KR20160092389A - Method for Controlling Handover Based on Moving Route of Mobile Communication Station in Base Station - Google Patents

Abstract

The present invention relates to a method for controlling a handover at a base station based on a moving route of a mobile communication terminal, in the handover of a mobile communication terminal, applying a moving route of the moving terminal to a handover procedure to implement a request for the handover and execution of the handover so as to obtain clarification of a measurement report, success in RRC connection reconfiguration, and occupation stabilization of handover synchronization to a target cell, thereby reducing a handover failure or ping-pong and controlling the handover quickly and accurately.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a handover control method for a mobile communication terminal,

The present invention relates to a handover control method in a base station, and more particularly, to a method for reducing a failure or a ping pong by reflecting a movement path of a mobile communication terminal and controlling handover quickly and accurately.

In a conventional LTE based mobile communication system, when a mobile station moves to another cell area, a handover from a source cell to a target cell is performed to receive a seamless service. LTE handover is a break-before-make type that disconnects the current source cell connection and tries to connect to a new target cell, which may result in handover failure or ping-pong (returning to the original cell).

For example, in the conventional LTE handover procedure, due to the uncertainty in the measurement report of the signal strength in the handover preparation stage or the confusion of the radio environment, the handover decision decision, the handover failure or ping - pong phenomenon may occur. In addition, in the conventional LTE handover procedure, handover failure may occur due to failure of RRC Connection Reconfiguration transmission in the handover execution phase. Handover synchronization time to a new target cell or handover failure due to process failure may occur. The 5G communication network, which is a new generation communication network, has a higher frequency of handover due to the expansion of HETNet or small cell.

Therefore, a new handover method capable of reducing the handover failure and the ping pong is required.

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 handover method, a handover method, A method of reducing the handover failure or ping pong and controlling the handover quickly and precisely by ensuring the measurement report clearness, the success of the RRC connection reconfiguration, the handover synchronization to the target cell, and the occupation stability .

According to another aspect of the present invention, there is provided a handover control method in a base station for allowing a user terminal to handover from a source base station to a target base station to receive a service, Transmitting a measurement report control message from the base station to the user terminal; And measuring the communication signal strength with the target base station specified by the user terminal in response to the measurement report control message and transmitting the measurement result to the source base station, And is a base station that is predicted to have the highest signal strength among neighboring base stations by reflecting the movement path of the user terminal among neighbor base stations.

The handover control method of the base station includes: temporarily determining the target base station as a handover target base station when the communication signal strength of the source base station is equal to or greater than a reference value, requesting handover to the target base station, Receiving a resource assignment and acknowledgment; Reconfiguring a radio resource connection according to a radio resource connection reconfiguration request of the source base station and performing synchronization through the radio resource with the target base station; And re-measuring the communication signal strength with the target base station to the source base station after the completion of the reconfiguration of the radio resource connection and transmitting the re-measurement result to the source base station, And receiving the service by accessing the base station.

In the measurement report control message, the source base station tracks the movement path of the user terminal and includes information on the target base station predicted to have the largest signal strength among the neighbor base stations at the position of the user terminal. For this purpose, the source base station can track the movement path of the user terminal based on the communication signal strength with the user terminal or the GPS information of the user terminal by referring to peripheral base station placement information managed in the database.

According to the measurement report control message, the user terminal tracks the movement path of the user terminal in advance and transmits a result of measurement of the communication signal strength to the target base station, which is predicted to be the strongest among the neighbor base stations, to the source base station . To this end, the user terminal can track the movement route based on the identifier information about the neighbor base stations that have been communicated and the own GPS information, by referring to peripheral base station placement information managed in the memory.

According to another aspect of the present invention, there is provided a base station controller for handover control comprising: a handover processor for transmitting a measurement report control message to a user terminal; And a control unit for receiving a measurement result of measuring and communicating a communication signal strength with a specified target base station in response to the measurement report control message and controlling the received signal to be transmitted to the handover processing unit, The base station is a base station that is predicted to have the highest signal strength among peripheral base stations, reflecting the movement path of the user terminal among peripheral base stations of the user terminal.

Wherein the handover processing unit temporarily determines the target base station as a handover target base station when the communication signal strength is equal to or greater than a reference value, requests a handover to the target base station, The method includes the steps of: controlling the user terminal to reconfigure a radio resource connection through a request for reconfiguration of a radio resource connection; performing synchronization between the user terminal and the target base station through the radio resource; The handover processing unit may instruct the user terminal to perform a handover and to connect to the target base station to receive a service.

