KR100580831B1 - Method for hand-over of next generation mobile communication network - Google Patents

Abstract

The present invention relates to a handover method in a next generation mobile communication network.

In the next generation mobile communication network, the handover method estimates the location information and the moving direction of the mobile terminal using GPS before handover occurs, and selects up to two handover cells by handover cell selection algorithm based on the handover cell. After establishing a network / wireless connection for each cell prior to the over request, if a handover is requested from the mobile terminal, a handover decision is made through a forward handover, a reverse handover, or a reset process. Make a cut with the fruit.

In this way, the seamless multimedia service can be satisfied, and the disconnection of the connection service due to the handover delay can be prevented.

Handover, Home Cell, Destination Cell, Mobile Terminal, Block Object, Terminal Object, Cell Segmentation

Description

Handover method in next generation mobile communication network {METHOD FOR HAND-OVER OF NEXT GENERATION MOBILE COMMUNICATION NETWORK}

1 is a flowchart of a handover method in a next generation mobile communication network according to an embodiment of the present invention.

2 is a flowchart of an information reporting method from a mobile terminal to a base station in a handover method in a next generation mobile communication network according to an embodiment of the present invention.

3 illustrates a cell segmentation process according to an embodiment of the present invention.

FIG. 4 illustrates a state in which sectors divided by FIG. 3 are divided.

5 illustrates a positional representation state of a block according to an exemplary embodiment of the present invention.

6 is a flowchart illustrating a handover cell determination process according to an embodiment of the present invention.

7 and 8 are flowcharts illustrating a handover execution and determination process according to an embodiment of the present invention.

The present invention relates to a handover method in a next generation mobile communication network, and more particularly, to a handover method in a next generation mobile communication network capable of preventing the disconnection of a connection service due to a handover delay.

The next generation mobile communication system (B3G or 4G) is a new system completely different from the third generation mobile communication system (3G) and aims to provide various multimedia services at a high data rate.

In the next generation mobile communication system, the mobile terminal should be capable of the same high speed multimedia communication as the stationary state even at high speed, and should use broadband (20 MHz bandwidth in the next generation mobile communication system) to accommodate the high speed multimedia service. For efficiency of frequency use, the cell radius (an estimated radius of 30 m for pico cells and 10 m for mega cells) must be smaller.

As described above, in the next-generation mobile communication system, the radius of the cell becomes smaller and the more frequent handover occurs due to the high-speed mobility of the mobile terminal, thereby increasing the load on the network, and thus, the faster handover processing (that is, the timeless hand). Over) is required.

In the next generation mobile communication system, when the timeless handover processing cannot be guaranteed, the performance of the system is degraded. Therefore, it is necessary to study the handover technology considering the high-speed mobility.

In the conventional third generation mobile communication system, handover occurs every few minutes, but in the next generation mobile communication system, the number of handovers increases, the time interval between handovers decreases, and the handover is performed every tens of seconds to several seconds depending on the moving speed of the mobile terminal. Over occurs.

Therefore, in the next generation mobile communication system, the hand-over processing time is smaller than in the existing third generation mobile communication system.

Therefore, in the next generation mobile communication system, a situation in which handover is not completed even though it is not possible to communicate with the old cell due to signal attenuation occurs, and there is a problem that the handover may fail.

An object of the present invention is to provide a multimedia service by performing a handover cell selection using a location and movement direction information of a cell in a next-generation mobile communication network and performing a handover procedure in advance before a handover request. It is to provide a handover method in the next generation mobile communication network.

In order to solve this problem, the present invention estimates the position information and the moving direction of the mobile terminal before the handover occurs, and selects up to two handover cells based on this, and then establishes the network / wireless connection for each cell. If an over occurs, handover decision is made.

