KR101584374B1 - METHOD FOR DETERMINING CELL EDGE AREA AND REDUCING INTERFERENCE IN COMMUNICATION BETWEEN eNodeB AND MOBILE TERMINAL - Google Patents

Abstract

A method for determining a cell boundary area and a method for reducing communication interference are disclosed herein. According to an embodiment, there is provided a mobile communication system including a mobile terminal, a plurality of base stations, a first base station of the plurality of base stations managing the mobile terminal, and a mobile communication terminal including an Evolved Packet Core (EPC) A method for reducing communication interference between a mobile station and a first base station when the mobile station is located in a cell boundary region of the first base station, the method comprising: receiving, by the EPC, Receiving a value; Determining whether the mobile terminal is located in a cell boundary region of the first base station based on the RTT value; And initiating a procedure for the EPC to reduce communication interference between the mobile terminal and the first base station when the mobile terminal is located in a cell boundary region of the first base station.

Cell, CoMP, cooperative transmission and reception method, MIMO, RTT

Description

[0001] METHOD FOR DETERMINING CELL EDGE AREA AND REDUCING INTERFERENCE IN COMMUNICATION [0002] BETWEEN eNodeB AND MOBILE TERMINAL [

The present invention relates to a mobile communication network, and more particularly, to a method for determining a cell boundary region in a mobile communication network and a method for reducing communication interference.

Recently, due to rapid development of communication, computer network and semiconductor technology, not only various services using wireless communication networks are being provided, but also the demands of users are increasing day by day, and the mobile communication technology in the world is increasing explosively to be. Many organizations such as Europe, Japan, USA and China are developing 3GPP (3rd Generation Project Group) to develop international standard technology for these various wireless communication technologies. 3GPP has recently completed the standardization of LTE (Long Term Evolution) system based on new wireless access technology and research on LTE-Advanced system satisfying IMT-Advanced requirement of ITU-R (International Telecommunications Union-Radio) It is progressing.

On the other hand, as the demand for wireless communication service quality increases due to the rapid development of communication environment, there is an increasing need for performance improvement for cell edge users who are experiencing SINR attenuation far away from the base station. Various technologies for improving the communication performance in the cell boundary region have been discussed in the LTE-Advanced system. Among them, Coordinated Multipoint Transmission and Reception (CoMP) technology and Inter-cell Interference Management (ICIM) -Cell Interference Management) technology. The cooperative multi-point transmission / reception technique is a transmission technique cooperating with the base stations to improve the performance of the cell boundary users, and there is a joint transmission scheme in which a plurality of base stations simultaneously transmit data to one terminal. Inter-Cell Interference Management (ICIM) technology is a method of reducing or eliminating the cause of interference by lowering the transmission power of a neighboring cell that causes interference or by switching to another base station, And a method of controlling interference by allocating and allocating transmission and reception resources of a plurality of cells that are separated by geographical distinction.

On the other hand, in a method in which a cooperative multi-point transmission / reception technique such as a joint transmission scheme operates, it is generally determined whether a UE is located in a cell boundary region based on a pathloss measurement between the UE and the BS. However, there may be cases where the path loss measurement value increases in certain RF conditions in addition to the case where the terminal is actually in the cell boundary region. In this case, it is possible to increase the load on the network by generating frequent cooperative multi-point transmission / reception operations.

In addition, in the existing cooperating multi-point transmission / reception technique, the combined transmission scheme is mainly based on the Tx diversity. However, since the improvement of the cell performance is small, a more advanced technique is required.

It is therefore an object of the present invention to provide a method for reducing communication interference including determining whether a mobile station is located in a cell boundary region of a base station based on an RTT value, There is provided a method of applying a combined transmission of a cooperative multi-point transmission / reception technique to a base station and a terminal.

According to an embodiment of the present invention, a method for determining whether a mobile terminal is located in a cell boundary region of a base station is provided. In a mobile communication system including a mobile terminal, a plurality of base stations, a first base station among the plurality of base stations controls the mobile terminal, and an evolved packet core (EPC) coupled to be capable of communicating with the plurality of base stations, A method of determining whether a mobile terminal is located in a cell boundary region of a base station, the method comprising: receiving, by the EPC, a Round Trip Time (RTT) value of the mobile terminal from the first base station; And determining, by the EPC, whether the mobile terminal is located in a cell boundary region of the first base station based on the RTT value.

