JP4445174B2 - Wireless base station - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a radio base station that communicates with a mobile station using radio waves.
[0002]
[Prior art]
In recent years, with the increase in mobile stations such as PHS (Personal Handy phone System) and mobile phones, effective utilization of frequency resources has become a problem. One technique that meets this challenge is path division multiple access (PDMA). As an example of a path multiplex communication realizing method, there is a method in which a radio base station having an adaptive array antenna performs communication by forming a directivity pattern for each of a plurality of mobile stations in different directions. The radio base station can perform communication with a plurality of mobile stations at the same frequency by performing path multiplex communication.
[0003]
The signal received by the radio base station from the mobile station includes a bit pattern called a UW signal defined by the PHS standard before the information portion signal. The radio base station receives a signal obtained by multiplexing received signals from a plurality of mobile stations, and detects a UW signal included in the received signal from each mobile station, thereby obtaining a received signal for each mobile station from the multiplexed signals. To separate. Since the UW signal is common to all mobile stations, when the start point (hereinafter referred to as “reception timing”) of the UW signal received from each mobile station with reference to the start point of the time slot approaches or intersects, In some cases, the adaptive array processing for separating the signals of each mobile station does not function correctly, and the call characteristics of each mobile station may deteriorate. Therefore, it is necessary to control the reception timing of mobile stations multiplexed in the same time slot.
[0004]
The transmission signal transmitted from the radio base station to the mobile station also includes a known bit pattern called a UW signal before the information portion signal, like the received signal. When a mobile station detects a UW signal included in a transmission signal transmitted by a base station, the PHS standard defines that the mobile station transmits a signal to the base station after a predetermined time.
Therefore, the reception timing is changed by moving the start point (hereinafter referred to as “transmission timing”) of the UW signal transmitted to each mobile station with reference to the start point of the time slot of the transmission signal transmitted from the base station to each mobile station. Has been made to move.
[0005]
[Problems to be solved by the invention]
As described above, the technique for controlling the reception timing by moving the transmission timing is based on the premise that the mobile station follows the standard and the movement of the reception timing correctly follows the movement of the transmission timing.
However, some of the old mobile stations and relay stations used as indoor antennas have no tracking capability or have low tracking capability.
[0006]
A mobile station that cannot correctly follow the transmission timing shift cannot detect the UW signal included in the transmission signal after the transmission timing shift, and abnormal operations such as disconnection and interference occur. Therefore, the transmission timing of mobile stations with high tracking capability is moved, mobile stations with low tracking capability are slowed down, and transmission timing is moved at a transmission rate that does not cause a difference in transmission and reception timing. It is desirable to recognize that the radio base station has no tracking capability. Therefore, there is a demand to determine the mobile station's ability to follow the transmission timing movement.
[0007]
In order to meet the above-described demand, an object of the present invention is to provide a radio base station that can determine the mobile station's ability to follow the transmission timing movement of the radio base station.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the radio base station of the present invention transmits, to a mobile station, a transmission signal whose position in the time slot is shifted in a time slot assigned by time division multiplexing. It is characterized in that the follow-up capability of the mobile station with respect to the transmission signal shift is determined based on the position shift of the received signal within the time slot.
[0009]
To achieve the above object, the radio base station of the present invention communicates with the mobile station by transmitting and receiving transmission and reception slot information in transmission and reception slots that are time-division multiplexed and assigned to the mobile station. A radio base station storing first position information indicating a position of the reception slot information in the reception slot, wherein the position of the transmission slot information in the transmission slot is shifted by a first movement amount. Transmission means for transmitting transmission slot information; acquisition means for acquiring second position information indicating a position in the reception slot of reception slot information received corresponding to the transmission slot information transmitted by the transmission means; Based on a difference between the first movement amount and the second movement amount, a first calculation means for calculating a second movement amount that is a difference between the first position information and the second position information; Characterized in that it comprises a determination means for tracking capability of the mobile station with respect to movement of the position in the transmission slot of the serial transmission slot information.
[0010]
Furthermore, the transmission means of the radio base station sets the first movement amount to a value equal to or less than a certain value.