The control apparatus of the base station further includes a handover approval unit for reserving radio resource allocation for handover in response to a handover request from another source base station and transmitting a corresponding response including information on the radio resource and acknowledgment information .

The measurement report control message includes information on the target base station predicted to have a greatest signal strength among the neighbor base stations at the location of the user terminal by tracking the movement path of the user terminal in advance. To this end, the handover processing unit may track the movement path of the user terminal based on the communication signal strength with the user terminal or the GPS information of the user terminal by referring to peripheral base station placement information managed in the database.

According to the measurement report control message, the user terminal tracks the movement path of the user terminal in advance, and the measurement result of the communication signal strength for the target base station estimated to be the strongest among the neighbor base stations is transmitted to the handover processor Lt; / RTI > To this end, the user terminal can track the movement route based on the identifier information about the neighbor base stations that have been communicated and the own GPS information, by referring to peripheral base station placement information managed in the memory.

According to the handover control method in the base station according to the present invention, the handover request and the execution are performed by reflecting the movement path of the mobile terminal in the handover procedure in the handover of the mobile communication terminal, It is possible to reduce the handover failure or ping pong and to control the handover quickly and accurately so as to perform the handover without interruption and to prevent the data disconnection time .

1 is a block diagram of a base station for handover control according to an embodiment of the present invention.
2 is a flowchart illustrating a handover control method in a base station according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same components are denoted by the same reference symbols as possible. In addition, detailed descriptions of known functions and / or configurations are omitted. The following description will focus on the parts necessary for understanding the operation according to various embodiments, and a description of elements that may obscure the gist of the description will be omitted. Also, some of the elements of the drawings may be exaggerated, omitted, or schematically illustrated. The size of each component does not entirely reflect the actual size, and therefore the contents described herein are not limited by the relative sizes or spacings of the components drawn in the respective drawings.

1 is a block diagram of an evolved Node B (eNB) 100 for handover control according to an embodiment of the present invention.

Referring to FIG. 1, a base station 100 according to an embodiment of the present invention includes a control unit 110, a memory 111, a communication unit 120, a handover processing unit 130, and a handover acceptance unit 140 . These components of the base station 100 may be implemented in hardware, software, or a combination thereof.

The control unit 110 may be a semiconductor processor that is responsible for the overall control of these other components of the base station 100 and may be implemented to include all or some of these other components of the base station 100 . The control unit 110 may store in the memory 111 data necessary to be stored, such as configuration data required during the control process, data received from a user terminal (UE), another base station, or another gateway or other server in the core network.

The communication unit 120 may be a user terminal on a network such as a mobile communication network (e.g., WCDMA, LTE, etc.), wired and wireless Internet (e.g., wired Internet, WiFi, WiBro, And the like.

Here, the user terminal UE may be a mobile communication terminal such as a smart phone, a tablet PC, an iPad, a PDA, a PMP, or a wired or wireless Internet (e.g., wired Internet, WiFi, WiBro) And a variety of macro network services such as services for digital multimedia contents supported by various servers of a core network (macro network) through a communication network (e.g., WCDMA, LTE, etc.).

The handover processing unit 130 performs overall signal processing for handover. First, briefly, the handover processing unit 130 transmits a measurement report control message to a user terminal (UE) that is attempting a handover, and when a user terminal (UE) The measurement result received through the communication unit 120 can be received under the control of the control unit 110. [ Here, the specified target base station is a base station predicted to have the highest signal strength among the neighboring base stations, reflecting the movement path of the user terminal (UE) among the neighbor base stations at the current position of the user terminal (UE) , The handover processing unit 130 of the source base station may predict it or the user terminal UE may predict it.

Based on the received measurement result, the handover processing unit 130 temporarily determines the target base station as a handover target base station and transmits a handover to the target base station when the corresponding communication signal strength is equal to or higher than the reference value And receives a response from the target base station for allocation and acknowledgment of radio resources, and controls the user terminal (UE) to reconfigure the radio resource connection through a radio resource connection (RRC) reconfiguration request.

Accordingly, the UE performs synchronization with the target base station through the corresponding radio resource, re-measures the communication signal strength with the target base station after completing the reconfiguration of the radio resource connection (RRC) Upon transmitting the result, the handover processing unit 130 can finally control the user terminal UE to instruct the handover and to access the target base station to receive the service.

