JP2009284252A - Mobile station, mobile communication system, and radio quality measurement method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To execute measurement adapted to moving speed of a mobile station to attain improvement of network processing, saving of radio resources or reduction of power consumption of the mobile station. <P>SOLUTION: The mobile station which measures radio quality includes: a speed detection part which detects the moving speed; a control part which changes a measurement parameter of the radio quality according to the detected moving speed; and a measurement part which measures the radio quality based on the changed measurement parameter. The measurement parameter may include at least one of measurement frequencies per unit time; a measurement period; a filtering system of measurement; and a report period of a measurement result. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a mobile station, a mobile communication system, and a radio quality measurement method. In particular, the present invention relates to a mobile station, a mobile communication system, and a radio quality measurement method applicable to UMTS (Universal Mobile Telecommunications System) and LTE (Long Term Evolution) systems.

  UMTS is commonly called a third or 3.5th generation mobile phone system. The architecture of this UMTS system is shown in FIG. 1A. The UMTS system includes a radio network control station (RNC) connected to a core network (CN), a radio base station (Node B), and a mobile station (UE) (see Non-Patent Document 1).

  The radio network control station (RNC) is a control apparatus that performs radio resource management, radio base station control, and the like, and performs handover control, for example. A radio base station (Node B) is connected to a mobile station (UE) via a radio interface. A radio base station covers one or more cells.

  When the mobile station is in the standby state, the mobile station measures the radio quality of the radio base station (local station) in the area and the radio base stations (other stations) in the vicinity (Measurement), and the cell of the mobile station Used for cell selection / cell reselection. In addition, when the mobile station is in communication state, the mobile station measures the radio quality of itself and other stations, reports the measurement result to the radio base station, and the radio network control station receives the measurement result received from the mobile station. Based on the above, a handover station is selected.

The measurement period, filtering method, and report period of such measurement are notified from the radio network control station or defined in the 3GPP specifications. As for specific measurement methods, the requirements are specified by 3GPP (3rd Generation Partnership Project) specifications (see Non-Patent Documents 2 and 3).
W-CDMA mobile communication system, supervised by Keiji Tachikawa, published 4th March, 2002, 96 pages 3GPP TS25.133 v7.11.0 3GPP TS25.331 v7.8.0

  The measurement period, filtering method, and report period set in the radio network control station are set to unique values in the system, taking into account the network processing load, radio resource status, cell area design, mobile station power consumption, etc. ing.

  The measurement result is used for cell selection / cell reselection in the mobile station and handover station selection in the radio network control station. Therefore, depending on the moving speed of the mobile station, there is an optimum measurement parameter for each mobile station. Conceivable. However, in the current 3GPP specification, since only a unique value can be set as a measurement parameter in the system, it is optimized only for a specific moving speed.

  In this case, depending on the moving speed, the mobile station performs unnecessary measurement, reports measurement results, and filtering processing, and may consume extra power. In addition, the processing load on the radio network control station and the radio resources may be compressed. From the viewpoint of continuation of the connected call, there is a possibility that the call can be disconnected as a result of the failure of the optimum handover.

  Similar problems exist not only in the UMTS system but also in an LTE (Long Term Evolution) system commonly called Super 3G.

  Therefore, in order to solve at least one of the above-described problems, the present invention implements measurement adapted to the moving speed of the mobile station to improve network processing, save radio resources, or reduce power consumption of the mobile station. The purpose is to do.

In order to solve the above object of the present invention, the mobile station of the present invention
A mobile station that measures radio quality:
A speed detector for detecting the moving speed;
A control unit that changes a measurement parameter of radio quality according to the detected moving speed; and a measurement unit that measures radio quality based on the changed measurement parameter;
One of the features is to have

Further, the wireless quality measurement method of the present invention includes:
A method for measuring radio quality at a mobile station, comprising:
Detecting the moving speed;
Changing radio quality measurement parameters according to the detected moving speed; and performing radio quality measurements based on the changed measurement parameters;
One of the features is to have

The mobile communication system of the present invention is
A mobile communication system having a mobile station that measures radio quality and a control station that communicates with the mobile station:
The mobile station
A speed detector for detecting a moving speed; and a transmitter for transmitting the detected moving speed to the control station;
A measurement unit for measuring radio quality based on measurement parameters received from the control station;
Have
The control station
A control unit that determines a measurement parameter of radio quality of the mobile station according to a moving speed received from the mobile station; and a transmission unit that transmits the determined measurement parameter to the mobile station;
One of the features is to have