Further, the determination unit of the radio base station stores a threshold value used as a criterion for determining the tracking capability, compares the difference with the threshold value, and the difference is the threshold value. In the following cases, it is determined that the mobile station has the following capability.
[0011]
The determination means of the radio base station compares the difference with the threshold value, and if the difference is equal to or greater than the threshold value, further determines the presence or absence of the second movement amount, When there is no movement amount, it is determined that the mobile station does not have the tracking capability, and when there is the second movement amount, the mobile station determines that the tracking capability is low.
[0012]
If the determination unit of the radio base station determines that the mobile station does not have the tracking capability, the transmission unit further includes a position before shifting the position of the transmission slot information in the transmission slot by the first movement amount. The transmission slot information is transmitted by returning to step S2.
When the determination unit determines that the second movement amount is not present, the transmission unit of the radio base station further transmits transmission slot information by changing a value of the first movement amount. To do.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
As an embodiment according to the present invention, a radio base station 100 will be described with reference to the drawings.
The radio base station 100 wirelessly communicates with a mobile station by a time division multiplex system (TDMA / TDD; Time Division Multiple Access / Time Division Duplex) defined in the PHS standard, and in addition to the time division multiplex, further path multiplex ( PDMA (Path Division Multiple Access) is performed to communicate with the mobile station.
[0014]
<Configuration>
As illustrated in FIG. 1, the radio base station 100 includes antenna units 11 to 14, radio units 21 to 24, a signal processing unit 50, a modem unit 60, a baseband unit 70, and a control unit 80.
(1) Baseband unit 70
The baseband unit 70 is connected to the exchange via an ISDN line.
[0015]
The baseband unit 70 receives packet data through the ISDN line, extracts traffic information from the received packet data, performs TDMA modulation processing and path multiplexing processing, and extracts the extracted traffic through a plurality of channels. The information is decomposed into a plurality of baseband signals and output to the modem unit 60.
Here, in the TDMA modulation processing, four channels are time-division multiplexed in one TDMA / TDD frame according to the PHS standard. One TDMA / TDD frame is composed of four transmission time slots and four reception time slots. A set of one transmission time slot and one reception time slot constitutes one channel by time division multiplexing. Further, in the path multiplexing process, a maximum of four channels are path-multiplexed in each time slot set. Therefore, a maximum of 16 channels are multiplexed in one TDMA / TDD frame by TDMA modulation processing and path multiplexing processing.
[0016]
The baseband unit 70 receives a plurality of baseband signals from the modem unit 60 through a maximum of 16 channels in one TDMA / TDD frame, and generates packet data from the plurality of received baseband signals. The generated packet data is output via the ISDN line.
(2) Modem unit 60
The modem unit 60 receives a baseband signal modulated by π / 4 shift QPSK (Quadrature Phase Shift Keying) from the signal processing unit 50, demodulates the modulated baseband signal, and generates a baseband signal. The baseband signal thus output is output to the baseband unit 70.
[0017]
The modem unit 60 also receives a baseband signal from the baseband unit 70, modulates the received baseband signal with π / 4 shift QPSK, and outputs the modulated baseband signal to the signal processing unit 50.
The modem unit 60 performs the modulation and the demodulation in parallel for a maximum of four TDMA / TDD frames that are path-multiplexed in one time division channel.
[0018]
(3) Signal processor 50
The signal processing unit 50 includes an adaptive array processing unit 51 and a reception timing detection unit 52. Specifically, the signal processing unit 50 is realized by a programmable DSP (Digital Signal Processor).
(Adaptive array processing unit 51)
The adaptive array processing unit 51 receives signals from the radio units 21 to 24, and in the four reception time slots in each TDMA / TDD frame, an error from the reference signal in a part where the content of the received signal is known in advance. Is calculated for each mobile station, and the amplitude and phase of each signal received from the radio units 21 to 24 are adjusted for each mobile station and added according to the calculated weight. As a result, the signal for each mobile station is separated from the path-multiplexed signals received from the radio units 21 to 24 and output to the modem unit 60. In addition, a signal obtained by multiplying the signal received from the modem unit 60 for each mobile station by the calculated weight for each antenna is output to the radio units 21 to 24. Thus, a directivity pattern is formed so that the signal is transmitted only to a desired mobile station.
