JP4693873B2 - Mobile communication system, movement prediction apparatus, and switching control method - Google Patents

Description

  The present invention relates to a mobile prediction apparatus, and more particularly to a mobile communication system capable of efficiently performing a handover, a mobile communication terminal used therefor, and a handover control method.

  In a mobile communication system, a base station is installed so that cells (service areas communicable from the base station) are adjacent to each other, and the mobile communication terminal sets a wireless communication line with any of the base stations, Communicate. Then, when the mobile communication terminal moves, a base station to be a communication partner is selected, the wireless communication line is reset with the base station constituting the cell to which the mobile communication terminal belongs, and the mobile communication terminal moves. Even so, communication can be performed without interruption. The process of selecting the base station and switching the radio communication line is called handover.

In order to select a base station suitable for this handover, a position detecting means for detecting the current position of the mobile communication device, a machine-readable recording medium storing map information including identification information and position information of the base station, And a search means for searching for identification information and position information of the surrounding base stations from the recording medium, in consideration of the current position and the position information of the surrounding base stations in addition to the radio wave strength of each surrounding base station A mobile communication device that performs position registration and a traveling direction detection means are provided, and in addition to the strength of the radio waves of neighboring base stations during the communication, the current location information and traveling direction are reported to the base station, and the base station side There has been proposed a mobile communication device that performs handover to a handover destination base station determined based on a report so that the best base station can be determined.
JP 2001-69548 A

  However, in the conventional communication device described above, the traveling direction is obtained from the current position of the moving body obtained by GPS, and the moving path of the moving body is predicted based on the assumption that the moving body moves linearly at a constant speed. Therefore, when the path traveled by the moving body is curved, the moving path of the moving body cannot be accurately predicted. Therefore, it is not possible to select an optimal base station for communication, and there are problems such as frequent handovers, deterioration of call quality due to deterioration of the communication state, and disconnection of communication.

  An object of the present invention is to provide a mobile communication system, a mobile prediction device, and a switching control method that accurately predict a mobile route of a mobile communication terminal by referring to map information and perform an accurate handover. .

  The mobile prediction apparatus of the present invention predicts the movement path of a mobile communication terminal communicating with a radio base station and switches the connection between the mobile communication terminal and the radio base station based on the predicted movement path. A map information storage unit storing information, predicting a movement path of the mobile communication terminal based on position information indicating a current position of the mobile communication terminal and map information acquired from the map information storage unit, Based on the prediction result of the movement path, a radio base station that is a connection partner having a cell adjacent to the cell of the radio base station with which the mobile communication terminal is communicating is predicted, and the radio with which the mobile communication terminal is communicating When it is determined that the mobile communication terminal has arrived at a planned switching point on the moving path in a portion where a cell of the base station and a cell of the wireless base station that is the connection partner overlap, Of the wireless base station comprising, and controlling the switching to the radio base station having the longest containing cell the predicted moving path.

  Further, in the movement prediction device of the present invention, the planned switching point is determined in advance based on the quality of a signal from a radio base station received on a movement route, and is registered in the map information. Features.

  In the movement prediction device of the present invention, when the movement speed is determined to be fast based on a comparison result between a movement speed at which the mobile communication terminal moves and a predetermined speed, the movement route is predicted. Features.

  The mobile communication system of the present invention is configured to predict a movement path of a mobile communication terminal communicating with a radio base station and the mobile communication terminal and switch connection between the mobile communication terminal and the radio base station based on the predicted movement path In a mobile communication system having a movement prediction device, the movement prediction device has a map information storage unit that stores map information, and is acquired from position information indicating the current position of the mobile communication terminal and the map information storage unit Based on map information, predict the movement path of the mobile communication terminal, and based on the prediction result of the movement path, a connection partner having a cell of a radio base station with which the mobile communication terminal is communicating and an adjacent cell On the moving path in a portion where the cell of the radio base station with which the mobile communication terminal is communicating and the cell of the radio base station to be connected overlap When it is determined that the mobile communication terminal has reached the planned switching point, the switching is controlled for the wireless base station having the cell that includes the longest predicted movement path among the wireless base stations to be connected to. It is characterized by that.