Further, the wireless quality measurement method of the present invention includes:
A wireless quality measurement method in a mobile communication system having a mobile station and a control station communicating with the mobile station, comprising:
The mobile station detecting a moving speed;
The mobile station transmitting the detected moving speed to the control station;
The control station determining a radio quality measurement parameter of the mobile station according to a moving speed received from the mobile station;
The control station transmitting the determined measurement parameters to the mobile station; and the mobile station measuring radio quality based on the measurement parameters received from the control station;
One of the features is to have

  According to the embodiment of the present invention, it is possible to perform measurement adapted to the moving speed of the mobile station, and to improve network processing, save radio resources, or reduce power consumption of the mobile station.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1B shows a mobile communication system according to an embodiment of the present invention. Mobile communication systems to which embodiments of the present invention can be applied include, for example, UMTS systems and LTE systems. FIG. 1B shows a UMTS system to which an embodiment of the present invention is applied. In the LTE system to which the embodiment of the present invention is applied, there is no radio network control station (RNC), and the radio base station (eNB) is connected to the core network (CN). As shown in FIG. 1B, a mobile station in a mobile communication system includes a speed detection unit that detects a moving speed, and measurement parameters of radio quality (the number of measurements per unit time, a measurement cycle, and a measurement frequency) according to the detected moving speed. A measurement parameter determination unit that determines a filtering method, a measurement result reporting period, and the like. As will be described below, the measurement parameter determination unit may be provided not in the mobile station but in a control station that controls the mobile station, such as a radio network control station and a radio base station.

<First embodiment: Control of measurement cycle adapted to the moving speed of a mobile station>
In the first embodiment of the present invention, a method for controlling a measurement cycle in a mobile station in accordance with the moving speed of the mobile station will be described.

  As described above, when a mobile station is in a standby state, the mobile station measures (measures) the radio quality of the radio base station (local station) in the area and the radio base stations (other stations) that exist in the vicinity. And used for cell selection / cell reselection of the mobile station. Also, when the mobile station is in communication state, the mobile station measures the radio quality of its own station and other stations, reports the measurement result to the radio base station, and the radio network control station receives the measurement result received from the mobile station. Based on the above, a handover station is selected.

  The mobile station according to the first embodiment of the present invention detects the moving speed of the mobile station itself, and changes the measurement cycle for measuring the radio quality of the local station and other stations according to the moving speed. There are various methods for detecting the moving speed in the mobile station, such as calculation from frequency Doppler, counting the number of cell reselections within a certain time, and counting how much the GPS positioning has moved within a certain period.

  An example in which the mobile station changes the measurement period according to the moving speed is shown in FIG. When the mobile station determines that the moving speed of the mobile station itself is high (FIG. 2B) (for example, when the mobile station is on the Shinkansen and moves at high speed), the mobile station is in a stopped state The sampling interval of measurement is made shorter than (FIG. 2A), and the number of samplings is increased. For example, when the number of times of sampling in the stop state is once every 3 seconds, the number of times of sampling in the state of high speed movement is set to 3 times every 3 seconds. That is, when the moving speed is high, the mobile station increases the number of measurements per unit time and shortens the measurement cycle. By doing in this way, the influence of the fluctuation | variation of the reception level by movement can be decreased.

  Also, when the mobile station determines that the moving speed of the mobile station itself is low (or determines that the mobile station is in a stopped state), the mobile station sets the measurement sampling interval longer than when in the high speed state, Reduce the number of samplings. That is, when the moving speed is low, the mobile station decreases the number of measurements per unit time and lengthens the measurement cycle. By doing so, the power consumption of the mobile station can be reduced.

  In FIG. 2, the stopped state and the high speed state are shown, but the steps may be finely divided according to the detection accuracy of the moving speed of the mobile station. In the high speed state, not only the measurement cycle is simply shortened as shown in FIG. 2 (B), but also the measurement cycle is shortened as shown in FIG. 2 (C). Thus, multiple measurements may be performed. For example, the measurement cycle A is made shorter than the measurement cycle in the stopped state (or the same as the measurement cycle in the stopped state), and is measured twice in one measurement cycle A and in a measurement cycle B shorter than the measurement cycle A. Measurement may be performed.