[0019]
(Reception timing detection unit 52)
The reception timing detection unit 52 acquires a signal separated for each mobile station from the adaptive array processing unit 51 for each time slot in each TDMA / TDD frame, and for each mobile station communicating in the time slot, With reference to the start point of the time slot, the time at which the UW signal is received is measured as follows.
[0020]
A position where a UW signal is included in a series of signals transmitted in a time slot is defined by the PHS standard. The reception timing detection unit 52 stores a reception waveform of the UW signal in advance. The reception timing detection unit 52 calculates a correlation value between the signal waveform corresponding to the UW signal in the reception signal separated for each mobile station by the adaptive array processing unit 51 and the signal waveform stored in advance. The correlation value calculated here is an index representing the degree of coincidence of both waveforms.
[0021]
In addition to the calculated correlation value, the reception timing detection unit 52 has received signals in each period with a period shifted in time corresponding to a communication time of one to several symbols before and after in the UW signal detection window period. A correlation value between the signal waveform and the signal waveform stored in advance is calculated. The period during which the highest correlation value is obtained is determined as the period (timing) during which the UW signal is truly received.
[0022]
The reception timing detection unit 52 sets the start time of the period in which it is determined that the UW signal is received as the reception timing for each mobile station, with the start point of the time slot as a reference. The resolution is determined by the number of oversamples for one waveform period.
When receiving the movement start signal from the control unit 80, the reception timing detection unit 52 starts the measurement and sequentially outputs the measured reception timing to the control unit 80.
[0023]
(4) Control unit 80
Specifically, the control unit 80 includes a microprocessor, a ROM (Read Only Memory) in which a computer program (hereinafter referred to as a program) is recorded, a RAM (Random Access Memory) used for work, and the like. The function is achieved by executing a program recorded in the ROM.
[0024]
The control unit 80 controls the overall operation of the radio base station 100. Here, transmission timing movement control will be described.
The control unit 80 stores a transmission timing target value, a moving speed, and a threshold value in advance. The target value indicates the amount of movement of transmission timing movement in symbol units. As an example, the target value is assumed to be one symbol. The moving speed is the moving amount of the transmission timing that is moved when moving from one frame to the next frame. As an example, it is assumed that the moving speed is 1/50 symbol. The threshold value is a reference value used to determine the reception timing tracking capability of the mobile station when the transmission timing is moved based on the moving speed. As an example, the threshold value is 1 symbol, and the moving speed is The threshold for 1/50 symbols is assumed to be 2/50 symbols.
[0025]
When the multiplicity of the mobile station multiplexed in the time slot of the TDMA / TDD frame is increased, preparation for new multiplexing is performed, or when a new connection request is received from the mobile station, the control unit 80 performs multiplexing. The transmission timing movement process is started when the reception timings of two or more mobile stations are close to each other.
When the transmission timing movement process is started, the control unit 80 outputs a movement start signal to the reception timing detection unit 52, and receives and stores the reception timing before the timing movement from the reception timing detection unit 52.
[0026]
When the control unit 80 stores the reception timing before the timing movement received from the reception timing detection unit 52, the control unit 80 reads the target value and the movement speed.
The control unit 80 moves the transmission timing according to the moving speed for each frame, and further performs a tracking capability determination process for each frame. The control unit 80 compares the transmission timing movement amount with the target value, and if the comparison result shows that the transmission timing movement amount matches the target value, the transmission timing movement processing ends. A description of the transmission timing movement process is omitted.
[0027]
After starting the transmission timing movement, the control unit 80 sequentially receives the reception timing in units of one frame from the reception timing detection unit 52, and determines the tracking ability using the received reception timing.
(Following ability judgment process)
Here, the tracking ability determination process will be specifically described with reference to FIG.