  The mobile communication terminal of the present invention is used in a mobile communication system.

  The radio base station switching control method according to the present invention includes a mobile communication terminal having position information detecting means for detecting a position of a mobile communication terminal, a radio base station that communicates with the mobile communication terminal, and movement of the mobile communication terminal. A mobile prediction device configured to predict a route and a map information storage unit that is connected to the movement prediction device and stores map information, and the mobile communication terminal performs communication by switching a wireless base station that is a connection partner. A radio base station switching control method used in a mobile communication system, wherein the movement prediction device is based on position information representing a current position of the mobile communication terminal and map information acquired from the map information storage unit, The mobile communication terminal predicts the movement route of the mobile communication terminal, and based on the prediction result of the movement route, a connection partner having a cell adjacent to the cell of the radio base station with which the mobile communication terminal is communicating The mobile base station is predicted and the mobile base station with which the mobile communication terminal is communicating and the mobile base station cell that is the connection partner overlap the planned switching point on the mobile route in a portion where the mobile base station overlaps. When it is determined that the communication terminal has arrived, switching is controlled for a radio base station having a cell including the longest predicted travel path among the radio base stations to be connected.

  The present invention provides a mobile communication system, a movement prediction apparatus, and a switching control method capable of accurately predicting a movement route of a mobile communication terminal by referring to map information and performing an accurate handover. Objective.

  Next, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a block diagram showing a configuration of a typical mobile phone as the mobile communication terminal 10 of the present embodiment.

  The antenna 1 is connected to the transmission / reception unit 2, receives radio waves from the radio base station, and transmits radio waves to the radio base station. The transmission / reception unit 2 includes a transmission unit and a reception unit. The transmission unit generates a high-frequency signal to be transmitted from the antenna 1, and the reception unit amplifies and converts the frequency of the high-frequency signal received by the antenna 1, thereby generating a baseband signal. Is output to the RF control unit 3.

  The RF control unit 3 includes a baseband unit and a radio control unit. The baseband unit demodulates the baseband signal into an audio signal by a codec unit in the baseband unit. The codec unit modulates the audio signal to generate a baseband signal. Further, the wireless control unit controls the frequency transmitted / received by the transmission / reception unit 2, the transmission / reception timing, and the output of the transmitted radio wave.

  The control unit 4 is mainly composed of a CPU, and based on data stored in a memory (RAM and ROM) 5, portable devices such as a transmission / reception unit 2, a GPS unit 6, an operation unit 7, a display unit 8, and the like. Control each part of the phone. The GPS unit 6 receives radio waves from GPS satellites, measures the position (latitude, longitude) of its own device, and acquires position information. The operation unit 7 receives input of characters and numbers and an operation instruction to the mobile phone. The display unit 8 is controlled by the control unit 4, and a liquid crystal display panel that displays character information, image information, an operation state (radio wave intensity, battery remaining amount, time) of the mobile phone, and the like, and a backlight that illuminates the liquid crystal display panel It is comprised by.

  Further, the mobile phone has a transmitter (not shown) for converting an acoustic signal into an electrical signal and a receiver (not shown) for converting an electrical signal into an acoustic signal.

  FIG. 2 is a configuration diagram of the mobile communication system according to the embodiment of the present invention.

  The mobile communication terminal 10 receives pilot signals from the plurality of base stations 20A to 20C, and transmits the reception status (C / I value) to the base station. On the base station side, based on the reception status of signals from the base station transmitted from the mobile communication terminal, the most suitable base station for connection with the mobile communication terminal 10 is selected, and the base station, the mobile communication terminal, A wireless communication line is set between the base station and the mobile communication terminal to perform wireless communication.

  The movement prediction device 30 is connected to the base stations 20A to 20C, acquires the position data of the mobile communication terminal 10, and calculates the movement speed and movement direction of the mobile communication terminal 10 from the change in position. Further, the travel route of the mobile communication terminal 10 is predicted with reference to the map information database 40.

