization of a cell in an adjacent mobile communication system (GSM: Global System for Mobile Communications) in a mobile communication system, Apparatus and method.

When the 3G mobile communication system is a Serving Cell in an environment where 3G mobile communication system and GSM coexist, it is necessary to acquire and maintain synchronization of neighboring GSM cells in advance in order to prepare for handover to the GSM system. Synchronous acquisition of adjacent GSM cells is performed in two steps of a frequency burst (hereinafter referred to as FB) search and a synchronization burst (SB) detection. The first step, FB search, is a process of finding the position of an FB on a BCCH (Carrier Control Channel) carrier of an adjacent GSM cell. It finds the boundary of an approximate frame of the GSM system, ). The second step, SB detection, is the process of detecting an SB located one frame behind the FB on the BCCH carrier of an adjacent GSM cell, thereby obtaining accurate frame boundaries and acquiring synchronization by reading the frame number. The neighboring GSM cell in which the synchronization has been obtained once performs the SB detection only periodically to maintain synchronization and prepare for handover.

1 is a diagram illustrating a structure of a control channel transmitted from a BCCH carrier of an adjacent GSM cell according to the related art. Referring to FIG. 1, a control channel includes an FCCH (Frequency Correction Channel) frame, an SCH (Synchronization Channel) frame, a BCCH (Broadcast Control Channel) frame, Common Control Channel) frame, and an Idle frame denoted by I. At this time, the FB and SB of GSM are contained in the timeslot 0 of the frames of the SCH indicated by the FCH and the S indicated by the F of the 51-multiframe, respectively.

If the 3G mobile communication system continuously searches for 11 frames in an idle state without being in communication, it can succeed in finding at least one FB, and then acquire synchronization by detecting an SB after 1 frame . However, when the 3G mobile communication system is in the traffic data transmission state, the mobile station should transmit and receive the traffic data in all the intervals, and therefore, it should be used for acquiring synchronization of adjacent GSM cells. In the asynchronous 3G mobile communication system, a compressed mode is defined and used for power measurement and synchronization acquisition and maintenance of adjacent GSM cells in a transmission gap (TG) period.

In the asynchronous 3G mobile communication system, when acquiring or maintaining synchronization using TG, it is impossible to continuously generate TG of 11 frames. Therefore, TG of a specific length is repeatedly generated at a specific cycle. This is called TG Pattern Sequence TGPS "). In this TGPS, there are several patterns depending on the length of the TG and the period of the TG. The base station of the asynchronous 3G mobile communication system needs to acquire and maintain synchronization for the upper six cells having a large power among the lists of neighboring GSM cells. When a GSM cell for synchronous acquisition or synchronization check is generated, the TGPS is transmitted to the terminal . When a base station allocates a TGPS to a terminal, it transmits the starting frame position of the TG, the purpose of the TG, the length of the TG, the period of the TG, and the state of the TG through an upper layer control channel. [Reference Specification: 3GPP TS 25.331, 10.3.6.33 ~ 34] When a base station assigns a specific TGPS to a terminal, the terminal performs FB search and SB detection of each neighboring GSM cell using a specific TGPS, Acquire and maintain. Upon completion of the synchronization acquisition of the GSM cell, the MS delivers the result of the synchronization acquisition to the BS through the upper layer control channel, and the BS transmits to the MS that the TGPS is completed through the TG status information of the upper layer control channel. However, creating a TG in an asynchronous 3G mobile communication system causes a drop in the transmission rate of the traffic data. It is therefore desirable to minimize the TG.

2 is a diagram showing a frame of a GSM system and a frame of an asynchronous 3G mobile communication system according to the related art. Referring to FIG. 2, it can be seen that the frames of the asynchronous 3G mobile communication system and the frames of the GSM system are different in the size of the frame and the size of the time slot included. Therefore, in the 3G mobile communication system, it takes more time to acquire and maintain the synchronization even if the specific period and length intervals are generated for acquisition and maintenance of the neighboring GSM cell during traffic data transmission.