[0028]
The transmission slot 201, the transmission slot 202, the reception slot 203, and the reception slot 204 in FIG. 2 are each one of time slots obtained by dividing one frame of the TDMA / TDD frame into eight.
The transmission slot 201 and the transmission slot 202 are time slots for transmitting a signal from the radio base station 100 to the mobile station, and the reception slot 203 and the reception slot 204 are times for receiving a signal from the mobile station to the radio base station 100. Is a slot. Furthermore, the transmission slot 201 and the reception slot 203 are time slots corresponding to transmission / reception in the same frame. Similarly, the transmission slot 202 and the reception slot 204 are time slots corresponding to transmission / reception in the same frame. . Here, the transmission slot 202 and the reception slot 204 are time slots included in a frame next to the frame including the transmission slot 201 and the reception slot 204.
[0029]
“UW” in each slot indicates a UW signal configured by a bit pattern defined by the PHS standard included in the transmission signal and the reception signal.
The point A in FIG. 2 represents the transmission timing before the transmission timing shift, and the point B represents the transmission timing one frame after the transmission timing shift. The transmission timing movement amount a is a difference between the points A and B with respect to the starting point of the slot, and is a movement amount of one frame, and is equal to the movement speed.
[0030]
In FIG. 2, point C indicates the reception timing before the transmission timing shift, and point D indicates the reception timing one frame after the transmission timing shift. The reception timing movement amount b is the difference between the points C and D with reference to the starting point of the slot.
The control unit 80 calculates a difference between the transmission timing movement amount a and the reception timing movement amount b, and compares the calculated difference with the threshold value.
[0031]
When the difference is equal to or smaller than the threshold, the control unit 80 determines that the mobile station has a tracking capability. When the difference is larger than the threshold, the reception timing movement amount b is 0. Judge whether or not.
When the reception timing movement amount b is 0, the control unit 80 determines that the mobile station does not have the tracking capability, and returns the transmission timing to the point A before the movement.
[0032]
When the reception timing movement amount b is not 0, the control unit 80 determines that the mobile station has low tracking capability. Here, for a mobile station determined to have low tracking capability, the control unit 80 changes the moving speed to a moving speed appropriate for the tracking capability of the mobile station and continues the transmission timing movement process.
<Operation>
The operation of the radio base station 100 will be described using the flowchart shown in FIG.
[0033]
The control unit 80 of the radio base station 100 generates a transmission timing movement request for the mobile station in communication (step S101). Here, the transmission timing movement request is transmitted when the multiplicity of the mobile station multiplexed in the time slot of the TDMA / TDD frame is increased, when preparation for new multiplexing is performed, when a new connection request is received from the mobile station, This is the case when the reception timings of two or more mobile stations are close to each other. When the transmission timing movement request is generated, the reception timing detection unit 52 receives an instruction from the control unit 80, acquires the reception timing of the mobile station that is the target of transmission timing movement, and the control unit 80 stores the acquired reception timing. (Step S102).
[0034]
Next, the control unit 80 reads out a target value, a moving speed, and a threshold value of transmission timing that are set in advance and stored therein. The control unit 80 moves the transmission timing according to the moving speed for each frame (step S103).
The control unit 80 determines whether or not the transmission timing has moved to the target value (step S104). When the transmission timing has moved to the target value (YES in step S104), the transmission timing movement process is terminated. If the transmission timing has not moved to the target value (NO in step S104), the reception timing detection unit 52 acquires the reception timing of the current frame, and the control unit 80 stores the acquired reception timing and the stored timing shift. A reception timing movement value that is a difference from the previous reception timing is calculated (step S105).
[0035]
Subsequently, the control unit 80 calculates a difference between the reception timing movement value and the transmission timing movement value (step S106), and compares the calculated difference with the threshold value. If the difference is less than or equal to the threshold value (YES in step S107), the process returns to step S103 and continues. If the difference is equal to or greater than the threshold value (NO in step S107), the control unit 80 determines whether or not the reception timing movement value is zero.
[0036]
If the reception timing movement value is not 0 (NO in step S108), the movement speed is changed (step S109), and the process returns to step S102 and continues.