  The map information database 40 is connected to the movement prediction device 30, and includes map information (main roads and railway lines that can serve as a movement route of the mobile communication terminal 10) and cell information of the base station associated with the map information (the base Service area information communicable from the station and handover point on the movement route) are stored. Note that the map information database 40 may be provided outside the movement prediction device 30 or may be provided inside the movement prediction device 30 and constitute an integrated control device.

  Next, with reference to FIG.2 and FIG.3, operation | movement of the mobile communication system of embodiment of this invention is demonstrated.

The mobile communication terminal 10 is communicating with the base station 20A. Further, the mobile communication terminal 10 receives the position information of the mobile communication terminal 10 obtained by receiving the radio wave from the GPS satellite, together with the measurement time information of the position, via the base station 20A currently communicating, the movement prediction device 30. Send to. The movement prediction device 30 specifies a time interval for position measurement from the received time information, specifies a movement distance of the time from the position information, and calculates a movement speed. Further, the moving direction is calculated based on the difference in position information of the mobile communication terminal 10. The mobile communication terminal 10 may be configured to calculate the moving speed and moving direction of the own terminal from the position information of the own terminal and transmit the moving speed and moving direction to the movement prediction device 30.
Then, the movement prediction device 30 refers to the map information stored in the map information database 40 and can predict the movement of the mobile communication terminal 10 by referring to a path on which a terminal such as a road or a track can move. To do. For example, as shown in FIG. 3, if the current position of the mobile communication terminal 10 is at point G on the road A and the movement direction of the mobile communication terminal 10 is a direction along the road A (northeast direction), mobile communication It is determined that the terminal 10 is moving on the road A.

  At this time, the moving means of the mobile communication terminal 10 (types of routes such as general roads, highways, conventional railroads, and bullet trains) may be specified based on the moving speed of the mobile communication terminal 10. That is, it is verified whether the predicted travel route is correct based on the result of comparing the travel speed and the route type (general road, highway, conventional railway, Shinkansen, etc.). In particular, when a general road and an expressway are parallel, it is possible to specify which route the mobile communication terminal 10 is moving.

  Further, the moving speed of the mobile communication terminal 10 may be estimated by specifying the moving means according to the type of route (general road, highway, conventional railway, Shinkansen, etc.).

  Furthermore, if it is determined that the moving speed is fast based on the comparison result between the moving speed and the predetermined speed, it is difficult to specify the path when the moving speed is slow when the moving path is predicted to specify the path. And is likely to deviate from the specified route (that is, when the mobile communication terminal moves at high speed, the route is limited to a limited route such as a main road or a railway) It is possible to predict a route with high accuracy.

  Then, the position of the mobile communication terminal 10 after the predetermined time is predicted from the speed of the mobile communication terminal 10 calculated using the position of the mobile communication terminal 10 before the predetermined time.

  Furthermore, the mobile prediction device 30 uses the moving speed of the mobile communication terminal 10 so that the mobile communication terminal 10 can leave the cell of the base station 20A and can communicate better with other base stations. Predict the time to reach the point (handover point). This point H is determined in advance as a position on the main moving route according to the distance from the base stations 20A to 20C and the signal reception quality (electric field strength, CIR, etc.) when the base station is installed. It is stored in the information database 40.

  Note that the estimated arrival time at the point H may be changed by further considering the moving speed of the mobile communication terminal 10. That is, when the moving speed of the mobile communication terminal 10 is fast, an earlier time is set as the predicted arrival time at the H point from the estimated arrival time calculated by dividing the moving distance required to the H point and the moving speed. As described above, if the predicted arrival time at point H is advanced when the moving speed is fast, the handover process is started earlier, so even if the handover process takes time, the interruption of the call during the handover is suppressed. can do.

  And the movement prediction apparatus 30 acquires the information of the cell of the base station which has a cell adjacent to the cell of 20 A of base stations from the map information database 40. FIG. Then, by using the position of the road A acquired from the map information and the information of the cell of the base station having the adjacent cell, the route (road A) of the mobile communication terminal 10 is included in a long distance in the cell of which base station. Determine whether. Since the road A is included in the cell of the base station 20C for a long distance, when the mobile communication terminal 10 moves on the road A, the hand over to the cell of the base station 20C is within the cell of the base station 20C. It is judged that it is advantageous that the staying time becomes longer and the number of handovers can be reduced.