In one embodiment, a method for reducing communication interference between a mobile terminal and a base station is provided. In a mobile communication system including a mobile terminal, a plurality of base stations, a first base station among the plurality of base stations controls the mobile terminal, and an Evolved Packet Core (EPC) combined to be communicable with the plurality of base stations, The method comprising the steps of: when the EPC detects a round trip time (RTT) value of the mobile station from the first base station, ; Determining whether the mobile terminal is located in a cell boundary region of the first base station based on the RTT value; And initiating a procedure for the EPC to reduce communication interference between the mobile terminal and the first base station when the mobile terminal is located in a cell boundary region of the first base station.

In one embodiment, the procedure for reducing communication interference between the mobile terminal and the first base station may include Coordinated Multiple Point transmission and reception.

In one embodiment, the procedure for reducing communication interference between the mobile terminal and the first base station may include Inter-Cell Interference Management (ICIM).

In one embodiment, the mobile communication system may follow a standard of Long Term Evolution (LTE) -Advanced.

According to an embodiment of the present invention, when the mobile terminal is located in a boundary area of a cell of one or more other base stations adjacent to a cell of a first base station and a first base station, the first base station and the one or more other base stations cooperate A method is provided for communicating with the mobile terminal. A mobile terminal comprising a plurality of antennas, a plurality of base stations, wherein a first base station of the plurality of base stations controls the mobile terminal, each of the plurality of base stations includes a plurality of antennas, In a mobile communication system including an Evolved Packet Core (EPC) combined with a base station, when the mobile station is located in a boundary area between cells of the first base station and one or more other base stations adjacent to the first base station, 1. A method for causing a base station and at least one other base station to communicate with the mobile terminal in cooperation, the EPC comprising: determining whether the mobile terminal is located in a boundary area of a cell of the first base station and a cell of the at least one other base station; Wherein the EPC is configured such that the mobile station is capable of receiving a cell of the first base station and a cell of the one or more other base stations To initiate a Coordinated Multiple Point transmission and reception mode in which the first base station and the one or more other base stations communicate with the mobile terminal together in response to determining that the first base station and the at least one other base station co- ; And wherein the first base station communicates with the mobile terminal in a cooperative multi-point transmit / receive mode with the at least one other base station, wherein the first base station and the one or more other base stations provide multiple-input and multiple- output.

In one embodiment, the step of determining whether the EPC is located in a boundary area between a cell of the first base station and a cell of the at least one other base station, the EPC further comprising: Receiving a Round Trip Time (RTT) value; And determining, by the EPC, whether the mobile terminal is located in a cell boundary region of the first base station based on the RTT value.

In the method of operating the cooperative multi-point transmission / reception technology, it is determined whether the mobile terminal is located in the cell boundary region of the base station based on the RTT value, thereby increasing the accuracy of determination as to whether the terminal is located in the cell boundary region, It is possible to generate a transmission / reception operation only when actually necessary, thereby reducing the load on the network. Also, it is possible to improve the performance of eliminating the interference in the cell boundary region by providing a method in which MIMO is applied to the combined transmission among the cooperative multi-point transmission / reception techniques.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings, the same reference numerals are used to designate the same or similar components.

1 is a configuration diagram of an exemplary communication network environment 100 in which the present invention may be practiced. 1, the communication network environment 100 includes two base stations 110 and one mobile terminal 130. However, this is for the purpose of illustration only, and the actual number of base stations and terminals may be different from one another Be careful.

1, the network environment 100 includes a base station (eNodeBs 110A and 110B and the like) 110, an evolved packet core (EPC) 120 and a mobile terminal 130A , 130B and 130C (referred to as 130 in the general description of the mobile terminal). The base station 110 is communicably connected to the EPC 120.

The communication network environment 100 preferably corresponds to LTE (Long Term Evolution) advanced, but may be implemented in a variety of communication systems such as, for example, code division multiple access (CDMA), wIDeband code division multiple access (WCDMA), global system for mobile communications Universal Mobile Telecommunications System (WiMAX), Worldwide Interoperability for Microwave Access (WiMAX), high speed downlink packet access (HSDPA), 2G, 3G, 3.5G and future 4G It can include both networks.