If the transmission timing movement value is 0 (YES in step S108), the control unit 80 returns the current transmission timing to the transmission timing before the transmission timing movement request is generated (step S110), and ends the process.
[0037]
<Summary>
As described above, the radio base station 100 moves the transmission timing of the transmission slot information to the mobile station that is communicating in the time slot and communicates with the mobile station in order to determine the capability of following the transmission timing movement. The movement amount of the reception timing of the mobile station is acquired, and the acquired reception timing movement amount is compared with the transmission timing movement amount moved by the radio base station 100. If the difference between the transmission timing movement amount and the reception timing movement amount is equal to or less than a predetermined value, it can be seen that the mobile station is following. When the difference increases with time, it can be seen that the mobile station has low tracking capability. When there is no movement of the reception timing, it can be seen that the mobile station does not have a tracking capability. Based on these determination results, the radio base station 100 can avoid abnormal operations such as disconnection and interference of mobile stations that do not follow by changing the transmission timing movement method.
[0038]
Although the present invention has been described based on the above embodiment, the present invention is not limited to the above embodiment, and the following cases are also included in the present invention.
(1) The radio base station 100 in the above embodiment performs the tracking capability determination every frame, but may be configured to determine the tracking capability every 3 frames, every 5 frames, etc.
[0039]
(2) Further, when there is a multiple connection request from a new mobile station in a time slot to which the mobile station is already connected, a configuration for determining whether or not a new multiplex is possible using the tracking capability of the already connected mobile station It is good. Thereby, an unreasonable multiple connection can be avoided.
(3) Further, in addition to using the reception timing detected by the reception timing detection unit 52 for determination of the tracking capability, it may be configured to acquire a timing difference between multiple connected mobile stations. As a result, it is possible to avoid excessive multiple connections and improve call characteristics.
[0040]
(4) In the above-described embodiment, the mobile station determined to have low tracking capability is configured to continue the transmission timing movement process by changing the movement speed to an appropriate value. And it is good also as a structure which changes a threshold value into the value suitable for the moving speed after a change.
(5) The present invention may be the method described above.
[0041]
(6) Further, the present invention may be a computer program that realizes these methods by a computer, or may be a digital signal composed of the computer program.
Further, the present invention assumes that the computer program or the digital signal is recorded on a computer-readable recording medium such as a floppy disk, a hard disk, a CD-ROM, an MO, a DVD-ROM, a DVD-RAM, or a semiconductor memory. Also good. Further, the computer program or the digital signal recorded in these recording media may be transmitted via an electric communication circuit, a wireless or wired communication circuit, a network represented by the Internet, or the like.
[0042]
Further, the present invention may be a computer system including a microprocessor and a memory, the memory storing the computer program, and the microprocessor operating according to the computer program.
In addition, the program or the digital signal is recorded on the recording medium and transferred, or the program or the digital signal is transferred via a network or the like, and executed by another independent computer system. It is good.
[0043]
(7) The above embodiment and the above modifications may be combined.
[0044]
【The invention's effect】
As described above, the present invention is a time slot allocated by time division multiplexing. The transmission signal to be transmitted is shifted by shifting the position of the transmission signal to be transmitted this time with respect to the position of the transmission signal transmitted last time. Within the time slot of the received signal from the mobile station Position of received signal received this time relative to the position of previously received signal Based on the deviation of The position of the transmission signal transmitted this time relative to the position in the time slot of the transmission signal transmitted last time It is characterized in that the following capability of the mobile station with respect to the deviation is determined.
[0045]
According to this configuration, the radio base station can determine the tracking capability of the mobile station while moving the position of the slot information.
Further, the present invention communicates with the mobile station by transmitting and receiving transmission and reception slot information in transmission and reception slots that are time-division multiplexed and assigned to the mobile station, and the reception in the reception slot is performed. A radio base station storing first position information indicating a position of slot information, wherein the first position information is stored in the transmission slot of the transmission slot information. The transmission slot information to be transmitted this time relative to the position of the transmission slot information transmitted last time Transmitting the transmission slot information by shifting the position by the first movement amount, obtaining second position information indicating the position in the reception slot of the reception slot information received corresponding to the transmitted transmission slot information, and A second movement amount that is a difference between the first position information and the second position information is calculated, and based on the difference between the first movement amount and the second movement amount, the transmission slot information within the transmission slot is calculated. It is characterized by determining the following capability of the mobile station with respect to the movement of the position.
