JP2007074137A - Mobile terminal device, radio communication network system, control method of mobile body terminal device, control program, and recording medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mobile terminal device, a radio communication network system, a control method of a mobile body terminal device, a control program, and a recording medium that enable inter-channel movement of a mobile station in a radio communication system and keep the system throughput optimum by averaging operation efficiency by channels. <P>SOLUTION: The mobile station 5A when moving to a new service area selects a base station as a handoff destination, based upon the use state of a communication channel in the service area at the movement destination, and communicates with the selected base station B22 through a communication channel corresponding to the base station. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a mobile terminal device, a wireless communication network system, a mobile terminal device control method, a control program, and a recording medium, and in particular, a mobile terminal device that performs wireless communication using a plurality of communication channels, a wireless communication network system, The present invention relates to a control method for a mobile terminal device, a control program, and a recording medium.

A conventional wireless communication network system includes a control station control device that controls the entire system, a file server that stores mobile station information, a control station display device that displays mobile station information, a plurality of user stations, and wireless communication with the mobile station. And a plurality of base stations for performing monitoring and mobile stations to be monitored. The control station control device, file server, control station display device, user station and base station are connected by a wired LAN, and the base station and mobile station are connected by a wireless data link (for example, Patent Document 1). reference).
In the above wireless communication system, in order to increase the system capacity (the number of mobile stations that can communicate wirelessly per second in the system), for example, a plurality of frequencies within the frequency band approved by the Radio Law. It is conceivable to divide into bands and manage as many mobile units as the conventional system capacity for each frequency band. According to this method, the system capacity can be increased in proportion to the number of divisions.
JP 2002-152806 A

However, in order to increase the system capacity in a wireless communication network system, when dividing the frequency band approved by the Radio Law into multiple frequency bands, all the divided channels in any service area are independent. Service will be performed. For this reason, even if it was a multi-channel system, the mobile station was the same as operating on a single channel.
In other words, each mobile station is set in advance with an operating channel, and since this channel was not switched to another channel and operated, there is a difference in operating efficiency for each channel depending on the operating status of the mobile station. There was a problem of being out.
Therefore, an object of the present invention is to enable mobile stations to move between communication channels in a wireless communication system, and to optimize the system throughput by averaging the operational efficiency of each communication channel without being affected by the mobile station's movement status. A mobile terminal device, a wireless communication network system, a mobile terminal device control method, a control program, and a recording medium.

In order to solve the above problem, a mobile terminal device used in a wireless network system in which a plurality of base stations are arranged in each of a plurality of set service areas has a plurality of communication channels that can be used with the base station. When moving to a new service area with a communication unit that performs communication via any one of the communication channels, a handoff destination base station is determined based on the use state of the communication channel in the service area of the movement destination. And a handoff control unit to be selected.
According to the above configuration, when moving to a new service area, the handoff control unit selects a handoff destination base station based on the use state of the communication channel in the destination service area.
Thus, the communication unit communicates with the selected base station via a communication channel corresponding to the base station.

In this case, the handoff control unit may select the handoff destination base station based on the utilization efficiency of the communication channel.
The handoff control unit may select the handoff destination base station so as to make the utilization efficiency substantially uniform among the plurality of communication channels.
Further, the handoff control unit selects, as the handoff destination base station, the base station corresponding to the communication channel with the smallest number of mobile terminal devices performing communication in the destination service area. May be.
Furthermore, the handoff control unit may determine the communication channel with which each base station can communicate based on the received base station code corresponding to each base station.

Further, a wireless communication network system capable of communication between a mobile terminal device and a base station via any one of a plurality of communication channels that can be used in the same service area, the base station includes: An identification code for specifying the communication channel being used is assigned in advance, and when the mobile terminal device moves to a new service area, the mobile terminal device can use a plurality of the self-useable services in the service area of the destination. An actual handoff destination base station is selected from base stations capable of handoff based on a communication channel usage state and the identification code.
In this case, a plurality of mobile terminal apparatuses may be notified of the identification code, the operating state of each base station, and the number of mobile terminal apparatuses accommodated in each base station.

  In addition, a control method for a mobile terminal apparatus used in a radio network system in which a plurality of base stations are arranged in each of a plurality of set service areas is a usage method assigned to the base stations in advance when moving to a new service area. A base station identifying process for identifying a base station that can be handed off in the service area of the moving destination based on an identification code for identifying the communication channel being used, and a use state of a plurality of the communication channels available to itself And a base station selection process of selecting an actual handoff destination base station from the base stations that can be handed off.