A handover method in a next generation mobile communication network according to an aspect of the present invention is a handover method in a next generation mobile communication network supporting a mobile terminal handover from a home cell to a target cell, the method comprising: a) the home cell in the service area; Broadcasting neighbor cell information and threshold information of parameters for handover to the mobile terminal, and receiving location information of the mobile terminal and downlink channel quality information of the neighbor cell and the home cell from the mobile terminal; b) defining a current position of the mobile terminal based on the information of the mobile terminal reported in step a), and selecting a handover cell in consideration of the moving direction of the mobile terminal; c) performing a radio / network level handover using the cell information selected by step b); d) notifying the mobile terminal of the handover cell that has passed step c), and handing over to the final destination cell based on downlink channel quality information of the neighbor cell and the home cell measured by the mobile terminal when the mobile terminal requests a handover; Determining; And e) when the mobile terminal completes the handover to the target cell in step e), releasing various handover-related connections, settings, and resources of the call cell and the mobile station authority.

Step a) includes a-1) the mobile terminal reporting its location information using GPS to a home cell; a-2) The mobile terminal monitors downlink channel quality of the neighbor cells using neighbor cell set information broadcast from an active cell, and generates neighbor cells that are equal to or greater than a threshold for transitioning to a candidate cell set. Reporting whether or not to the home cell; And a-3) when the mobile terminal searches for a cell other than a neighboring cell set, reporting the found cell as a home cell.

The step b) may include b-1) dividing the cell into a first sector, a second sector, and a third sector according to a pilot signal strength; b-2) estimating a moving direction of the mobile terminal and displaying the location of the mobile terminal as a block number; b-3) assigning location information to each block to indicate a relative position on the plane of the block with respect to the base station in the home cell; And b-4) generating a block object by collecting each block information provided in step b-3) and updating a terminal object which is handover cell related information of each mobile terminal.

In step b-2, the second sector is divided into a plurality of blocks, and the GPS-based position information is associated with one of the plurality of blocks by using vector data to indicate a position in each cell of each block. It is preferable to make it.

In the step b-4), the block object includes ID of each block, vector data indicating a location of each block, a next cell ID for the handover, a next block ID for the mobile terminal to move, and a validity probability. It is preferable to include.

In step b-4), the terminal object may include an ID of a block indicating a current location of the mobile terminal, a next cell ID for the handover, a next block ID for the mobile terminal to move, and a movement of the mobile terminal. It is preferable to include the path and the probability of validity.

B) the mobile terminal calculates location information by using a distance between the GPS receiver and the satellite; b-ii) comparing the position information calculated in step b-iii) with the vector data of each block object and selecting a corresponding block object; And b-i) determining whether a handover cell is determined by checking whether the handover cell selected in step b-ii) matches the candidate cell set.

In step b-iii), if the handover cell and the candidate cell set match, it is determined that the validity is verified, and a handover cell is determined from the next cell ID of the selected block object, and the handover cell and the candidate cell are determined. If the sets do not match, it is advisable to perform exception handling.

In step d), the downlink channel quality threshold information of the neighbor cell measured by the mobile terminal is determined as a forward handover decision condition, and according to whether the forward handover decision condition is satisfied, forward handover and reverse handover. In this case, it is preferable to perform the reset process.

In step e), when the handover ends, the home cell releases various handover related connections, releases various resources for the mobile terminal under handover, and the previous hand not selected for the handover. It is preferable to cancel various settings of the overcell.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention. Like parts are designated by like reference numerals throughout the specification.

In the handover method in the next-generation mobile communication network of the present invention, an access router (ACCESS ROUTER) exists between the mobile terminal and each cell at the time of handover to the mobile terminal and the home cell or the target cell.

An access router provides a data connection to support integrated multimedia service networking and includes a handover control block that enables a mobile terminal to continuously communicate while on the move.

The handover controller divides and manages cells as follows to support cell selection of the mobile terminal.

A home cell refers to a serving cell that maintains traffic data and a control channel with a mobile terminal, and a candidate cell set corresponds to a first handover cell set and a primary validity. It means a cell selected to perform an inspection.

The previous handover cell set refers to a handover prediction cell based on the movement direction estimation based on the location information of the GPS, and the post-handover cell set is a downlink enough to replace the home cell among neighboring cells. The cell refers to a cell having a quality greater than or equal to a threshold value, and the surrounding cell set refers to a cell around a home cell reported to the mobile terminal using broadcast information.

The remaining cell set refers to all other cells except the home cell, the candidate cell set, and the neighbor cell set.

