JPH0723458A - Radio channel allocation control system - Google Patents

Abstract

PURPOSE:To provide a radio channel allocation control system suitable for the system where a moving speed or a moving distance of a mobile station changes over a wide range with respect to the radio channel allocation control system in the mobile communication system. CONSTITUTION:The mobile communication system in which a radio base station 1 and a mobile station 2 make communication via a radio channel in a zone of the radio base station is provided with a radio channel allocation controller 3, which measures a moving speed of the mobile station, sets a predetermined time interval corresponding to the moving speed or sets a predetermined moving distance of the mobile station and tries the changeover of the radio channel between the radio base station 1 and the mobile station 2 for each lapse of the time interval from the communication start or the radio channel changeover trial of a preceding time or every movement of the moving distance by the mobile station.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio channel allocation control system in a mobile communication system, and more particularly to a radio channel allocation control system suitable for a system in which the moving speed or moving distance of a mobile station changes over a wide range. is there.

[0002] In a mobile communication system such as a car phone or a mobile phone, a mobile station communicates with a wireless base station by using an allocated wireless channel within a zone of each wireless base station. .

In a mobile communication system, when the moving speed or moving distance of a mobile station changes over a wide range, an attempt is made to switch the wireless channel in accordance with the moving speed or moving distance so that the optimum wireless channel is always maintained. It is desired to be able to realize the allocation state.

[0004]

2. Description of the Related Art In a conventional mobile communication system, a radio channel once assigned is not normally changed until the end of communication, and at the time of handoff, that is, from a radio zone of a connected base station to an adjacent base station. Only when the wireless base station shifts to the wireless zone, or when the remarkable deterioration of the wireless channel quality due to the interference or the like is detected, the wireless base station performs the reallocation.

Therefore, when the moving speed of the mobile station is high,
Alternatively, even if the moving distance during a call is large, the wireless channel is not reassigned based on the moving speed of the mobile station or the moving distance during the call.

[0006]

The average reception level during communication in a mobile communication system fluctuates depending on the distance between the mobile station and the radio base station, and the distance between the mobile station and the radio base station is , It changes depending on the moving speed of the mobile station. Further, the frequency of occurrence of handoff of the mobile station also changes depending on the moving speed of the mobile station.

In a low speed mobile station or a stationary mobile station, the average reception level is almost constant during a call, and handoff is not much experienced, whereas in a high speed mobile station, the average reception level fluctuates greatly within a short time. The frequency of handoffs is high.

Since the high-speed mobile station uses the radio channel allocated at the start of the call even in a place far away from the position at the start of the call, not only the own station suffers interference deterioration but also the same. This causes interference to other stations that use the wireless channel or the adjacent wireless channel to deteriorate the communication quality.

The present invention is intended to solve such a problem of the prior art, and in a mobile radio system, attempts are made to switch radio channels at regular intervals according to the moving speed of a mobile station, or It is an object of the present invention to always realize an optimal radio channel allocation state by trying radio channel allocation every time the travel distance exceeds a certain value according to the travel distance of a mobile station.

[0010]

FIG. 1 shows the basic configuration of the present invention. (1) In a mobile communication system in which a wireless base station 1 and a mobile station 2 communicate via a wireless channel within the zone of the wireless base station, a fixed time interval is set according to the moving speed of the mobile station. A wireless channel assignment control device 3 is provided that attempts to switch the wireless channel between the wireless base station 1 and the mobile station 2 every time this time interval has elapsed since the start of communication or the previous wireless channel switching attempt.

(2) In (1), the moving speed detecting means 4 for detecting the moving speed of the mobile station is used as the mobile station 2 or the radio base station 1.
When the mobile station is provided with this mobile speed detecting means, the mobile base station or the plurality of radio base stations is configured to notify the radio base station of the detected mobile speed information via a radio line. In the wireless line control station for controlling the connection of the wireless line in the above, the wireless channel assignment control device 3 tries to switch the wireless channel between the wireless base station 1 and the mobile station 2 based on the moving speed information. .

(3) In a mobile communication system in which a radio base station 1 and a mobile station 2 communicate with each other within a zone of the radio base station via a radio channel, a predetermined travel distance in the mobile station is set in advance, A radio channel assignment control device 3 for making an attempt to switch a radio channel between the radio base station 1 and the mobile station 2 every time the mobile station moves this moving distance from the start of communication or the previous attempt to switch radio channels.
To provide.