In an embodiment of the present invention, the base station 110 may be a macro base station or a femto base station, but is not limited thereto. In one embodiment, the EPC 120 includes an access gateway (System Architecture Evolution Access Gateway), which is responsible for access services between an IP-based wired network and a radio access network, routing and forwarding of packets, and a gateway function for connection with an external PDN. (MME) (Mobility Management Entity (not shown)) for performing mobility management, authentication, bearer, session management and NAS (Non-Access Stratum) signaling control of the terminal. In one embodiment, the terminal 130 may have a plurality of embedded or external antennas to communicate with the base station 110 that it is in control of.

In an embodiment of the present invention, the terminal 130 and the base station 110 can communicate by applying multiple-input and multiple-output (MIMO). MIMO is a technique for increasing the capacity in proportion to the number of used antennas by using various antennas for a base station and a terminal. For example, if M is installed in the base station and N is installed in the terminal, the average transmission capacity increases by M × N. Since MIMO is a technology known in the art, detailed description is omitted.

The operation according to an embodiment of the present invention will be described. 1, a terminal 130A is located in a cell of a current base station 110A, a terminal 130B is located in a cell boundary region of a base station 110A and a base station 110B, Is located inside the cell of the base station 110B. The terminal 130 and the base station 110 can communicate by applying 2x2 MIMO, for example. The base station 110A of the jurisdiction can measure and recognize RTT (Round Trip Time) value as to where the terminal 130 is currently located. If the terminal located at the terminal 130A moves to the location of the terminal 130B, the base station 110A and the base station 110B may consider the cell boundary region to be a common virtual cell managed together. The base station 110B and the base station 110B can communicate with the corresponding terminal 130B by a joint transmission method among the cooperative multi-point transmission / 4 × 4 MIMO. When the terminal returns to the position of the terminal 130A, the cooperative multi-point transmission / reception mode is turned off and the base station 110A can communicate with the terminal again. If the terminal moves to the terminal 130C, It is possible to turn off the transmission / reception mode and perform handover to the base station 110C.

2 is a configuration diagram of a base station 110 and an EPC 120 according to an embodiment of the present invention. It should be noted that the components shown in FIG. 2 are illustrative, and that components may be integrated, separated, or omitted according to design specifications, and the connection relationship of each component may be changed.

2, the base station 110 may include a communication unit 112 capable of transmitting and receiving various data to and from the EPC 120. The communication unit 112 may be used to transmit the RTT value to the EPC 120 and the base station 110 may transmit the multi-point transmission / reception mode request message and the multiple-input and multiple- output transmission ready codebook message for transmission preparation. In one embodiment, the communication unit 112 may receive a cooperative multi-point transmit / receive mode start command from the EPC 120.

As shown in FIG. 2, the base station 110 may further include an RTT measurement unit 114. In an embodiment of the present invention, the RTT measuring unit 114 may measure RTT (Round Trip Time) from the terminal 130 to the base station 110. The method of measuring the RTT is specified in the 3GPP and is described in detail in, for example, "Method for Determining the Round Trip Time" of WO2009 / 131507, and therefore detailed description thereof will be omitted herein.

As shown in FIG. 2, the base station 110 may further include a cooperative communication controller 116. The cooperative communication control unit 116 may control the cooperative multi-point transmission / reception technology to transmit data to a terminal simultaneously with an adjacent base station. In one embodiment, in response to receiving the cooperative multi-point transmit / receive mode start command from the EPC 120, the cooperative communications control unit 116 may communicate with the terminal information via the communication unit 112 and / Point transmission / reception mode request message requesting that the multi-point transmission / reception mode request message be transmitted. Further, in one embodiment, in response to receiving the cooperative multi-point transmission / reception mode request message from another neighboring base station, the communication unit 112 requests sharing of a codebook for preparation of MIMO transmission along with an Ack message to the neighboring base station Message can be transmitted. In one embodiment, when the base station 110 communicates with a neighboring base station in a cooperative multi-point transmit / receive mode, the cooperative communication control unit 116 may proceed with scheduling of communication resources concurrently with an adjacent base station.