The handover control unit manages a home cell, a candidate cell set, a previous handover cell set, a subsequent handover cell set, and a neighbor cell set by using downlink channel quality information of each cell reported from the terminal.

The handover controller then performs a second validity check on the cell determined as the handover cell set and the handover cell, and performs an exception process when the two cells do not match. When the two cells coincide with each other, the handover controller selects an optimal target cell using downlink channel quality information and radio resource information of the candidate cell.

A handover method in a next generation mobile communication network according to an embodiment of the present invention will be described in detail with reference to FIG. 1.

1 is a flowchart illustrating a handover method in a next generation mobile communication network according to an embodiment of the present invention, and FIG. 2 is an information reporting method from a mobile terminal to a base station in a handover method in a next generation mobile communication network according to an embodiment of the present invention. Is a flowchart.

As shown in FIG. 1, in a handover method in a next generation mobile communication network according to an embodiment of the present invention, a base station first broadcasts candidate cell information and threshold information of parameters for handover to a mobile terminal (S100).

The base station periodically broadcasts information on a surrounding cell set, and estimates and reports downlink channel quality information of cells included in the neighboring cell from the mobile terminal.

The handover controller broadcasts threshold information of downlink channel quality, that is, a forward handover decision condition for home cell and neighbor cell set management.

The base station receives the location information and the downlink channel quality information of the neighboring cell and the home cell from the mobile terminal (S200).

In order to select an optimal destination cell for the service being provided, as shown in FIG. 2, the mobile terminal reports parameters related to information reporting to the handover controller.

In this case, in the information reporting method from the mobile terminal to the base station, the mobile terminal reports the location information of the mobile terminal generated by location recognition using GPS to the base station.

The mobile terminal monitors downlink channel quality of neighboring cells by using neighboring cell set information broadcast from a home cell (S202), and when neighboring cells that are greater than or equal to a threshold for transitioning to a candidate cell group are generated, related information. Report to the base station. (S203)

When a cell other than the neighboring cell set broadcasted from the home cell is found, the mobile terminal reports the found cell related information to the base station (S204).

The base station performs the handover cell selection algorithm based on the location information reported from the mobile terminal, downlink channel quality information of the neighboring cell, and load information of the corresponding cell (S300).

3 illustrates a cell segmentation process according to an exemplary embodiment of the present invention, and FIG. 4 illustrates a state in which sectors segmented by FIG. 3 are divided.

As shown in Fig. 3, one cell is subdivided into three sectors, each sector being associated with a signal strength received by the mobile terminal so that a specific position of the mobile terminal present in the cell is defined.

The cell segmentation work and the association of location information by GPS are performed by dividing the cells into blocks and generating a simple database by generating respective block information.

That is, the cell segmentation work and the association work of the location information by GPS are generated through the process of track division, block definition, block position expression, block object and terminal object generation.

First, in the track partitioning process, one cell is divided into three sectors, and PSS (Pilot Signal Strength) is used as each sector determination variable so that each track is divided by a threshold value of the PSS as shown in FIG.

Sector segmentation can be expressed by the LOS algorithm. The LOS algorithm determines each threshold range according to the PSS, is determined by a distance function corresponding to each threshold to convert the signal strength into distance information, and uses the distance function. To divide the track.

As shown in FIG. 4, Sector_1 is divided into a home cell region, Sector_2 is a handover cell selection region, and Sector_3 is a handover region. The Sector_2 region is divided into a number of blocks and object information is generated for each block.

GPS location information is valid only in Sector_2 and is ignored in other areas. Eventually, the positional information by GPS is associated with one block of Sector_2, and the moving direction information is obtained from the block object information corresponding thereto.

In the block definition process, the direction estimator expresses the position of the mobile terminal by a block number. The direction estimator must be able to identify the location in the cell of that block in order to estimate the blocks.

The direction estimator uses vector data to represent the position of each block in the block of Sector-2. The vector data is obtained by obtaining the rectangular coordinates (x, y) from the base station and applying the polar coordinate transformation method of the rectangular coordinates. The 2D vector having distance and direction information from the base station is obtained.