The handover acknowledgment unit 140 reserves allocation of radio resources for handover in response to a handover request from another source base station as well as the function of the target base station as described above, And can transmit the corresponding response including the approval information. Other details will be described with reference to FIG. 2 as follows.

In the present invention, handover request and execution are reflected in the handover procedure by reflecting the movement path of the mobile terminal, that is, the mobile terminal moving in the handover of the user terminal (UE) through the handover control device of the base station 100 , It is possible to reduce the handover failure or ping pong and to quickly and accurately control the handover by securing the measurement report clearness, the success of the RRC connection reconfiguration, the handover synchronization to the target cell and the occupation stability. So that handover can be performed without data loss and data disconnection time can be reduced.

Hereinafter, a handover control method in the base station 100 according to an embodiment of the present invention will be described in detail with reference to the flowchart of FIG.

As shown in FIG. 2, in order to allow a user equipment (UE) to perform handover from a source base station receiving a service to a target base station to continuously receive a seamless service from a target base station, communication control between a target base station and a macro network, and the like will be described.

The handover control process in each base station is performed by a source base station, a target base station determination process (1 to 3), a handover preparation process (4 to 10), a target base station A handover determination process 11, a handover execution process 12 to 13, and a handover completion process 14 based on the signal strength measurement report of FIG.

First, the user terminal UE attempts handover when the signal strength from the source base station is lower than a reference value. At this time, the source base station determines (1 to 3) , The handover processing unit 130 transmits a measurement report control message (Measurement Control) to the user terminal UE to instruct measurement (1). At this time, the source base station exchanges packet data with the server of the macro network, and transmits the allocation information (UL allocation) for uplink resources for connection, such as measurement report, to the user terminal (UE)

Here, the handover processing unit 130 of the source base station can manage the neighbor base station placement information in the database of the memory 111, and can refer to the communication signal strength with the user terminal UE, The mobile terminal can track the movement route of the user terminal UE based on the GPS information of the user terminal UE, The UE can select a target base station predicted to be a target base station and instruct the UE to measure the measurement target base station information in a measurement report control message. A user can use a service using a user terminal (UE) in a public bus, a tram, a train, a car registered in the network, etc. In the present invention, the source base station grasps the movement path of the user terminal (UE) The determination of the target base station makes it possible to perform a handover in a satisfactory manner in a manner that the user terminal UE unilaterally transmits the signal strength measurement result of the neighbor base stations in the LTE system to determine the target base station in the source base station, Is a key feature of the present invention.

For example, the handover processor 130 periodically requests the one or more neighbor BSs to measure the signal strength with the user terminal UE before attempting the handover of the user terminal UE, The mobile terminal can track the movement path of the user terminal UE in which direction the mobile terminal UE is moving. Alternatively, the handover processing unit 130 may periodically receive Global Positioning System (GPS) information from the user terminal UE according to a request or a function of the user terminal UE before attempting a handover of the user terminal UE , And can track a corresponding movement path of the user terminal (UE) in which direction the user terminal (UE) is moving in the neighbor base station placement information according to the received GPS information.

The user terminal UE receiving the Measurement Control message measures the communication signal strength of the target base station and reports measurement results to the source base station. . The measurement control control message may or may not include information on a target base station to be measured.

When the measurement report control message includes information on a target base station, the user equipment UE measures the communication signal strength of the target base station and transmits measurement results to the target base station. To the source base station.

Also, even if the measurement report control message does not include information on the target base station, the user terminal UE can manage the neighbor base station placement information in the memory, It is possible to track and manage the movement path of the mobile terminal based on the identifier information of the neighboring base stations from the base station or its own GPS information, It is possible to select a target base station that is estimated to be large and report the measurement results to the source base station by measuring the communication signal strength for the selected target base station.

A user can use a service using a user terminal (UE) in a public bus, a tram, a train, or a vehicle registered in the network. A recent intelligent user terminal (UE) can know its position by the above- For example, an autonomous running support terminal, a telematics terminal, or the like of an intelligent vehicle as a user terminal may support the autonomous running of the vehicle by detecting its position through the navigation function or the like. As a main feature of the present invention, the various user terminals (UE) determine the target base station by grasping the movement route in advance, thereby making the handover as desired.

In this way, in the source base station receiving the measurement report (Measurement Reports) of the communication signal strength for the specific target base station from the user terminal UE, the handover processing unit 130, If the strength is equal to or greater than the reference value, the target base station can be temporarily determined as a target base station to be handed over (3).