A control program for controlling a mobile terminal device used in a wireless network system in which a plurality of base stations are arranged in a plurality of set service areas by a computer is provided when the base station moves to a new service area. A plurality of communications that can be used by the mobile terminal device by identifying a base station that can be handed off in the service area of the movement destination based on an identification code for identifying a communication channel that is allocated in advance to It is characterized in that an actual handoff destination base station is selected from base stations that can be handed off based on the channel use state.
In this case, the handoff destination base station may be selected based on the utilization efficiency of the communication channel.
In addition, the handoff destination base station may be selected so that the utilization efficiency is substantially uniform among the plurality of communication channels.
Furthermore, the base station corresponding to the communication channel with the smallest number of mobile terminal apparatuses performing communication in the destination service area may be selected as the handoff destination base station.
The control programs may be recorded on a computer-readable recording medium.

  Advantageous Effects of Invention According to the present invention, mobile stations can move between communication channels in a wireless communication system, and the operation efficiency for each communication channel is improved and the system throughput is kept optimal without being affected by the movement status of the mobile station. It becomes possible.

Next, preferred embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a conceptual diagram when the wireless network control system of the embodiment is configured by a wireless LAN based on a spread spectrum (SS) wireless communication system.
The radio network control system 100 is roughly divided into control station control devices CC1 to CC3, a main control station device M, base stations B11, B12, B13, B22, B23, B31, B33, and mobile stations 5A, 5B, 5C, 5D.
Data communication in the radio network control system 100 is performed using a plurality of channels (in this embodiment, three channels of communication channels CH1 to CH3) for managing base stations of the same channel for each channel. One control station is assigned. That is, the control station control device CC1 corresponds to the communication channel CH1, the control station control device CC2 corresponds to the communication channel CH2, and the control station control device CC3 corresponds to the communication channel CH3.

Then, the mobile station information (location information, etc.) of all the mobile stations 5 (5A, 5B, 5C, 5D) operated in each communication channel CH1 to CH3 is transmitted together with the base station information by the control station control devices CC1 to CC3. It is grasped | ascertained via base station B11, B12, B13, B22, B23, B31, B33.
The main control station apparatus M comprehensively controls the respective control station control apparatuses CC1, CC2, and CC3. Therefore, each control station control device CC1, CC2, CC3 transmits base station information and mobile station information of the base station under its control to the main control station device M, and the main control station device M manages the operation of the control station of each channel. By performing the above, all base station information and mobile station information can be grasped, and all base stations B11, B12, B13, B22, B23, B31, B33 and the mobile station 5 can be managed in a unified manner.

  Here, the mobile stations 5A, 5B in the service areas SA1 to SA3 of the base stations B11, B12, B13, B22, B23, B31, B33 and the base stations B11, B12, B13, B22, B23, B31, B33, 5C and 5D transmit and receive data using the 1-channel SS communication method. In other words, these base stations B11, B12, B13, B22, B23, B31, and B33 constitute a wireless LAN with each mobile station 5A, 5B, 5C, and 5D in the service areas SA1 to SA3, and perform each polling procedure. The mobile stations 5A, 5B, 5C, and 5D are accessed to exchange data. The base stations B11, B12, B13, B22, B23, B31, B33 and the control station control devices CC1 to CC3 are connected to the wired LAN 10 and function as terminals of the wired LAN 10.

This type of wireless network control system 100 includes:
(1) The position of a plurality of mobile stations can be measured in real time using the DGPS positioning method with one wireless channel.
(2) A wide range of positioning is possible through the combination of wired and wireless networks.
(3) In the control station (or base station), it becomes possible to display the measured position of each mobile station in real time;
(4) The mobile station can display its own position in real time;
(5) The control station control device has a feature that past movement data can be reproduced from a communication log output by the data communication device.
In this case, each base station B11, B12, B13, B22, B23, B31, and B33 is pre-assigned a base station code that can identify a communication channel to be used in the following correspondence relationship.