  Further, when it is not necessary to set the measurement cycle in detail for each moving speed, the measurement cycle may be simplified so as to scale with respect to the stationary state. For example, when moving at low speed, multiply the measurement cycle at stationary by a factor of 1.0 to obtain the measurement cycle, and at medium speed movement, multiply the measurement cycle at stationary by a coefficient of 0.66 (2/3). Thus, the measurement cycle may be obtained by multiplying the measurement cycle at rest by a coefficient of 0.33 (1/3) when moving at high speed.

  With reference to FIG. 3, the procedure of the measurement cycle control method of the mobile station according to the first embodiment of the present invention will be described.

  First, the mobile station detects the moving speed of the mobile station itself (S101). When the detected moving speed is 40 km / h or less (S103: NO), the mobile station determines that it is in a low-speed moving state or a stationary state, and sets the number of samplings per unit time to one (S107). .

  When the detected moving speed is higher than 40 km / h (S103: YES), the mobile station further determines whether or not the moving speed is higher than 300 km / h (S105). When the detected moving speed is greater than 40 km / h (S103: YES) and 300 km / h or less (S105: NO), the mobile station determines that it is in a medium speed moving state, and the number of samplings per unit time Is set twice (S109).

  If the detected moving speed is greater than 300 km / h (S105: YES), the mobile station determines that the mobile station is in a high-speed moving state, and sets the number of samplings per unit time to 3 (S111). The mobile station measures the radio quality according to the set number of samplings (S113).

<Second embodiment: Control of filtering method adapted to moving speed of mobile station>
In the second embodiment of the present invention, a method of controlling the measurement filtering method in the mobile station in accordance with the moving speed of the mobile station will be described.

  The mobile station according to the second embodiment of the present invention detects the moving speed of the mobile station itself, and changes the filtering method when measuring the radio quality of the own station or other stations according to the moving speed. The filtering process when measuring the radio quality refers to a process of removing a result error by averaging a plurality of acquired samples or removing a specific sample. Therefore, the filtering method is determined by the number of samples to be filtered and the specified range (predetermined range from the average value) used when removing errors. The filtering process includes L1 / L2 filtering implemented in hardware (implemented in a lower layer), L3 filtering implemented in software (implemented in a higher layer), and the like. In general, faster processing can be realized by performing L1 / L2 filtering. Therefore, L1 / L2 filtering is used for short-time filtering processing, and L3 filtering is used for long-time filtering processing.

  An example in which the mobile station changes the filtering method according to the moving speed is shown in FIG. When the mobile station determines that the moving speed of the mobile station itself is high (FIG. 4B), the number of samples (average) used for the filtering process is greater than when the mobile station is in a stopped state (FIG. 4A). Less samples). When reporting the measurement result averaged by the filtering process, the reporting timing of the radio quality increases by reducing the number of samples used for the filtering process. By doing in this way, the influence of the fluctuation | variation of the reception level by movement can be decreased.

  Also, when the mobile station determines that the moving speed of the mobile station itself is low (or when it is determined that the mobile station is in a stopped state), the mobile station increases the number of samples used for the filtering process than in the high speed state. . When reporting the measurement results averaged by the filtering process, the reporting timing of the radio quality is reduced by increasing the number of samples used for the filtering process. By doing so, the power consumption of the mobile station can be reduced.

  When the method for controlling the measurement cycle (the number of samplings per unit time) is used at the same time as in the first embodiment, the number of samples used for the filtering process should be determined in consideration of the measurement cycle. For example, when the mobile station performs measurement every second during low-speed movement and filters and reports the measurement results of five times, the measurement result is reported every five seconds. Depending on the moving speed of the mobile station, there is a possibility that the measurement period is too long when reporting the measurement results every 5 seconds. Thus, when the second embodiment is used simultaneously with the first embodiment, the number of samples used for the filtering process may be set smaller.

  In addition, when it is not necessary to set the number of samples used for the filtering process finely for each moving speed, the number of samples may be simplified so as to be scaled with respect to the stationary state. For example, when moving at low speed, multiply the number of samples at rest by a factor of 1.0 to obtain the number of samples, and at medium speed movement, multiply the measurement period at rest by a factor of 0.6 to obtain the number of samples. When moving at high speed, the number of samples may be obtained by multiplying the measurement period at rest by a coefficient of 0.4.