  Then, the mobile prediction device 30 notifies the base station 20C of the identification information of the mobile communication terminal 10 and the predicted time of reaching the cell of the base station 20C before the mobile communication terminal 10 reaches the point H.

  When receiving the notification from the mobile prediction device 30, the base station 20 </ b> C reserves a channel for communicating with the mobile communication terminal 10 and notifies the mobile prediction device 30 of the reserved channel. The movement prediction device 30 notifies the mobile communication terminal 10 of the coordinates of the H point to be handed over, the scheduled handover time, the identification information of the base station C that is the handover destination, and the channel used.

  The mobile prediction device 30 monitors the position of the mobile communication terminal 10, and when the mobile communication terminal 10 reaches the point H, the mobile prediction terminal 30 instructs the mobile communication terminal 10 to perform handover, and uses a predetermined channel. Handover is performed to communicate with the base station 20C.

  The mobile communication terminal 10 determines that the point H has been reached based on the time or coordinates notified from the movement prediction device 30, and performs a handover to communicate with the base station 20C using a predetermined channel. It may be configured to do.

  Further, the handover destination base station may be determined in consideration of the moving speed of the mobile communication terminal 10. That is, when the moving speed of the mobile communication terminal 10 is slow, since it exists in the cell of the base station 20B for a long time after leaving the cell of the base station 20A, handover is performed in the order of base station 20A-base station 20B-base station 20C. Thus, the base station of the handover destination is determined. On the other hand, when the moving speed of the mobile communication terminal 10 is fast, the time that is present in the cell of the base station 20B after leaving the cell of the base station 20A is short, so the base station 20A can A handover destination base station is determined so as to be handed over to the base station 20C.

  FIG. 4 is a flowchart showing the operation of the movement prediction apparatus 30 according to the embodiment of this invention.

  The movement prediction device 30 acquires position information of the mobile communication terminal 10 and calculates a movement speed and a movement direction (S101). At this time, the moving speed and moving direction may be acquired from the mobile communication terminal 10.

  Then, the movement prediction device 30 refers to the map information stored in the map information database 40, compares the map information with the acquired position information (S102), and moves the movement route (road) of the mobile communication terminal 10 Alternatively, the travel route is predicted (S103). Then, the mobile communication terminal 10 notifies the base station of the predicted time when it reaches the cell of the handover destination base station, and prepares for handover (S104).

  Thereafter, the movement prediction device 30 further acquires the position information of the mobile communication terminal 10 (S105), and determines whether or not the mobile communication terminal 10 is moving along the predicted movement route (S106). If the mobile communication terminal 10 deviates from the predicted route, the process returns to step S101, and the movement route of the mobile communication terminal 10 is predicted again (S101 to S103).

  On the other hand, if the mobile communication terminal 10 is moving along the predicted route, it is determined whether or not the scheduled handover position has been reached (S107). If the mobile communication terminal 10 has reached the scheduled handover position, the handover destination base station is notified of the fact and the handover is performed (S108). On the other hand, if the mobile communication terminal 10 has not reached the planned handover position, the process returns to step S105 and continues monitoring whether the mobile communication terminal 10 is moving on the predicted route (S106).

  In the normal movement prediction, it is determined that the base station 20B close to the moving direction of the mobile communication terminal is suitable as a handover destination. According to the present invention, the route on which the mobile communication terminal moves at high speed is a main road, a railway The mobile communication terminal route (road A) is determined as a base station to be handed over by accurately predicting the mobile route of the mobile communication terminal using map information. Since it is heading toward the cell of the station 20C, it can be determined that it is more advantageous to perform handover to the base station 20C, and the number of handovers can be reduced.

  In addition, handover can be performed smoothly by preparing for handover in advance in the base station 20C. In particular, when a mobile communication terminal moves at a high speed, movement between cells is performed in a short time, and it is possible to prevent voice interruption or line disconnection due to a delay in handover processing caused by frequent handovers. it can.