(4) In (3), the moving distance detecting means 5 for detecting the moving distance of the mobile station is used as the mobile station 2 or the radio base station 1.
When the mobile station is provided with this moving distance detecting means, the information of the detected moving distance is notified to the wireless base station via the wireless line, and the wireless base station or the plurality of wireless base stations are provided. In the wireless channel control station that controls the connection of the wireless channel in the wireless base station 1, the wireless channel assignment control device 3 uses the wireless base station 1 based on the moving distance information.
To try to switch the radio channel between the mobile station 2 and the mobile station 2.

[0014]

When the deterioration of the line quality of the radio channel in the mobile communication system occurs due to the change in the position of the mobile station during a call, the cause is that the high-speed mobile station mostly causes the deterioration. Conceivable. A mobile station that is slow or stationary can ignore changes in its position from the beginning of the call to the end of the call.

In a mobile communication system such as a car phone or a mobile phone, it is considered that the number of portable mobile stations is overwhelmingly large, and even in the car phone, there is a high probability that communication is performed while the mobile phone is stopped. Therefore, it is desirable that the change in the wireless channel quality of the high-speed mobile station or another station due to the high-speed movement be resolved by the wireless channel switching control of the high-speed mobile station itself.

Therefore, when the moving speed of the mobile station is detected and it is determined that the moving body is a high-speed moving body, for example, the time required to move a distance of about 1/10 of the radius of the wireless zone is calculated, Optimal wireless channel allocation can be realized at each time by reallocating a wireless channel suitable for the position of the mobile station at each time that has been set.

As another method, the moving distance of the mobile station is detected, and for example, every time the mobile station moves a distance of about 1/10 of the radius of the wireless zone, a wireless channel suitable for each position of the mobile station is reassigned. As a result, the optimum wireless channel allocation can be realized for each position.

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 2 shows a control flow of an embodiment of the present invention, and shows a case where a moving speed of a mobile station is detected and a radio channel is switched. As shown in FIG. 2, the moving speed of the mobile station is detected during communication on a certain assigned channel, and when the mobile station is a high-speed moving object, the wireless channel switching time interval is calculated.

Then, at every determined time interval, a request is made to the wireless base station to allocate a wireless channel, and if a new channel can be allocated, the new channel is allocated,
If the new channel cannot be assigned, the current channel is maintained.

FIG. 3 shows the configuration of a mobile communication system according to an embodiment of the present invention. It shows the control flow shown in FIG. 2 for detecting the moving speed of the mobile station and switching the channel. It corresponds to the case.

In FIG. 3, 11_1,11_2,… Is a radio base
A transmitter / receiver corresponding to each radio channel of the station,
It is connected to the exchange through the control device 12. Thirteen_1,
Thirteen _2,... are provided for each transceiver,
It is a moving speed detecting means for the mobile station. Transceiver 11
_1,11_2,... and moving speed detecting means 13_1,Thirteen_2,…,and
The communication control device 12 constitutes a wireless base station.

A radio channel assignment control device 14 is provided for each radio base station or for a radio line control station that controls connection of radio lines in a plurality of radio base stations, and is provided according to the moving speed of the mobile station. Radio channel allocation,
Controls switching. In FIG. 3, a solid line connecting each transceiver to the moving speed detecting means and the communication control device represents a communication signal, and a dotted line connecting each transceiver to the radio channel allocation control device represents a control signal.

Moving speed detecting means 13 _1, 13 in FIG.
_2, ... Corresponds to the case where the moving speed of the mobile station is detected in the wireless base station, and the moving speed detector detects the moving speed of the mobile station by receiving the reception signal from each receiver. When the mobile station detects the moving speed, the mobile station is equipped with a similar moving speed detector, and the detected moving speed is notified to the wireless base station via the control channel of the wireless line,
In the wireless base station, the moving speed of the mobile station is obtained from the received data by the moving speed detecting means.

In any case, the obtained information on the moving speed is sent to the radio channel assignment control device by a control signal, and the radio channel assignment control device moves with the radio base station according to the control flow shown in FIG. To the station,
It controls wireless channel allocation and switching according to the moving speed of the mobile station.