  With reference to FIG. 5, the procedure of the measurement cycle control method of the mobile station according to the second embodiment of the present invention will be described.

  First, the mobile station detects the moving speed of the mobile station itself (S201). When the detected moving speed is 40 km / h or less (S203: NO), the mobile station determines that it is in a low-speed moving state or a stationary state, and applies a filtering method that averages using five samples. (S207). In this filtering method, values outside the specified range (values exceeding the predetermined range from the average value) may be deleted.

  When the detected moving speed is higher than 40 km / h (S203: YES), the mobile station further determines whether or not the moving speed is higher than 300 km / h (S205). When the detected moving speed is greater than 40 km / h (S203: YES) and not more than 300 km / h (S205: NO), the mobile station determines that it is in the medium speed moving state and uses three samples. Then, a filtering method for averaging is applied (S209). In this filtering method, values outside the specified range (values exceeding the predetermined range from the average value) may be deleted.

  If the detected moving speed is greater than 300 km / h (S205: YES), the mobile station determines that it is in a high-speed moving state, and applies a filtering method that averages using two samples (S211). ). In this filtering method, values outside the specified range (values exceeding the predetermined range from the average value) may be deleted. The mobile station performs a filtering process according to the set number of samples, and reports the measurement result of the radio quality (S213). Alternatively, the wireless quality measurement result is used for cell selection / reselection of the mobile station.

<Third embodiment: Control of reporting period of measurement result adapted to moving speed of mobile station>
In the third embodiment of the present invention, a method for controlling the reporting period of measurement results in the mobile station in accordance with the moving speed of the mobile station will be described.

  The mobile station according to the third embodiment of the present invention detects the moving speed of the mobile station itself, measures the radio quality of itself and other stations according to the moving speed, and reports the measurement result. To change.

  FIG. 6 shows an example in which the mobile station changes the measurement result reporting period according to the moving speed. When the mobile station determines that the moving speed of the mobile station itself is high (FIG. 6 (B)), the mobile station makes the measurement result reporting cycle shorter than when the mobile station is stopped (FIG. 6 (A)). . By doing so, it is possible to reduce call disconnection due to the influence of fluctuations in the reception level due to movement, and to facilitate handover determination at the radio network control station.

  Further, when the mobile station determines that the moving speed of the mobile station itself is low (or determines that the mobile station is in a stopped state), the mobile station makes the measurement result reporting period longer than that in the high speed state. By doing so, the power consumption of the mobile station can be reduced.

  In addition, when it is not necessary to set a report cycle finely for every moving speed, you may simplify so that a report cycle may be scaled with respect to a stationary time. For example, when moving at low speed, the reporting period is multiplied by a coefficient of 1.0 to obtain a reporting period, and when moving at medium speed, the reporting period is obtained by multiplying the reporting period at stationary by a coefficient of 0.25. When moving at high speed, the reporting period may be obtained by multiplying the stationary reporting period by a coefficient of 0.1.

  With reference to FIG. 7, the procedure of the mobile station measurement result reporting period control method according to the third embodiment of the present invention will be described.

  First, the mobile station detects the moving speed of the mobile station itself (S301). When the detected moving speed is 40 km / h or less (S303: NO), the mobile station determines that it is in a low-speed moving state or a stationary state, and sets the reporting period to 2 seconds (3207).

  When the detected moving speed is higher than 40 km / h (S303: YES), the mobile station further determines whether or not the moving speed is higher than 300 km / h (S305). When the detected moving speed is greater than 40 km / h (S303: YES) and not more than 300 km / h (S305: NO), the mobile station determines that it is in the medium speed moving state and sets the reporting period to 0.5. Set to seconds.

  If the detected moving speed is greater than 300 km / h (S305: YES), the mobile station determines that it is in a high-speed moving state and sets the reporting period to 0.2 seconds (S311). The mobile station reports the measurement result of the radio quality according to the set report cycle (S313).

<Configuration of mobile station>
With reference to FIG. 8, the block diagram of the mobile station 10 which concerns on the 1st-3rd Example of this invention is demonstrated. The mobile station 10 includes a reception / measurement unit 101, a filtering unit 103, a control unit 105, a speed detection unit 107, and a transmission unit 109.

  The reception / measurement unit 101 receives a predetermined signal from a radio base station (local station) that is in the area or a radio base station (other station) that exists in the vicinity, and measures radio quality (sample). Note that the control unit 105 instructs the number of measurements or the measurement cycle per unit time when measuring the wireless quality.