In case of transmitting traffic data in the GSM system, it is possible to acquire synchronization of neighboring GSM cells using an idle frame, and to find FBs in up to 11 idle frames. It is possible to detect the SB in the second idle frame after finding the FB. At this time, the idle frame of the traffic channel is opened in the region where the FB and the SB have the GSM control channel, and fast synchronization acquisition is possible. However, in the 3G mobile communication system, the intervals provided for acquiring and maintaining synchronization of the adjacent GSM cells are not synchronized with the GSM control channel, so that the different segments are overlapped with each other to find the FB and detect the SB, . The transmission performance of traffic data is further degraded as the length of the interval is increased and the number is increased.

3 is a diagram illustrating a process of acquiring a synchronization of a GSM cell adjacent to a conventional mobile communication system in case of traffic transmission in the asynchronous 3G mobile communication system. Referring to FIG. 3, when a specific TGPS is assigned by a base station in order to acquire synchronization of an adjacent GSM cell in traffic transmission of an asynchronous 3G mobile communication system, the terminal generates a TGPS from a designated frame and starts searching for an FB of a GSM control channel. If FB finds the FB in the TG that is completely in the TG, FB search is performed whenever the TG occurs in the cycle and length defined by TGPS. If FB finds FB, it stops FB search and starts SB detection. Wait until the full TG in the SB is detected. If the SB is detected, the base station is notified that the synchronization has been obtained, the SB detection is stopped, and if the base station notifies the terminal of the end of the TGPS, the TGPS is stopped. If the SB detection fails, the asynchronous 3G mobile communication system continues to generate the TG of the TGPS until the SB succeeds.

It is an object of the present invention to provide an apparatus and method for acquiring synchronization of cells of a heterogeneous network such as GSM in a mobile communication system.

It is another object of the present invention to provide an apparatus and method for acquiring synchronization of cells of a heterogeneous network such as GSM, which are adjacent to each other, in traffic transmission in a mobile communication system.

It is another object of the present invention to provide a method and apparatus for detecting a synchronization burst in a transmission gap in a transmission gap in a mobile communication system by calculating a transmission gap interval for detecting a synchronization burst, And to provide an apparatus and method for acquiring synchronization of cells of a cell.

According to an aspect of the present invention, a terminal of a third generation mobile communication system for acquiring synchronization of an adjacent mobile communication globalization system cell includes a frequency burst and a synchronization burst, A transmission gap detection unit for detecting a transmission gap period preset by the base station in a traffic interval and a transmission gap detection unit for detecting a transmission gap interval between adjacent transmission globalization systems System for Mobile Communications); and a control unit for calculating a time for which the synchronization burst can be extracted after extracting the frequency burst to change the transmission gap interval, And transmits the transmission niche request message including information to the base And a synchronization extracting unit for extracting the synchronization burst during the changed transmission gap period.

According to a second aspect of the present invention, there is provided a base station of a third generation mobile communication system for controlling transmission gap, comprising: a communication unit for transmitting or receiving traffic data and receiving a transmission gap request message; A gap request receiver for acquiring information on a changed transmission gap interval in the transmission gap request message received through the communication unit; and a control unit for limiting the traffic interval based on the transmission gap interval acquired from the gap request receiver, And a transmission clearance processing unit for generating a changed transmission clearance interval.

According to a third aspect of the present invention, there is provided a method for acquiring synchronization of a cell of an adjacent mobile communication globalization system in a terminal of a third generation mobile communication system, the method comprising: (BS) of a mobile communication system, the method comprising the steps of: checking a transmission gap of a cell in a transmission gap period; searching and extracting a frequency burst of a GSM cell adjacent to the transmission gap period; And transmitting the transmission gap request message including information on the changed transmission gap to the base station; and transmitting the transmission gap message to the base station during the changed transmission gap interval, And acquiring the synchronization information.