[0046]
According to this configuration, the radio base station determines the ability of the mobile station to follow the movement of the transmission slot information by acquiring the position of the reception slot information in the reception slot before and after moving the transmission slot information. I can do it.
Here, the transmission unit may be configured to set the first movement amount to a value equal to or less than a certain value.
[0047]
According to this configuration, since the value of the first movement amount is set to a predetermined value or less, it is possible to prevent the mobile station from failing in synchronization detection due to a large movement of the transmission slot information.
Here, the determination means stores a threshold value used as a criterion for determining the follow-up ability, compares the difference with the threshold value, and the difference is equal to or less than the threshold value. The mobile station may be configured to determine that it has the following capability.
[0048]
According to this configuration, the radio base station uses the threshold value, and when the difference is equal to or smaller than the threshold value, the mobile station determines that the mobile station has the tracking capability, and therefore can reliably determine the tracking capability.
Here, the determination means compares the difference with the threshold value, and if the difference is equal to or greater than the threshold value, further determines the presence or absence of the second movement amount, and the second movement amount. The mobile station may determine that the tracking capability is not present, and if the second movement amount is present, the mobile station may determine that the tracking capability is low.
[0049]
According to this configuration, when the difference is equal to or larger than the threshold value, the radio base station further determines the tracking capability using the second movement amount. Therefore, it is possible to determine not only the presence / absence of the tracking capability but also the degree of the tracking capability.
Here, when the determination unit determines that the mobile station does not have the tracking capability, the transmission unit further includes the position of the transmission slot information in the transmission slot. To the position of the previously transmitted transmission slot information. You may comprise so that transmission slot information may be transmitted.
[0050]
According to this configuration, when the radio base station determines that the mobile station does not have the following capability, the mobile base station cannot perform synchronization detection by returning the position of the transmission slot information to the position before the movement. Communication disconnection, interference, etc. can be avoided.
Here, when the determination unit determines that the second movement amount is not present, the transmission unit may further transmit transmission slot information by changing a value of the first movement amount. Good.
[0051]
According to this configuration, when the tracking capability of the mobile station is low, the radio base station changes the value of the first movement amount to an appropriate value so that the mobile station cannot perform synchronization detection. Timing movement can be performed while avoiding disconnection, interference, and the like.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a radio base station 100. FIG.
FIG. 2 is a diagram for explaining transmission timing movement and reception timing movement;
3 is a flowchart showing an operation of the radio base station 100. FIG.