Base station code channel
1-15 CH1
16-30 CH2
31-45 CH3

Specifically, the base station code = [1] is assigned to the base station B11 that uses the communication channel CH1, and the base station code = [2] is assigned to the base station B31.
Further, the base station code = [16] is assigned to the base station B12 that uses the communication channel CH2, and the base station code = [17] is assigned to the base station B22.
Also, base station code = [31] is assigned to base station B13 using communication channel CH3, base station code = [32] is assigned to base station B23, and base station code = [31] is assigned to base station B33. 33].
Therefore, each mobile station 5A, 5B, 5C, 5D can determine the communication channel used by the corresponding base station by referring to the base station code.
FIG. 2 is a handoff process flowchart in the mobile station. In this case, the mobile station is equipped with a microcomputer and performs the following handoff process by executing a control program stored in advance in a nonvolatile memory such as a ROM.
First, the mobile station 5 acquires own vehicle position positioning information (at least latitude and longitude coordinates) (step S1).
Next, the mobile station 5 selects one determination target base station (hereinafter referred to as a determination base station) which is a base station to be handed off (step S2).
Specifically, one determination base station is selected in consideration of various conditions including the following conditions.
・ Base station wireless service area center coordinates (latitude and longitude coordinates)
・ Base station wireless service area size ・ Base station operation information (in operation / stopped)
・ Number of mobile stations accommodated in base station ・ Communication channel of base station ・ Base station communication status in current communication channel

Next, the mobile station 5 performs communication state determination or operation state determination for the selected determination base station (step S3).
If it is determined in step S3 that the communication state of the selected determination base station is poor or is not in operation (including an operation state corresponding to the non-operation state), the process proceeds to step S2 again and a new operation is performed. A determination base station is selected (step S2), and the same processing is performed thereafter.
If it is determined in step S3 that the selected determination base station is in an operating state and the communication state is good, the mobile station 5 determines the position of the vehicle and the base based on the position information of the vehicle and the center coordinates of the wireless service area of the base station. The distance with the station is calculated (step S4).
Subsequently, the mobile station 5 determines whether or not the vehicle position is within the service area of the determination base station based on the distance between the vehicle position and the base station (step S5).
If it is determined in step S5 that the vehicle position is outside the service area of the determination base station, the process proceeds to step S8.
If it is determined in step S5 that the vehicle position is within the service area of the determined base station, information on the condition-established base station that is the base station for which the handoff condition is satisfied is used as the condition-established base station list. (Step S6).

Then, the plurality of base stations already stored in the condition fulfilled base station list are sorted in ascending order of service area size (step S7).
Next, it is determined whether or not the current determination base station is the last base station (final operational base station) that can be selected as the determination base station (step S8).
If it is determined in step S8 that the current determination base station is not the final operating base station, the process proceeds to step S2 again, and the processes in steps S2 to S8 are repeated.
In the determination in step S8, if the current determination base station is the final operation base station, the service area size is the smallest among the condition satisfaction base stations stored in the condition satisfaction base station list and is used in the service area. The base station using the communication channel with the smallest number of accommodated mobile stations among the communication channels being used is set as the highest priority base station, and it is determined whether or not the mobile station 5 is subscribed to the highest priority base station. (Step S9).
If it is determined in step S9 that the mobile station 5 has already joined the highest priority base station, the handoff is stopped, normal transmission is performed, and the process is terminated (step S11).
If it is determined in step S9 that the mobile station 5 has not yet joined the highest priority base station, a handoff start request, that is, a handoff list is transmitted to the highest priority base station (step S10).

Next, the mobile station 5 waits for an instruction to leave from the currently subscribed base station (step S12).
Subsequently, the mobile station 5 determines whether or not an instruction to leave from the current base station or update information of the handoff list has been received (step S13).
If it is determined in step S13 that a leave instruction and handoff list update information have not been received, the process proceeds to step S12 again to enter a standby state.
If it is determined in step S13 that handoff list update information has been received, the handoff list is updated based on the received handoff list (step S14), and the process returns to step S12.

If it is determined in step S13 that a leave instruction has been received, the mobile station 5 switches the communication channel to the channel of the highest priority base station (step S15).
Subsequently, the mobile station 5 waits for a subscription instruction from the highest priority base station (step S16).
Then, the mobile station 5 determines whether or not a join instruction has been received from the highest priority base station (step S17).
In the determination in step S17, if a predetermined time has elapsed since a subscription instruction from the highest priority base station has not been received and timed out, the current highest base station registered in the conditional base station list is selected. The base station with the smallest service area size next to the priority base station is set as the new highest priority base station, and the mobile station 5 switches the communication channel to the channel of the new highest priority base station (step S18), and the process is stepped again. The process proceeds to S16 and enters a subscription instruction waiting state.
If it is determined in step S17 that a join instruction is received from the highest priority base station, a predetermined join process is performed (step S19), and the handoff process is terminated.
Next, a specific handoff process will be described.