According to a fourth aspect of the present invention, there is provided a method of adjusting a transmission gap in a base station of a third generation mobile communication system, the method comprising: receiving a transmission gap request received from a terminal in a traffic section for transmitting or receiving traffic data; Acquiring information on a changed transmission gap period in the message, and generating the changed transmission gap period by limiting a traffic period based on the changed transmission gap period.

As described above, the present invention provides a communication system including a communication unit for receiving a frequency burst and a synchronization burst and transmitting a transmission gap request message, a transmission gap for confirming a predetermined transmission gap period in the traffic period, A frequency extracting unit for searching for and extracting a frequency burst of an adjacent GSM cell during the transmission gap period; and a control unit for calculating a next transmission gap interval by extracting the frequency burst, A transmission gap request unit for transmitting the transmission gap request message including information on the calculated transmission gap to the base station through the communication unit; and a synchronization extracting unit for extracting the synchronization burst during the calculated transmission gap interval In a mobile communication system having a terminal Relates to a synchronization acquiring apparatus and method of the cell of the communication global system, there is an effect to increase the transmission efficiency of the traffic data by adjusting the frequency and length of the transmission gap period.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Further, if it is determined that the gist of the present invention may be unnecessarily blurred, detailed description thereof will be omitted.

The present invention relates to an apparatus and method for acquiring synchronization of cells of a heterogeneous network such as GSM, which are adjacent to each other in a traffic transmission in a mobile communication system, and an apparatus of the present invention will be described below with reference to FIG.

FIG. 4 is a diagram illustrating a configuration of a mobile communication system for acquiring synchronization of cells of a heterogeneous network, such as a neighboring GSM, during traffic transmission according to a preferred embodiment of the present invention. Referring to FIG. 4, the terminal 400 of the asynchronous 3G mobile communication system includes a control unit 402, a memory 404, a communication unit 406, a transmission gap confirmation unit 408, a frequency extraction unit 410, And a synchronization extraction unit 414. The base station 450 includes a control unit 452, a communication unit 454, a transmission gap processing unit 456, and a gap request reception unit 458 .

The memory 404 of the terminal 400 includes a program for controlling the overall operation of the terminal 400 and an application program and data for storage An SMS message, a compressed image file, a moving image, and the like), and also stores a period of a predetermined transmission gap received from the base station 450.

The communication unit 406 of the terminal 400 performs despreading and channel decoding of a received signal by lowering a frequency of a radio frequency signal received through an antenna when receiving the signal, The data is channel-coded and spread, the frequency is increased and transmitted through the antenna, and the control unit 402 controls the transmission gap (TG) And receives a frequency burst (hereinafter referred to as FB) and a synchronization burst (hereinafter referred to as SB).

The transmission clearance confirmation unit 408 of the terminal 400 checks the transmission gap established by the base station 450 and confirms the start and end of the transmission gap period in the traffic interval. The frequency extracting unit 410 of the terminal 400 detects a frequency burst by searching for a frequency burst of an adjacent GSM cell during a transmission gap period by checking the transmission gap interval through the transmission gap confirmation unit 408. [

The transmission gap requesting unit 412 of the terminal 400 calculates a time for detecting a synchronization burst when a frequency burst is detected by the frequency extracting unit 410 and calculates an appropriate transmission gap interval for detecting a synchronization burst And requests the base station 450. The transmission gap request information to be transmitted to the BS 450 is a frame and a slot number of a mobile communication system in which a transmission gap should be generated, and if necessary, a transmission gap length is also sent. The frame and the slot number can be obtained by estimating the time at which the synchronization burst is located in the mobile communication system based on the position of the frequency burst of the cell of the heterogeneous network such as the adjacent GSM. The length of the transmission gap is set in consideration of the length of the synchronization burst from the start time of the transmission gap, the hardware preparation time for receiving the synchronization burst, and the hardware preparation time for receiving traffic after the transmission gap ends. The transmission gap request information may be transmitted to a control channel responsible for a measurement report of a neighboring cell and a serving cell.