As shown in FIG. 2, the base station 110 may further include a MIMO control unit 118. The MIMO control unit 118 may apply MIMO when the base station 110 having a plurality of antennas and the terminal 130 having a plurality of antennas communicate with each other.

As shown in FIG. 2, the EPC 120 may include a communication unit 122 capable of transmitting and receiving data with the base station 110. The communication unit 122 can be used to transmit and receive various information including the RTT from the base station 110.

As shown in FIG. 2, the EPC 120 may further include a common cell region determination unit 124. The common cell area determination unit 124 may determine whether the terminal 130 is located in the cell boundary area based on the RTT received from the base station 110. [ In one embodiment, the range of the cell boundary region may be determined from the base station 110 to a specific range when the mobile communication network is installed. In another embodiment, the range may be set between the base station 110 and the terminal 130 The common cell area determination unit 124 can dynamically change the range of the cell boundary region in consideration of the communication situation. In one embodiment, when determining that the UE 130 is located in the common cell area, the common cell area determination unit 124 may transmit a command to the corresponding base station 110 to start the cooperative multi-point transmission / reception mode.

3 is a logic flow diagram for applying a cooperative multi-point transmit / receive technology mode between two or more base stations 110 and an EPC 120, in accordance with an embodiment of the present invention. It should be noted that the steps shown in FIG. 3 are illustrative, and that the steps may be combined, separated or omitted, and the order of the steps may be changed.

First, in a mobile communication system in which each base station operates with a 2 × 2 MIMO, for example, the base station 110A can periodically measure the RTT value with the terminal 130 (step 300). The measured RTT value may then be transmitted to the EPC 120 (step 302). The EPC 120 receiving the RTT value may determine whether the UE 130 is located in a cell boundary region between the BS 110A and the BS 110B (step 304). If it is located in the cell boundary region, the EPC 120 may instruct the base station 110A to initiate a cooperative multi-point transmit / receive mode (step 306). The base station 110A having received the command to start the cooperative multi-point transmission / reception mode may transmit the information of the terminal 130 and / or the cooperative multi-point transmission / reception mode request message to the base station 110B via the EPC 120 Step 308). Upon receiving the information of the UE 130 and / or the cooperative multi-point transmission / reception mode request message, the Node B 110B transmits an Ack message to the Node B 110A via the EPC 120 and a codebook for preparing a MIMO transmission A message requesting sharing may be sent (step 310). The base station 110A and the base station 110B may communicate with the terminal 130 by operating in the cooperating multi-point transmission / reception mode. At this time, the base station 110A and the base station 110B may communicate with each other, 130) (step 312).

Thereafter, if the UE 130 enters the inner cell of the BS 110A after leaving the cell boundary, the BS 110A transmits a Cooperative Multi-point Transmission / Reception Mode End Request message to the BS 110B via the EPC 120, (Step 314), and the base station 110B may terminate the cooperative multi-point transmission / reception mode by receiving a response message from the base station 110B, and the base station 110A may communicate with the terminal 130 alone (step 314). If the UE 130 enters the cell of the base station 110B after leaving the cell boundary area, the base station 110B transmits a cooperative multi-point transmission / reception mode termination request message to the base station 110A via the EPC 120 , And terminates the cooperative multi-point transmission / reception mode by receiving a response message from the base station 110B, and then initiates a handover procedure from the base station 110A to the base station 110B (step 316).

Meanwhile, the present invention has been described as an embodiment in which a cooperative multi-point transmission / reception technique is applied when determining whether a mobile terminal is positioned in a cell boundary region using an RTT value. However, the present invention is not limited to this, and a method of determining whether a mobile station is located in a cell boundary region using an RTT value may be performed by a method of inter-cell interference (ICIM) The present invention can also be applied to other methods for improving the quality of the image.

Although the above-described methods are described through specific embodiments, the methods described above may also be implemented as computer-readable code on a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. Examples of the computer-readable recording medium include a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like, and may be implemented in the form of a carrier wave (for example, transmission over the Internet) . In addition, the computer-readable recording medium may be distributed over network-connected computer systems so that computer readable codes can be stored and executed in a distributed manner. And, functional programs, codes, and code segments for implementing the above-described embodiments can be easily inferred by programmers of the art to which the present invention belongs.