Accordingly, the handover processing unit 130 of the source base station performs the handover preparation procedure (4 to 10).

The handover processing unit 130 transmits a handover request message (HO Request) to the target base station (step 4). Accordingly, in the target base station, the handover acceptance unit 140 acquires a radio resource to be allocated to the corresponding user terminal (UE) according to a corresponding handover request message (HO Request) including the user equipment (UE) (5), and generates a response message (HO) including admission control information (Admission Control), including the information on the radio resources to be allocated for the handover, Request Ack) to the source base station (6).

In response to the approval response of the target base station, the handover processing unit 130 of the source base station transmits a downlink resource without collision with another channel for communication for attempting a handover to the user terminal UE And transmits mobility control information including information on a UE ID, a radio resource allocated by a target base station handover acknowledgment unit 140, (RRC) connection reconfiguration message to the user terminal (UE) to request reconfiguration of the radio resource connection (7). The user terminal (UE) receiving the RRC connection reconnection completion message transmits the RRC connection reconfiguration completion message to the source base station (8) to notify completion of the internal setup. This is different from the conventional method in which the user terminal UE does not disconnect the connection with the current source base station yet and also disconnects the connection with the source base station after transmitting the RRC connection reconfiguration complete message.

Thereafter, the user terminal UE transmits a control signal to the target base station for synchronization with a new target base station through radio resources allocated by the target base station handover acceptance unit 140 A preamble signal is transmitted to request synchronization (9). The handover acknowledgment unit 140 in the target base station sets a synchronization with the user terminal UE according to a preamble signal and performs a timing advance to instruct connection timing adjustment to the user terminal UE, , And the user terminal UE thus completes the synchronization in synchronization with the target base station (10).

Meanwhile, the user terminal UE measures the communication signal strength for the target base station again and reports measurement results (Measurement Reports) to the source base station (11).

In this way, in the source base station receiving the measurement report (Measurement Reports) of the communication signal strength for the specific target base station from the user terminal UE, the handover processing unit 130, It is possible to finally determine the specific base station as a target base station and transmit a PDCCH message including control information of the L1 layer to the user terminal UE to instruct handover (12). PDCCH message may include radio resource information allocated to the user terminal UE by the handover acceptance unit 140 of the target base station. Accordingly, the user terminal UE detaches the connection with the source base station and transits to the target base station and prepares to receive the service. The present invention is different from the prior art in that the user terminal UE can transition to the target base station through the re-reporting of the communication signal strength to the target base station and the L1 layer control .

The handover processing unit 130 of the source base station that has finally determined handover to the target base station as described above transmits the service packet stored in the buffer during the handover attempt (data forwarding) to the target base station At this time, a SN (Sequence Number) Status Transfer message for packet classification can be transmitted together (13). The service packet data for forwarding data from the source base station to the target base station is temporarily buffered in the target base station and is transmitted to the target base station So that the service can be continued.

In the handover completion process 14, a user terminal UE, a target base station, and a Mobility Management Entity (MME) and a Serving Gateway (SGW) of a macro network cooperate with each other in a packet switch and a handover completion process such as a bearer setup and so on according to the result of the determination by the target base station handover acceptance unit 140, The flow of the packet data can be maintained through the connection with the target base station through the macro network via the target base station.

As described above, according to the handover control method in the base station 100 according to the present invention, the handover procedure is performed by reflecting the movement path of the mobile terminal in the handover procedure of the mobile communication terminal (UE) So that the measurement report can be clarified, the success of RRC connection reconfiguration, the handover synchronization to the target cell, and the occupation stability can be ensured, so that the handover failure or the ping pong can be reduced and the handover can be controlled quickly and accurately Handover can be performed seamlessly and the data disconnection time can be reduced.

The above elements and functions for performing the handover control method in the base station 100 of the mobile communication system according to an embodiment of the present invention may be implemented by hardware, software, or a combination thereof . Furthermore, the above-described elements, functions, and the like according to an exemplary embodiment of the present invention may be embodied as computer-readable codes on a computer- or processor-readable recording medium when executed by one or more computers or processors. It is possible to do. The processor-readable recording medium includes all kinds of recording apparatuses in which data that can be read by the processor is stored. Examples of the recording medium readable by the processor include a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like, and also a carrier wave such as transmission over the Internet. In addition, the processor readable recording medium may be distributed over networked computer systems so that code readable by the processor in a distributed manner can be stored and executed.