The synchronization extracting unit 414 of the MS 400 searches for and extracts synchronization bursts of adjacent GSM cells in the calculated transmission gap interval calculated by the transmission gap requesting unit 412 to acquire synchronization.

The control unit 402 controls the transmission gap confirmation unit 408, the frequency extraction unit 410, the transmission gap request unit 412 and the synchronization extraction unit 414. That is, the control unit 402 may perform the functions of the transmission gap confirmation unit 408, the frequency extraction unit 410, the transmission gap request unit 412, and the synchronization extraction unit 414. In the present invention, these are separately constructed and described in order to describe each function separately. Therefore, when the actual product is implemented, all of them may be processed by the control unit 402, or only a part of them may be processed by the control unit 402. [

The communication unit 454 of the BS 450 demodulates a radio frequency signal received through the antenna and despreads the received signal and transmits the despreaded signal to the BS 450. [ Channel decoding and spreading the data, transmitting the data through the antenna, and transmitting the data through the antenna through the control channel according to the present invention. 400). ≪ / RTI >

The clearance request receiving unit 458 of the BS 450 calculates a transmission clearance interval to request a transmission gap request from the terminal 400 and provides the calculated transmission clearance interval to the transmission clearance processor 456 do.

The transmission gap processor 456 of the base station 450 sets a transmission gap period of the terminal 400 and provides the transmission gap period to the terminal 400 to control transmission of traffic data in a transmission clearance interval, Upon receipt of the calculated transmission gap interval requested by the terminal 400 from the gap request receiving unit 458, control is performed to restrict transmission of traffic data in the calculated transmission gap interval.

The control unit 452 controls the transmission gap processing unit 456 and the gap request receiving unit 458. That is, the control unit 452 may perform the functions of the transmission gap processing unit 456 and the gap request receiving unit 458. In the present invention, these are separately constructed and described in order to describe each function separately. Therefore, when realizing a product, all of them may be processed by the control unit 452, or only a part of them may be processed by the control unit 452. [

FIG. 7 is a diagram illustrating a process of acquiring a cell of a heterogeneous network, such as GSM, adjacent to a mobile communication system in a mobile communication system according to an exemplary embodiment of the present invention. Referring to FIG. 7, when a specific TGPS is assigned by a base station in order to acquire cell synchronization of a heterogeneous network such as an adjacent GSM in traffic transmission of a mobile communication system, the terminal generates a TGPS from a designated frame and searches for an FB of a GSM control channel . If FB finds the FB in the TG that is completely in the TG, FB search is performed whenever the TG occurs in the cycle and length defined in the TGPS. If FB finds the FB, the FB search stops and SB detection starts. The SB is detected by using the calculated TG having the length required for detecting the SB, which occurs at the position necessary for detecting the SB. Therefore, it is possible to eliminate the occurrence of waste TG without detecting SB.

Hereinafter, a method of acquiring synchronization of cells of a heterogeneous network such as GSM adjacent to the mobile communication system according to the present invention will be described with reference to the drawings.

5 is a flowchart illustrating a process of acquiring synchronization of a cell of a heterogeneous network such as a neighboring GSM during a traffic interval in a mobile communication system according to an exemplary embodiment of the present invention. Referring to FIG. 5, in step 500, the terminal 400 proceeds to step 502 to check whether or not a transmission gap interval is started. If it is determined that the transmission gap interval is not 500 Return to the step and perform the traffic interval.

If it is determined in step 502 that the transmission gap interval is detected, the MS 400 proceeds to step 504 to search for frequency bursts of adjacent GSM cells during a transmission gap interval, and proceeds to step 506, Check whether the resultant frequency burst is detected. If the frequency burst can not be detected, the flow returns to step 500 and the traffic interval is performed.