FIG. 3 is an explanatory diagram of the relationship between the base station and the channels used. FIG. 4 is an explanatory diagram of a specific example of handoff processing.
In FIG. 3, the base station B11 and the base station B31 provide a service in the same service area SA1, the base station B12 and the base station B22 provide a service in the same service area SA2, and the base station B13, Base station B23 and base station B33 provide services in the same service area SA3.
The base station B11, base station B12, and base station B13 use the communication channel CH1 as a communication channel, and the base station B22 and base station B23 use the communication channel CH2 as a communication channel. B31 and base station B33 use communication channel CH3 as a communication channel.

At this time, the base station B11 has 20 mobile stations currently accommodated and the maximum number of mobile stations that can be accommodated is 100, and the base station B12 has 15 mobile stations currently accommodated, Assume that the maximum number of mobile stations that can be accommodated is 100, and the base station B13 has 30 mobile stations that are currently accommodated and 100 that can be accommodated.
As a result, the current number of mobile stations using the communication channel CH1 is 65, and the maximum number of mobile stations that can use the communication channel CH1 is 300.
The base station B22 has a capacity of 20 mobile stations and a maximum capacity of 100 mobile stations. The base station B23 has a capacity of 15 mobile stations. Assume that the maximum number of possible mobile stations is 100.

As a result, the current number of mobile stations using the communication channel CH2 is 35, and the maximum number of mobile stations that can use the communication channel CH2 is 200.
The base station B31 has a capacity of 40 mobile stations and a maximum capacity of 100 mobile stations. The base station B33 has a capacity of 20 mobile stations. Assume that the maximum number of possible mobile stations is 100.
As a result, the current number of mobile stations using the communication channel CH3 is 60, and the maximum number of mobile stations that can use the communication channel CH2 is 200.

In the following description, it is assumed that the mobile station 5A subscribes to the base station B11 corresponding to the service area SA1 in the initial state. That is, it is assumed that communication is currently performed using the communication channel CH1, and the mobile station moves to the service area SA2.
First, the mobile station 5A notifies the base station B11 that the handoff condition is satisfied (step S21).
Accordingly, the base station B11 transmits a leave instruction to the mobile station 5A (step S22). As a result, when the mobile station 5A receives the leave instruction, the mobile station 5A sets the standby channel to the communication channel CH2 that is the switching destination.
Next, the base station B11 notifies the control station controller CC1 of the handoff start of the mobile station 5A with the switching destination base station list attached (step S23).
The control station control device CC1 notifies the main control station device M of the handoff start notification of the mobile station 5A based on the handoff start notification of the mobile station 5A (step S24).
Subsequently, the control station control device CC1 refers to the switching destination base station list and instructs the control station control device CC2 to which the base station B22 belongs to start handoff (step S25).

The control station controller CC2 instructs the base station B22 to join the mobile station 5A from the switching destination base station list (step S26).
As a result, the base station B22 transmits a join instruction packet to the mobile station 5A (step S27).
Then, when the transmission of the join instruction packet is completed, the base station B22 notifies the control station controller CC2 of the completion of handoff (step S28).
Thereby, the control station control device CC2 notifies the main control station device M of the completion of the handoff (step S29), and the main control station device M has completed the handoff of the mobile station 5A from the base station B11 to the base station B22. The fact is recorded and the process ends.

As described above, according to this embodiment, since the mobile station can move between channels, the following effects can be obtained.
The system through-put is kept optimal in order to use each channel equally.
In addition, since it is not necessary to install base stations for all channels in one service area, infrastructure (base station) maintenance is reduced.
Furthermore, it is possible to configure a free service area that avoids interference waves and the like.
In other words, it becomes possible for the mobile station to move the service while switching the channel, and it becomes possible to select a communication channel that is not easily affected by the jamming wave existing in the service area, and is resistant to the jamming wave. The system can be constructed.
Further, since the mobile station moves between areas in consideration of channel utilization efficiency, more stable data transmission can be realized.
Yes.