The positional representation process of a block assigns location information to each block in order to indicate the relative position on the plane of the block with respect to the base station in the home cell.

5 shows a positional representation state of a block according to an embodiment of the present invention.

As shown in FIG. 5, the block of Sector_2 is composed of four (xij, yij) that distinguish the center point (xi, yi) and the region.

The corresponding location in the cell is determined by comparing the location information in the cell of the block objects defined as described above with the location information generated by the GPS.

The process of generating block object and terminal object information defines a block object as a block object, and the block object is a block ID, vector information indicating a block position, and a next cell ID. It has information such as next block ID and validation probability.

In the above, the next cell ID indicates a maximum of two neighboring cells most likely to handover when moving from the corresponding block to Sector_3, and the next block ID indicates the next block when moving from the corresponding block to another block.

Each mobile terminal periodically updates a terminal object, which is handover cell related information. The terminal object has information such as an ID of a block for the current terminal, a next cell ID, a next block ID, a movement path, and a validity probability.

In the above, the next cell ID indicates up to two neighboring cells that are likely to be handed over, the next block ID indicates a next block in which the terminal may move, and the mobile path of the mobile terminal indicates a block number.

6 is a flowchart illustrating a handover cell determination process according to an embodiment of the present invention.

As shown in FIG. 6, the handover cell determination process includes a GPS receiver receiving a signal including a C / A (Course / Acquisition) code from satellites, and the GPS engine of the mobile terminal being subjected to a time delay in transmitting the signal. The pseudo distance between the satellite and the GPS receiver is calculated based on the result (S301, S302).

The central processing unit (CPU) of the mobile terminal calculates position information by triangulation using the pseudo distance between the satellites (S303).

The base station receives the location information from the mobile terminal to determine the block in which the mobile terminal is located (S304). That is, the HoCB of the AR compares the location information of the mobile terminal with the vector information of the block of each block object and determines the corresponding block object. Select.

If the home cell signal strength does not exist in the preset signal strengths T1 and T3, the base station terminates the handover cell selection process (S305, S306).

However, if the home cell signal strengths are present in T1 and T3, the validity of the location information of the mobile terminal should be verified (S307).

In this case, the validation is performed in the handover control block of the terminal or the AR. The validation of the candidate cell set of the cell management module and the determined handover cell is performed as the primary validation (S308).

If there is a mismatch between the candidate cell set and the determined handover cell, an exception handling process is performed (S309). Here, the exception handling process is performed in an unpredictable area (subway, tunnel, or natural condition). This is to handle the case where incorrect location information is generated or location information cannot be generated.

When the two cells coincide with the above validity check (S310), the base station checks whether the location information received from the mobile terminal is included in the vector information indicating the location of the block object i (S311). The handover cell is determined from the next cell ID of the block object determined above (S312).

In addition, the base station registers handover cell information determined by the above handover cell determination process, handover candidate cell information based on downlink channel quality information of a neighboring cell, and the like into the cell management module.

In this way, when the handover cell determination process is finished, the base station performs a pre-processing procedure (S400). The base station notifies the mobile terminal of the handover cell that has performed the pre-processing procedure (S500). , To determine the handover (S600).

7 and 8 are flowcharts illustrating a handover execution and determination process according to an embodiment of the present invention.

As shown in FIG. 7 and FIG. 8, the base station performs the radio level handover and the network level handover for handover using cell information generated by the handover cell selection algorithm (S410).

First, the network level handover refers to cell buffering and rerouting (resetting of a connection path) for supporting a radio level handover and is performed for macrocell handover except for some functions (S411).

The next radio level handover performs the switching of the radio link from the previous access point to the new access point, usually a procedure such as modem setup and synchronization setup. (S412)

The base station performs a procedure for estimating the quality of the downlink panel of the home cell and the neighbor cell, and confirms that the forward handover criteria are satisfied (S610 and S620).

The forward handover is performed when the previous handover cell and the subsequent handover cell are the same. When the terminal exists in an area served by two or more cells, the terminal moves down the previous handover cell information and the measured neighbor cell. The optimal target cell suitable for the forward handover decision condition is determined by considering the handover cell information and the resource load after the link channel quality measurement.