  The filtering unit 103 averages a plurality of samples measured by the reception / measurement unit 101 and deletes values outside the specified range. Note that a filtering method for measuring the radio quality is instructed by the control unit 105.

  The control unit 105 sets radio quality measurement parameters such as the number of measurements per unit time, the measurement period, the measurement filtering method, and the measurement result reporting period according to the mobile station speed detected by the speed detection unit 107. change. Specifically, when the moving speed is high, the number of measurements per unit time in the reception / measurement unit 101 may be increased to shorten the measurement cycle. Further, when the moving speed is high, the number of samples used for filtering processing in the filtering unit 103 may be reduced. Furthermore, when the moving speed is high, the reporting cycle for reporting the measurement result by the transmission unit 109 may be shortened. On the other hand, when the moving speed is low, the number of measurements per unit time in the reception / measurement unit 101 may be reduced and the measurement cycle may be lengthened. Further, when the moving speed is low, the number of samples used for filtering processing in the filtering unit 103 may be increased. Furthermore, when the moving speed is low, the reporting period for reporting the measurement result by the transmission unit 109 may be lengthened.

  The transmission unit 109 transmits the wireless quality measurement result (measurement result after filtering) to the base station or the wireless network control station. Note that the reporting period of the measurement result is instructed by the control unit 105.

  When the cell selection / reselection unit 111 is in a standby state, the cell selection / reselection unit 111 performs cell selection / cell reselection based on the measurement results (measurement results after filtering) of the own station and other stations.

<Fourth embodiment: Control of measurement parameters adapted to the moving speed of a mobile station by a radio network control station>
In the first to third embodiments, the mobile station itself detects the moving speed of the mobile station, and measures the radio quality, such as the number of measurements per unit time, the measurement period, the measurement filtering method, and the measurement result reporting period. Change the parameter. On the other hand, in the fourth embodiment, the mobile station detects the moving speed and notifies this to a control station such as a radio network control station. Further, the radio network control station determines an optimum radio quality measurement parameter in consideration of the network processing load, radio resource status, cell area design, and the like. Thus, by determining the measurement parameters at the radio network control station, it is possible to realize efficient processing for the entire network. In the first to third embodiments, the mobile station changes the measurement parameter considering only the moving speed of the mobile station itself, whereas in the radio network control station, the network processing load, radio resource status, cell area This is because the design can be considered.

  With reference to FIG. 9, the procedure of the measurement parameter control method in the mobile communication system according to the fourth embodiment of the present invention will be described.

  First, the mobile station detects the moving speed of the mobile station itself (S401). The detected moving speed is transmitted to the radio network control station via the radio base station (S403).

  The radio network control station sets the radio quality measurement parameters of the mobile station, such as the number of measurements per unit time, measurement cycle, measurement filtering method, and measurement result reporting cycle, according to the moving speed received from the mobile station. Determine (S405). At this time, the radio network control station may determine the measurement parameter of radio quality in consideration of the network processing load, radio resource status, and cell area design. The determined measurement parameter is transmitted to the mobile station via the radio base station (S407).

  The mobile station changes the radio parameter according to the received moving speed (S409), and measures the radio quality (S411). The measured radio quality is transmitted to the radio network control station via the radio base station (S413).

<Configuration of wireless network control station>
With reference to FIG. 10, the block diagram of the radio | wireless network control station 20 which concerns on 4th Example of this invention is demonstrated. The radio network control station 20 includes a reception unit 201, a measurement parameter determination unit 203, and a transmission unit 205.

  The receiving unit 201 receives a moving speed from a mobile station. The measurement parameter determination unit 203 determines the radio quality measurement parameters of the mobile station such as the number of measurements per unit time, the measurement period, the measurement filtering method, and the measurement result report period according to the moving speed received from the mobile station. To decide. The transmission unit 205 transmits the measurement parameter determined by the measurement parameter determination unit 203 to the mobile station.

  Note that the mobile station used together with the radio network control station of the fourth embodiment has the same configuration as in FIG. However, the mobile station used in the fourth embodiment receives the movement speed from the speed detection unit 107 by the control unit 105 and transmits the movement speed from the transmission unit 107 to the radio network control station 20. Further, the measurement parameter determined by the radio network control station is received by the reception / measurement unit 101. Based on the measurement parameter, the reception / measurement unit 101, the filtering unit 103, the transmission unit 109, and the cell selection / measurement unit 105 The reselection unit 111 is instructed.