In the above description, the communication channel with the smallest service area size among the condition establishment base stations stored in the condition establishment base station list and the smallest number of mobile stations accommodated among the communication channels used in the service area Although the base station using the base station is the highest priority base station, it is also possible to exclude the base station from the highest priority base station when the number of base stations is close to the maximum capacity.
In the above description, the mobile station is equipped with a microcomputer and executes a handoff process by executing a control program stored in advance in a nonvolatile memory such as a ROM. A control program is stored in a computer-readable recording medium such as an optical recording medium, a magnetic recording medium such as a hard disk, or a semiconductor recording medium such as an IC memory card, and the control program is read from these recording media for handoff control. It is also possible to do so. It is also possible to use a wireless communication function of the mobile station to download and execute a control program from the network.

It is a conceptual diagram at the time of comprising the wireless network control system of embodiment by wireless LAN by a spread spectrum (SS) wireless communication system. It is a handoff process flowchart in a mobile station. It is a relationship explanatory drawing of the channel currently used with the base station. It is explanatory drawing of the specific example of a handoff process.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 ... Wireless network control system 5, 5A, 5B, 5C, 5D ... Mobile station B11, B12, B13, B22, B23, B31, B33 ... Base station CC1-CC3 ... Control station control device M ... Main control station device M

Claims (13)

A mobile terminal device used in a wireless network system in which a plurality of base stations are arranged in each set service area,
A communication unit that performs communication via any one of a plurality of communication channels that can be used with the base station;
When moving to a new service area, a handoff control unit that selects a base station that is a handoff destination based on a use state of the communication channel in the service area of the movement destination;
A mobile terminal device comprising: The mobile terminal device according to claim 1,
The mobile terminal apparatus, wherein the handoff control unit selects the handoff destination base station based on the utilization efficiency of the communication channel. The mobile terminal device according to claim 2, wherein
The mobile terminal apparatus, wherein the handoff control unit selects the handoff destination base station so as to make the utilization efficiency substantially uniform among the plurality of communication channels. The mobile terminal device according to claim 2, wherein
The handoff control unit selects, as the handoff destination base station, the base station corresponding to the communication channel with the smallest number of mobile terminal devices performing communication in the destination service area. Mobile terminal device. The mobile terminal device according to any one of claims 1 to 4,
The mobile terminal apparatus, wherein the handoff control unit determines the communication channel with which each base station can communicate based on the received base station code corresponding to each base station. A wireless communication network system capable of communication between a mobile terminal device and a base station via any one of a plurality of communication channels available in the same service area,
The base station is pre-assigned an identification code for specifying the communication channel being used,
When the mobile terminal apparatus moves to a new service area, the mobile terminal apparatus can perform handoff based on the use statuses of the plurality of communication channels and the identification codes that can be used by the mobile terminal apparatus in the destination service area. Select the actual base station to handoff to,
A wireless communication network system. The wireless communication network system according to claim 6, wherein
A wireless communication network system that notifies the plurality of mobile terminal devices of the identification code, the operating state of each base station, and the number of mobile terminal devices accommodated in each base station. A method for controlling a mobile terminal device used in a wireless network system in which a plurality of base stations are arranged in each of a plurality of set service areas,
When moving to a new service area, a base station that can be handed off in the service area to be moved is specified based on an identification code for specifying a communication channel that is allocated to the base station in advance. The base station identification process,
A base station selection process of selecting an actual handoff destination base station from among base stations capable of handoff based on the use states of the plurality of communication channels available to the self;
A method for controlling a mobile terminal device, comprising: A control program for controlling, by a computer, a mobile terminal device used in a wireless network system in which a plurality of base stations are arranged in each set service area,
When moving to a new service area, a base station that can be handed off in the destination service area is identified based on an identification code for identifying a communication channel that is allocated in advance to the base station. ,
Based on the usage state of the plurality of communication channels that can be used by the mobile terminal device, the base station that is the actual handoff destination is selected from the base stations that can be handed off.
A control program characterized by that. The control program according to claim 9, wherein
A control program for causing the handoff destination base station to be selected based on the utilization efficiency of the communication channel. The control program according to claim 10, wherein
A control program for causing the handoff destination base station to be selected so as to make the utilization efficiency substantially uniform among the plurality of communication channels. The control program according to claim 10, wherein
A control program for causing a base station corresponding to the communication channel with the smallest number of mobile terminal apparatuses performing communication in the service area of the movement destination to be selected as the base station of the handoff destination. A computer-readable recording medium having recorded thereon the control program according to any one of claims 9 to 12.

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