If the mobile terminal satisfies the forward handover criterion, the coincidence between the previous handover cell and the subsequent handover cell is checked (S630). If the two cells coincide, the target terminal is performed without performing a handover delay after performing the forward handover. Connected to the cell and performs a handover completion report to the target base station (S640, S650).

However, if the two cells do not match, the base station performs reverse handover. (S660)

The reverse handover is performed when the previous handover cell and the subsequent handover cell are different, and when the mobile terminal requests a handover, the previous handover cell information determined by the neighbor cell downlink channel quality measurement measured by the mobile station. Send to the base station.

The handover control unit of the base station determines the target cell for the terminal by using the information reported from the mobile terminal and radio resource information of the neighbor cell, and instructs the mobile terminal and the target base station to perform handover.

Occurs when forward handover or reverse handover moves to a handover area, i.e., when the neighbor cell downlink channel quality measured by the mobile terminal meets the handover decision condition, a reset is performed by the mobile terminal to another block. Occurs when a change is made.

Resetting again performs the preprocessing procedure, the handover cell information notification in the mobile terminal, and the handover decision process.

The mobile terminal reports that handover has been made through the target cell, and the handover controller requests the home cell of the mobile terminal to release various related connections. (S700)

The home cell releases various resources for the user terminal being handed over from the handover control unit, reports them to the handover control unit, and releases various settings of the previously unselected handover cell.

Although the preferred embodiment of the present invention has been described in detail above, the present invention is not limited thereto, and various other changes and modifications are possible.

 As described above, the handover method in the next-generation mobile communication network according to the present invention sets a network connection part and a wireless connection part for handover before handover by using location information and cell direction information in a cell of a mobile terminal. Applying immediately in the event of an overrun reduces the handover duration, preventing the disconnection of the connection service.

Claims (22)