While the present invention has been described in connection with certain embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made therein without departing from the spirit and scope of the invention . It is also contemplated that such variations and modifications are within the scope of the claims appended hereto.

1 is a configuration diagram of an exemplary communication network environment 100 in which the present invention may be practiced.

2 is a configuration diagram of a base station 110 and an EPC 120 according to an embodiment of the present invention.

3 is a logic flow diagram of applying a cooperative multi-point transmit / receive technology mode between two or more base stations 110 and an EPC 120, in accordance with an embodiment of the present invention.

Claims (7)

delete delete In a mobile communication system including a mobile terminal, a plurality of base stations, a first base station among the plurality of base stations controls the mobile terminal, and an Evolved Packet Core (EPC) combined to be communicable with the plurality of base stations, Wherein the first base station and the second base station are located in a cell boundary region of the first base station, Receiving, by the EPC, a Round Trip Time (RTT) value of the mobile terminal from the first base station; Determining whether the mobile terminal is located in a cell boundary region of the first base station based on the RTT value; And Initiating a procedure for reducing interference on communication between the mobile terminal and the first base station when the mobile terminal is located in a cell boundary region of the first base station, Lt; / RTI > Wherein the procedure for reducing communication interference between the mobile terminal and the first base station comprises Coordinated Multiple Point transmission and reception. In a mobile communication system including a mobile terminal, a plurality of base stations, a first base station among the plurality of base stations controls the mobile terminal, and an Evolved Packet Core (EPC) combined to be communicable with the plurality of base stations, Wherein the first base station and the second base station are located in a cell boundary region of the first base station, Receiving, by the EPC, a Round Trip Time (RTT) value of the mobile terminal from the first base station; Determining whether the mobile terminal is located in a cell boundary region of the first base station based on the RTT value; And Initiating a procedure for reducing interference on communication between the mobile terminal and the first base station when the mobile terminal is located in a cell boundary region of the first base station, Lt; / RTI > Wherein the procedure for reducing communication interference between the mobile terminal and the first base station comprises Inter-Cell Interference Management (ICIM). In a mobile communication system including a mobile terminal, a plurality of base stations, a first base station among the plurality of base stations controls the mobile terminal, and an Evolved Packet Core (EPC) combined to be communicable with the plurality of base stations, Wherein the first base station and the second base station are located in a cell boundary region of the first base station, Receiving, by the EPC, a Round Trip Time (RTT) value of the mobile terminal from the first base station; Determining whether the mobile terminal is located in a cell boundary region of the first base station based on the RTT value; And Initiating a procedure for reducing interference on communication between the mobile terminal and the first base station when the mobile terminal is located in a cell boundary region of the first base station, Lt; / RTI > Wherein the mobile communication system conforms to a standard of Long Term Evolution (LTE) -Advanced. A mobile terminal comprising a plurality of antennas, a plurality of base stations, wherein a first base station of the plurality of base stations controls the mobile terminal, each of the plurality of base stations includes a plurality of antennas, Wherein when the mobile station is located in a boundary area between cells of one or more other base stations adjacent to the cells of the first base station and the first base station in a mobile communication system including an Evolved Packet Core (EPC) CLAIMS What is claimed is: 1. A method for causing a base station and at least one other base station to cooperate with a mobile terminal, Determining whether the EPC is located in a boundary area between a cell of the first base station and a cell of the at least one other base station; In response to the EPC determining that the mobile terminal is located in a border region of a cell of the first base station and a cell of the at least one other base station, the first base station and the one or more other base stations Instructing the mobile terminal to initiate a Coordinated Multiple Point transmission and reception mode in communication with the mobile terminal; And The first base station communicating with the mobile terminal in a cooperative multi-point transmit / receive mode with the at least one other base station in response to receiving the command from the EPC, Wherein the first base station and the one or more other base stations operate with multiple-input and multiple-output (MIMO) for the mobile terminal. The method according to claim 6, Wherein the step of determining whether the EPC is located in a boundary area between a cell of the first base station and a cell of the at least one other base station, Receiving, by the EPC, a Round Trip Time (RTT) value of the mobile terminal from the first base station; And Wherein the EPC comprises determining if the mobile terminal is located in a cell boundary region of the first base station based on the RTT value.

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