  In the fourth embodiment, the wireless quality control parameter is determined by the wireless network control station. However, the wireless quality measurement parameter may be determined by another device such as a base station that controls the mobile station. .

  As described above, in the embodiment of the present invention, the mobile station detects the moving speed of the mobile station itself, and based on the detected moving speed, the number of measurements per unit time, the measurement period, the measurement filtering method, the measurement Change measurement parameters such as the reporting period of results. Only one of these measurement parameters may be changed or may be changed in combination. Note that if only the measurement cycle is changed and the measurement result reporting cycle is not changed, the measurement is adapted to the moving speed, but the effect is reduced because the reporting cycle is not optimized. Therefore, it is possible to set more optimal parameters by combining and changing these measurement parameters.

  Note that the mobile station may notify the radio network control station of the moving speed and receive a measurement parameter change instruction from the radio network control station.

  Thus, according to the embodiment of the present invention, by changing the measurement parameter according to the moving speed of the mobile station, it is possible to improve network processing, save radio resources, or reduce power consumption of the mobile station. Further, handover according to the mobile environment can be performed, and the call connection rate can be improved. In addition, by detecting the moving speed by the mobile station itself, it is possible to measure the speed accurately in a short time, and it is possible to detect the speed even when the mobile station is in a standby state, and control the appropriate measurement parameters. It becomes possible.

  In the embodiments of the present invention, the UMTS system and the LTE system have been described as examples. However, the present invention is not limited to the above embodiment, and can be applied to other mobile communication systems.

Diagram showing network architecture in UMTS The figure which shows the radio | wireless communications system based on the Example of this invention The figure which shows the measurement period of the mobile station which concerns on 1st Example of this invention The flowchart which shows the measurement period control method of the mobile station which concerns on 1st Example of this invention. The figure which shows the filtering control method of the mobile station which concerns on 2nd Example of this invention. The flowchart which shows the filtering control method of the mobile station which concerns on 2nd Example of this invention. The figure which shows the measurement result report period of the mobile station which concerns on 3rd Example of this invention. The flowchart which shows the measurement result report period control method of the mobile station based on 3rd Example of this invention. Configuration diagram of mobile station according to first to third embodiments of the present invention FIG. 9 is a sequence diagram showing a measurement parameter control method in a wireless communication system according to a fourth embodiment of the present invention. Configuration diagram of radio network control station according to fourth embodiment of the present invention

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Mobile station 101 Reception / measurement part 103 Filtering part 105 Control part 107 Rate detection part 109 Transmission part 111 Cell selection / reselection part 20 Radio network control station 201 Reception part 203 Radio parameter determination part 205 Transmission part

Claims (5)

A mobile station that measures radio quality:
A speed detector for detecting the moving speed;
A control unit that changes a measurement parameter of radio quality according to the detected moving speed; and a measurement unit that measures radio quality based on the changed measurement parameter;
A mobile station. The measurement parameter is:
Number of measurements per unit time;
Measurement cycle;
Measurement filtering method; and measurement result reporting period;
The mobile station according to claim 1, comprising at least one of: A method for measuring radio quality at a mobile station, comprising:
Detecting the moving speed;
Changing radio quality measurement parameters according to the detected moving speed; and performing radio quality measurements based on the changed measurement parameters;
A wireless quality measuring method. A mobile communication system having a mobile station measuring radio quality and a control station communicating with the mobile station:
The mobile station
A speed detector for detecting a moving speed; and a transmitter for transmitting the detected moving speed to the control station;
A measurement unit for measuring radio quality based on measurement parameters received from the control station;
Have
The control station
A control unit that determines a measurement parameter of radio quality of the mobile station according to a moving speed received from the mobile station; and a transmission unit that transmits the determined measurement parameter to the mobile station;
A mobile communication system. A wireless quality measurement method in a mobile communication system having a mobile station and a control station communicating with the mobile station, comprising:
The mobile station detecting a moving speed;
The mobile station transmitting the detected moving speed to the control station;
The control station determining a radio quality measurement parameter of the mobile station according to a moving speed received from the mobile station;
The control station transmitting the determined measurement parameters to the mobile station; and the mobile station measuring radio quality based on the measurement parameters received from the control station;
A wireless quality measuring method.

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