  The present invention relates to a handover technique in a moving communication terminal, and is useful as a mobile communication system capable of accurately predicting a moving route of a mobile communication terminal by referring to map information and performing an accurate handover. .

It is a block diagram which shows the structure of the mobile telephone of embodiment of this invention. 1 is a configuration diagram of a mobile communication system according to an embodiment of the present invention. It is explanatory drawing of the hand-over in the mobile communication system of embodiment of this invention. It is a flowchart which shows operation | movement of the movement prediction apparatus of embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Antenna 2 Transmission / reception part 3 RF control part 4 Control part 5 Memory (RAM, ROM)
6 GPS unit 7 Operation unit (keyboard)
DESCRIPTION OF SYMBOLS 8 Display part 10 Mobile communication terminal 20A-20C Base station 30 Movement prediction apparatus 40 Map information database

Claims (6)

In a mobile prediction device that predicts a movement path of a mobile communication terminal that communicates with a radio base station and switches connection between the mobile communication terminal and the radio base station based on the predicted movement path,
A map information storage unit storing map information;
Based on the position information representing the current position of the mobile communication terminal and the map information acquired from the map information storage unit, predict the movement route of the mobile communication terminal,
Based on the prediction result of the movement path, predict a radio base station that is a connection partner having a cell adjacent to the cell of the radio base station with which the mobile communication terminal is communicating,
The mobile communication terminal determines that the mobile communication terminal has arrived at a planned switching point on the movement route in a portion where a cell of the radio base station with which the mobile communication terminal is communicating and a cell of the radio base station to be connected to overlap A switching device that controls switching of a radio base station having a cell that includes the longest predicted travel path among the radio base stations to be connected.   2. The movement according to claim 1, wherein the scheduled switching point is predetermined based on a quality of a signal from a radio base station received on a movement route, and is registered in the map information. Prediction device.   3. The travel route is predicted when it is determined that the travel speed is fast based on a comparison result between a travel speed at which the mobile communication terminal travels and a predetermined speed. The movement prediction apparatus according to 1. A mobile communication terminal communicating with a radio base station;
In a mobile communication system having a mobile prediction device that predicts a mobile route of the mobile communication terminal and switches a connection between the mobile communication terminal and a radio base station based on the predicted mobile route,
The movement prediction device is
A map information storage unit storing map information;
Based on the position information representing the current position of the mobile communication terminal and the map information acquired from the map information storage unit, predict the movement route of the mobile communication terminal,
Based on the prediction result of the movement path, predict a radio base station that is a connection partner having a cell adjacent to the cell of the radio base station with which the mobile communication terminal is communicating,
The mobile communication terminal determines that the mobile communication terminal has arrived at a planned switching point on the movement route in a portion where a cell of the radio base station with which the mobile communication terminal is communicating and a cell of the radio base station to be connected to overlap In the mobile communication system, switching is controlled for a radio base station having a cell including the longest predicted movement path among the radio base stations to be connected.   A mobile communication terminal used in the mobile communication system according to claim 4. A mobile communication terminal having position information detecting means for detecting a position of the mobile communication terminal; a radio base station that communicates with the mobile communication terminal; a movement prediction device that predicts a movement path of the mobile communication terminal; and the movement prediction Switching of radio base stations, which is connected to a device and configured by a map information storage unit storing map information, and used for a mobile communication system in which the mobile communication terminal performs communication by switching radio base stations to be connected to. A control method,
The movement prediction device is
Based on the position information representing the current position of the mobile communication terminal and the map information acquired from the map information storage unit, predict the movement route of the mobile communication terminal,
Based on the prediction result of the movement path, predict a radio base station that is a connection partner having a cell adjacent to the cell of the radio base station with which the mobile communication terminal is communicating,
The mobile communication terminal determines that the mobile communication terminal has arrived at a planned switching point on the movement route in a portion where a cell of the radio base station with which the mobile communication terminal is communicating and a cell of the radio base station to be connected to overlap A switching control method for a radio base station, wherein switching is controlled for a radio base station having a cell including the longest predicted travel path among the radio base stations to be connected.