If it is determined in step 506 that the frequency burst of the adjacent GSM cell has been detected, the terminal 400 proceeds to step 508 to calculate a transmission gap interval for detecting a synchronization burst, and proceeds to step 510, A transmission gap calculated through the channel is requested. In step 512, a traffic interval for transmitting or receiving traffic data is performed. In step 514, whether or not the calculated transmission gap interval is started is checked. If it is not the start of the calculated transmission gap interval, the flow returns to step 512 and the traffic interval is performed.

Upon detecting the start of the calculated transmission gap interval, the MS 400 proceeds to step 516 and searches for synchronization bursts of cells of a heterogeneous network such as an adjacent GSM during a transmission gap interval calculated in step 516, It proceeds to step 518 and checks whether the search result synchronization burst of the calculated transmission gap interval is detected. If it is determined that the synchronization burst is not detected, the flow returns to step 512 to perform a traffic interval for transmitting or receiving traffic data, and repeats the process thereafter.

If it is determined in step 518 that the synchronization burst of a cell of a different network such as an adjacent GSM is detected, the terminal 400 acquires synchronization and terminates the algorithm of the present invention.

6 is a flowchart illustrating a process of providing a transmission gap requested by a base station of a mobile communication system according to an exemplary embodiment of the present invention. Referring to FIG. 6, in step 600, the BS 450 checks whether a transmission gap request is received through the control channel from the MS 400 in step 602 during a traffic interval in which traffic data is transmitted or received in step 600 , And upon receipt of the transmission gap request as a result of checking, it proceeds to step 604 to check whether the calculated transmission gap interval is started according to the transmission gap request, and when the calculated transmission gap interval is detected as a result of checking, Proceeds to stop the traffic during the calculated transmission gap interval, and then returns to step 600. [

If it is determined in step 602 that there is no transmission gap request, the BS 450 proceeds to step 608. In step 608, the BS determines whether a transmission gap interval is generated according to a predetermined period. If the transmission gap interval does not occur, The flow returns to step 600 and a traffic interval is performed.

Upon detecting the start of the transmission clearance interval of the predetermined period as a result of the checking in step 608, the BS 450 stops the traffic during the transmission clearance interval of the predetermined period in step 610, I'm going back.

Meanwhile, in the embodiment of the present invention, the frequency acquisition and the synchronization acquisition between the mobile communication system, particularly the asynchronous system and the GSM system have been described, but the present invention can be applied to other systems having the above-mentioned characteristics, for example, OFDM and OFDMA It is an obvious fact.

In other words, there can be many other ways in which the invention may be practiced without departing from the scope of the following claims.

1 shows a structure of a control channel transmitted from a BCCH carrier of an adjacent GSM cell according to the prior art,

FIG. 2 is a diagram showing a frame of a GSM system and a frame of an asynchronous mobile communication system according to the prior art,

FIG. 3 is a diagram illustrating a process of acquiring synchronization of adjacent GSM cells when traffic is transmitted in an asynchronous mobile communication system according to the related art;

4 is a diagram illustrating a configuration of an asynchronous mobile communication system for acquiring synchronization of adjacent GSM cells during traffic transmission according to a preferred embodiment of the present invention;

FIG. 5 is a flowchart illustrating a process of acquiring synchronization of an adjacent GSM cell during a traffic interval in a terminal of an asynchronous mobile communication system according to a preferred embodiment of the present invention. FIG.

6 is a flowchart illustrating a process of providing a transmission gap requested by a base station of an asynchronous mobile communication system according to an exemplary embodiment of the present invention,

7 is a view illustrating a process of acquiring a synchronization of a GSM cell adjacent to a mobile station in a case of traffic transmission in an asynchronous mobile communication system according to a preferred embodiment of the present invention.