[Explanation of symbols]
11-14 Antenna part
21-24 Radio section
50 Signal processor
51 Adaptive array processing unit
52 Reception timing detector
60 Modem part
70 Baseband part
80 Control unit
100 radio base station

Claims (10)

  In the time slot allocated by time division multiplexing, the transmission signal to be transmitted is shifted to the mobile station by shifting the position of the transmission signal to be transmitted this time with respect to the position of the transmission signal transmitted previously in the time slot, and Based on the position shift of the received signal received this time with respect to the position of the received signal received last time in the time slot of the received signal from the mobile station, this time transmission for the position in the time slot of the transmitted signal transmitted last time A radio base station that determines a tracking capability of the mobile station with respect to a displacement of a position of a transmission signal. Communicates with the mobile station by transmitting and receiving transmission and reception slot information in transmission and reception slots that are time-division multiplexed and assigned to the mobile station, and indicates the position of the reception slot information within the reception slot A radio base station storing first position information,
Transmission means for transmitting the transmission slot information by shifting the position of the transmission slot information to be transmitted this time by the first movement amount with respect to the position of the transmission slot information transmitted previously in the transmission slot of the transmission slot information;
Obtaining means for obtaining second position information indicating a position in a reception slot of reception slot information received corresponding to the transmission slot information transmitted by the transmission means;
First calculation means for calculating a second movement amount that is a difference between the first position information and the second position information;
And determining means for determining a follow-up capability of the mobile station with respect to a movement of a position in the transmission slot of the transmission slot information based on a difference between the first movement amount and the second movement amount. Radio base station. The radio base station according to claim 2, wherein the transmission unit sets the first movement amount to a value equal to or less than a predetermined value. The determination means stores a threshold value used as a criterion for determining the follow-up ability, compares the difference with the threshold value, and if the difference is equal to or less than the threshold value, the movement The radio base station according to claim 2, wherein the station determines that the station has the following capability. The determination means compares the difference with the threshold value, and if the difference is greater than or equal to the threshold value, further determines the presence or absence of the second movement amount, and there is no second movement amount The radio base station according to claim 2, wherein the mobile station determines that the tracking capability is not present, and if the second movement amount is present, the mobile station determines that the tracking capability is low. When the determining means determines that the mobile station does not have the tracking capability, the transmitting means further returns the position of the transmission slot information in the transmission slot to the position of the previously transmitted transmission slot information. 6. The radio base station according to claim 5, wherein transmission slot information is transmitted. 6. The transmission unit according to claim 5, wherein when the determination unit determines that the second movement amount does not exist, the transmission unit further transmits transmission slot information by changing a value of the first movement amount. The radio base station described. Communicates with the mobile station by transmitting and receiving transmission and reception slot information in transmission and reception slots that are time-division multiplexed and assigned to the mobile station, and indicates the position of the reception slot information within the reception slot A control method of a radio base station storing first position information,
The control method is:
A transmission step of transmitting the transmission slot information by shifting the position of the transmission slot information to be transmitted this time by the first movement amount with respect to the position of the transmission slot information transmitted previously in the transmission slot of the transmission slot information;
An acquisition step of acquiring second position information indicating a position in a reception slot of reception slot information received corresponding to the transmission slot information transmitted in the transmission step;
A first calculation step of calculating a second movement amount that is a difference between the first position information and the second position information;
A determination step of determining a tracking capability of the mobile station with respect to a movement of a position in the transmission slot of the transmission slot information based on a difference between the first movement amount and the second movement amount. Radio base station control method. Communicates with the mobile station by transmitting and receiving transmission and reception slot information in transmission and reception slots that are time-division multiplexed and assigned to the mobile station, and indicates the position of the reception slot information within the reception slot A program for controlling a radio base station storing first position information,
The program is
A transmission step of transmitting the transmission slot information by shifting the position of the transmission slot information to be transmitted this time by the first movement amount with respect to the position of the transmission slot information transmitted previously in the transmission slot of the transmission slot information;
An acquisition step of acquiring second position information indicating a position in a reception slot of reception slot information received corresponding to the transmission slot information transmitted in the transmission step;
A first calculation step of calculating a second movement amount that is a difference between the first position information and the second position information;
A determination step of determining a tracking capability of the mobile station with respect to a movement of a position in the transmission slot of the transmission slot information based on a difference between the first movement amount and the second movement amount. Program . Communicates with the mobile station by transmitting and receiving transmission and reception slot information in transmission and reception slots that are time-division multiplexed and assigned to the mobile station, and indicates the position of the reception slot information within the reception slot A computer-readable recording medium storing a program for controlling a radio base station storing first position information,
The program is
A transmission step of transmitting the transmission slot information by shifting the position of the transmission slot information to be transmitted this time by the first movement amount with respect to the position of the transmission slot information transmitted previously in the transmission slot of the transmission slot information;
An acquisition step of acquiring second position information indicating a position in a reception slot of reception slot information received corresponding to the transmission slot information transmitted in the transmission step;
A first calculation step of calculating a second movement amount that is a difference between the first position information and the second position information;
A determination step of determining a tracking capability of the mobile station with respect to a movement of a position in the transmission slot of the transmission slot information based on a difference between the first movement amount and the second movement amount. recoding media.

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