A handover method in a next generation mobile communication network supporting a mobile terminal handover from a home cell to a target cell, a) the home cell broadcasts neighbor cell information and threshold information of parameters for handover to the mobile terminal in the service area, and the location information of the mobile terminal and downlink channels of the neighbor cell and the home cell from the mobile terminal; Receiving quality information; b) defining a current position of the mobile terminal based on the information of the mobile terminal reported in step a), and selecting a handover cell in consideration of the moving direction of the mobile terminal; c) performing network level handover and radio level handover using the cell information selected by step b); d) notifying the mobile terminal of the handover cell which has passed step c), and handing to the final destination cell based on downlink channel quality information of the neighbor cell and home cell measured by the mobile terminal when the mobile terminal requests a handover; Determining an over; And e) when the mobile terminal completes handover to a target cell in step d), releasing various handover related connections, settings, and resources between the home cell and the mobile terminal; Handover method in the next generation mobile communication network comprising a. The method of claim 1, Step a) is a-1) the mobile terminal reporting its location information using GPS to a home cell; a-2) The mobile terminal monitors downlink channel quality of the neighbor cells using neighbor cell set information broadcast from an active cell, and generates neighbor cells that are equal to or greater than a threshold for transitioning to a candidate cell set. Reporting whether or not to the home cell; And a-3) when the mobile terminal searches for a cell other than a neighboring cell set, reporting the found cell as a home cell Handover method in the next generation mobile communication network comprising a. The method of claim 2, B), A hand in a next generation mobile communication network that selects a handover cell based on location information of a mobile terminal, downlink channel quality information of a neighboring cell, and load information of a corresponding cell reported in steps a-1) to a-3). Over way. The method of claim 1, B), Dividing the cell into three sectors and defining the specific position of the mobile terminal in the cell in association with the signal quality information received by the mobile terminal. The method of claim 4, wherein b-1) dividing the cell into a first sector, a second sector, and a third sector according to a pilot signal strength; b-2) estimating a moving direction of the mobile terminal and displaying the location of the mobile terminal as a block number; b-3) assigning location information to each block to indicate a relative position on the plane of the block with respect to the base station in the home cell; And b-4) generating a block object by collecting each block information provided in step b-3) and updating a terminal object which is handover cell related information of each mobile terminal. Handover method in the next generation mobile communication network comprising a. The method of claim 5, Step b-1), And determining a threshold range according to the pilot signal strength and dividing the sector by a distance function corresponding to each threshold for converting the pilot signal strength into distance information. The method of claim 5, Step b-1), And wherein the first sector is divided into a home cell region, the second sector is a handover cell selection region, and the third sector is a handover region. The method according to claim 5 or 7, Step b-2), Handover in a next-generation mobile communication network that divides the second sector into a plurality of blocks and associates position information by GPS with one of the plurality of blocks using vector data to indicate a location in a cell of each block. Way. The method of claim 8, The vector data is a handover method in a next-generation mobile communication network to obtain a two-dimensional vector having a distance and direction information from the base station by applying a polar coordinate conversion method of the rectangular coordinates after obtaining the rectangular coordinates from the base station. The method of claim 5, Step b-3), Handover method in a next-generation mobile communication network to determine a specific location in the cell of the mobile terminal by comparing the location information generated by the GPS and the cell location information of each block. The method of claim 5, Step b-4), The block object is a hand in a next generation mobile communication network including an ID of each block, vector data indicating a location of each block, a next cell ID for the handover, a next block ID for the mobile terminal to move, and a validity probability. Over way. The method of claim 5, Step b-4), The terminal object may include an ID of a block indicating a current location of the mobile terminal, a next cell ID for the handover, a next block ID for the mobile terminal to move, a mobile path of the mobile terminal, and a probability of validity. Handover Method in Mobile Communication Network. The method of claim 5, B), b-iii) calculating, by the mobile terminal, location information using a distance between the GPS receiver and the satellite; b-ii) comparing the position information calculated in step b-iii) with the vector data of each block object and selecting a corresponding block object; And b-iii) determining a handover cell by checking whether the handover cell selected in step b-ii) matches a candidate cell set. Handover method in the next generation mobile communication network comprising a. The method of claim 13, B-iii), If the handover cell and the candidate cell set match, it is determined that the validity is verified, and the handover cell is determined from the next cell ID of the selected block object. If the handover cell and the candidate cell set does not match, the handover method in the next generation mobile communication network to perform an exception process. The method of claim 14, The exception handling process, Since the mobile terminal is moving in an area where location prediction is impossible, it is determined that an error of location information or generation of location information is impossible. The method of claim 13, B-iii), The handover method of the next-generation mobile communication network is performed in the handover control block of the access router supporting the data connection of the mobile terminal or the mobile terminal is validated whether the handover cell and the candidate cell set. The method of claim 1, C), A radio level handover for performing a radio link switching from a previous access point to a new access point for the handover, and a network level handover for performing cell buffering and rerouting to support the radio level handover A handover method in a next generation mobile communication network. The method of claim 1, Step d), Performing a forward handover, a reverse handover, and a reset process according to whether the forward handover decision condition is satisfied by using the threshold information of downlink channel quality of the neighbor cell measured by the mobile terminal as a forward handover decision condition; Handover Method in Next Generation Mobile Communication Networks. The method of claim 18, The forward handover is, If the previous handover cell information and subsequent handover cell information determined by the neighbor cell downlink channel quality measurement measured by the mobile terminal coincide with each other, the optimal target cell meeting the forward handover decision condition is determined, and A handover method in a next generation mobile communication network connected to a target cell to complete a handover. The method of claim 18, The reverse handover is, If the previous handover cell information and the subsequent handover cell information determined by the neighbor cell downlink channel quality measurement measured by the mobile terminal do not coincide, the previous handover cell information and the radio resource information of the neighbor cell are optimized. The method for handover in a next-generation mobile communication network to determine the target cell of the cell and connected to the target cell to complete the handover. The method of claim 18, The reset process, And repeating the steps c) to e) when the mobile terminal changes its position to another block. The method of claim 1, Step e), When the handover ends, the home cell releases various handover related connections, releases various resources for the mobile terminal in handover, and sets various settings of the previous handover cell not selected for the handover. A handover method in a next generation mobile communication network to release.

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