Claims (22)

A terminal of a mobile communication system for acquiring synchronization of adjacent mobile communication globalization system cells, A communication unit which receives a frequency burst and a synchronization burst and transmits a transmission gap request message; A transmission gap check unit for checking a transmission gap period set by the base station in a traffic interval, A frequency extracting unit for searching for and extracting a frequency burst of a cell of an adjacent heterogeneous network during the transmission gap interval; A control unit configured to control the transmission interval request to transmit the transmission gap request message including information on the changed transmission gap to the base station through the communication unit after calculating the time for which the synchronization burst can be extracted after extracting the frequency burst, A transmission gap request unit, And a synchronization extracting unit for extracting the synchronization burst during the changed transmission gap period. delete The method according to claim 1, The transmission niche requesting unit, And transmits the transmission gap request message to the base station through a control channel. The method according to claim 1, The transmission niche request message includes: A slot number, and information on a length of a next transmission gap, the frame to which the next transmission gap should be generated, the slot number, and the length of the next transmission gap. 5. The method of claim 4, The length of the transmission gap may be, A length of the synchronization burst, a hardware preparation time for receiving the synchronization burst, and a hardware preparation time for receiving traffic after the transmission gap is finished. 1. A base station of a mobile communication system for adjusting a transmission gap, A communication unit for transmitting or receiving traffic data and receiving a transmission gap request message; A gap request receiving unit for obtaining information on a changed transmission gap period in the transmission gap request message received from the terminal through the communication unit; And a transmission gap processor for limiting the traffic interval based on the transmission gap interval acquired by the gap request receiver and generating the changed transmission gap interval. The method according to claim 6, The transmission niche request message includes: Characterized in that it is received from the terminal via a control channel. The method according to claim 6, The transmission niche request message includes: A slot number, and information on a length of a next transmission gap, the frame to which the next transmission gap should be generated, the slot number, and the length of the next transmission gap. 9. The method of claim 8, The length of the transmission gap may be, A length of a synchronization burst, a hardware preparation time for the terminal to receive the synchronization burst, and a hardware preparation time for the terminal to receive traffic after the transmission gap is completed. A method for acquiring synchronization of a cell of an adjacent mobile communication globalization system in a mobile communication system terminal, Determining a transmission gap period preset by a base station in a traffic interval, Searching for and extracting a frequency burst of a neighboring Global System for Mobile Communications (GSM) cell during the transmission gap period; Calculating a time for which a synchronization burst can be extracted after extracting a frequency burst to change the transmission gap section; Transmitting the transmission gap request message including information on the changed transmission gap to a base station; And extracting the synchronization burst during the changed transmission gap period to obtain synchronization. delete 11. The method of claim 10, And transmitting the transmission gap request message to the base station, And transmitting the transmission gap request message to the base station through a control channel. 11. The method of claim 10, The transmission niche request message includes: And information about a frame and a slot number at which a next transmission gap should be generated. 11. The method of claim 10, The transmission niche request message includes: And information on the length of the next transmission gap. 15. The method of claim 14, The length of the transmission gap may be, A length of the synchronization burst, a hardware preparation time for receiving the synchronization burst, and a hardware preparation time for receiving traffic after the transmission gap is finished. A method for adjusting transmission gap in a base station of a mobile communication system, Acquiring information on a changed transmission gap period in a transmission gap request message received from a terminal in a traffic period in which traffic data is transmitted or received; And generating the changed transmission clearance interval by limiting a traffic interval based on the changed transmission clearance interval. 17. The method of claim 16, The transmission niche request message includes: Characterized in that the transmission gap is characterized in that it is received from the terminal via a control channel. 17. The method of claim 16, The transmission niche request message includes: And information about a frame and a slot number in which a next transmission gap should be generated. 19. The method of claim 18, The transmission niche request message includes: And information about a length of a next transmission gap. 20. The method of claim 19, The length of the transmission gap may be, Wherein the terminal includes a length of a synchronization burst, a hardware preparation time for the terminal to receive the synchronization burst, and a hardware preparation time for the terminal to receive traffic after the transmission gap is completed. How to. delete delete

Images