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, it should be understood that the present invention is not limited to the above- Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the essential characteristics of the invention. Therefore, the spirit of the present invention should not be construed as being limited to the embodiments described, and all technical ideas which are equivalent to or equivalent to the claims of the present invention are included in the scope of the present invention .

The controller 110,
In the memory 111,
The communication unit 120,
The handover processing unit 130,
The handover acknowledgment unit 140,

Claims (13)

A handover control method in a base station for allowing a user terminal to perform handover from a source base station to a target base station,
Transmitting a measurement report control message from the source base station to the user terminal; And
Measuring the communication signal strength with the target base station specified in response to the measurement report control message and transmitting the measurement result to the source base station,
Wherein the specified target base station is a base station predicted to have a strongest signal strength among neighboring base stations, reflecting the movement path of the user terminal among neighbor base stations of the user terminal. The method according to claim 1,
Temporarily determining the target base station as a handover target base station, requesting a handover to the target base station and receiving a radio resource allocation and acknowledgment from the target base station when the communication signal strength is equal to or greater than a reference value;
Reconfiguring a radio resource connection according to a radio resource connection reconfiguration request of the source base station and performing synchronization through the radio resource with the target base station; And
The UE transmits the re-measurement result to the source base station by re-measuring the communication signal strength with the target base station after completion of the reconfiguration of the radio resource connection and receiving a handover instruction from the source base station, And receiving service by accessing
The handover control method further comprising: The method according to claim 1,
The source base station tracks the movement path of the user terminal in advance and includes information on the target base station predicted to have the highest signal strength among the neighbor base stations at the location of the user terminal in the measurement report control message The handover control method comprising: 5. The method of claim 4,
Wherein the source base station tracks the movement path of the user terminal based on the communication signal strength with the user terminal or the GPS information of the user terminal by referring to peripheral base station placement information managed in the database by the source base station . The method according to claim 1,
According to the measurement report control message, the user terminal tracks the movement path of the user terminal in advance, and transmits a measurement result of the communication signal strength to the target base station, which is predicted to be the strongest among the neighbor base stations, to the source base station Handover control method. 6. The method of claim 5,
Wherein the user terminal refers to peripheral base station placement information managed in a memory and tracks the movement route based on the identifier information of the neighboring base station that has been communicated and the GPS information thereof. A control apparatus of a base station for handover control,
A handover processing unit for transmitting a measurement report control message to a user terminal; And
And a control unit for receiving a measurement result of measuring and transmitting a communication signal strength with the specified target base station in response to the measurement report control message and controlling the received signal to be transmitted to the handover processing unit,
Wherein the specified target base station is a base station predicted to have a strongest signal strength among neighboring base stations, reflecting a movement path of the user terminal among neighbor base stations of the user terminal. 8. The method of claim 7,
Wherein the handover processing unit temporarily determines the target base station as a handover target base station when the communication signal strength is equal to or greater than a reference value, requests a handover to the target base station, Controlling the user terminal to reconfigure a radio resource connection through a radio resource connection reconfiguration request,
When the user terminal performs synchronization through the radio resource with the target base station and re-measures the communication signal strength with the target base station after completing the reconfiguration of the radio resource connection, the handover processing unit And controls the base station to receive a service by making a handover instruction to the user terminal and establishing a connection with the target base station. 8. The method of claim 7,
A handover acknowledgment unit for allocating a radio resource for handover in response to a handover request from another source base station and transmitting a corresponding response including information on the radio resource and acknowledgment information,
And a control unit for controlling the base station. 8. The method of claim 7,
Wherein the measurement report control message includes information on the target base station predicted to have a greatest signal strength among neighboring base stations at a location of the user terminal by tracking the movement path of the user terminal in advance controller. 11. The method of claim 10,
Wherein the handover processing unit tracks the movement path of the user terminal based on communication signal strength with the user terminal or GPS information of the user terminal by referring to peripheral base station placement information managed in the database. Device. 8. The method of claim 7,
According to the measurement report control message, the user terminal tracks the movement path of the user terminal in advance, and the measurement result of the communication signal strength for the target base station estimated to be the strongest among the neighbor base stations is transmitted to the handover processor The base station controlling the base station. 13. The method of claim 12,
Wherein the user terminal refers to peripheral base station placement information managed in a memory, and tracks the movement route based on the identifier information of the neighboring base station that has passed through the communication or the GPS information of the user.

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