The detection of the moving speed of the mobile station in this case is performed as follows as an example. That is, the reception level of a wireless line in mobile communication is generally Raylei.
It is said to suffer gh fading. In Rayleigh fading, the number of times the reception level crosses a certain reference level (the number of level crossings) depends on the moving speed of the mobile station, and when the reference level is equal to the average received power, the number of level crossings N is the maximum. And it becomes like this. N≈f _D [times / second] (1)

Where f _D is the Doppler frequency and
When the wavelength of the radio wave is λ [m] and the moving speed is v [m / s], the following is obtained. f _D = v / λ [Hz] (2)

Therefore, the average power is obtained from the reception level obtained from the receiver, the level crossing is detected by comparing the magnitude relationship between the average power and the instantaneous reception level, and the number of level crossings within the unit time is obtained. Thus, the moving speed of the mobile station can be detected.

FIG. 4 shows an example of the structure of the moving speed detector. Reference numeral 21 is an average level detection unit that detects the average value of the reception level. Reference numeral 22 denotes a comparison unit, which compares the instantaneous reception level with the obtained average value. A change detection unit 23 detects a change in the comparison result of the comparison unit 22. Reference numeral 24 is a change counter, which counts the number of changes detected by the change detector 23 within a unit time. Reference numeral 25 is a conversion unit, which is a change counter 24
The number of changes obtained in step 1 is converted into information on the moving speed and output.

FIG. 5 shows a control flow of another embodiment of the present invention, in which the moving distance of the mobile station is detected,
The case where the wireless channel is switched is shown. As shown in FIG. 5, during communication on a certain allocation channel, a moving distance is detected, and every time the reference distance is reached, a request is made to the wireless base station to allocate a wireless channel, and a new channel can be allocated. In this case, the new channel is assigned, and if the new channel cannot be assigned, the current channel is maintained.

FIG. 6 shows the configuration of a mobile communication system according to another embodiment of the present invention, which corresponds to the control flow shown in FIG. 5 for detecting the moving distance and switching the channel. is doing.

In FIG. 6, the same parts as those shown in FIG.
The same number, 15_1,15 _2,… Is each transmission
Mobile distance detection hand of mobile station, which is provided corresponding to the receiver
It is a step. Transceiver 11_1,11_2,… And moving distance detection means
15_1,15_2,..., and the communication control device 12 operates the base station.
Constitute.

Moving distance detecting means 15 _1, 15 in FIG.
_2, ... Corresponds to the case where the moving distance of the mobile station is detected in the wireless base station, and the moving distance detector detects the moving distance of the mobile station by receiving the received signals from the respective receivers. When the mobile station detects the moving distance, the mobile station is equipped with a similar moving distance detector, and the detected moving distance is notified to the wireless base station via the control channel of the wireless line,
In the wireless base station, the moving distance detecting means obtains information on the moving distance of the mobile station from the received data.

In any case, the obtained information on the moving distance is sent to the radio channel assignment controller 14 by the control signal.
In accordance with the control flow shown in FIG. 5, the radio channel assignment control device 14 controls the assignment and switching of radio channels to the radio base station and the mobile station according to the moving distance of the mobile station.

In this case, the moving distance of the mobile station can be detected by adding the integrating function to the moving speed detector shown in FIG. 4 and temporally integrating the moving speed.

FIG. 7 shows an example of the structure of the moving distance detector. Reference numeral 31 denotes a moving speed detecting device, which has the same function as the moving speed detector shown in FIG. 4, and obtains the moving speed of the mobile station from the number of level crossings in the received signal. An integrating unit 32 obtains the moving distance of the mobile station by temporally integrating the moving speed information obtained by the moving speed detecting device 31.

[0036]

As described above, according to the present invention, in a mobile communication system in which communication is performed between a radio base station and a mobile station via a radio channel, a call is started according to the moving speed of the mobile station. Since it tried to switch the wireless channel at regular intervals, or according to the moving distance of the mobile station, it tried to switch the wireless channel at regular intervals from the start of the call. Optimal radio channel allocation can be performed, and therefore, not only the mobile station itself does not suffer from interference degradation, but also the occurrence of interference degradation in other stations using the same or adjacent radio channels can be prevented. Become.

[Brief description of drawings]

FIG. 1 is a diagram showing a principle configuration of the present invention.

FIG. 2 is a diagram showing a control flow of an embodiment of the present invention.

FIG. 3 is a diagram showing a configuration of a mobile communication system in an embodiment of the present invention.

FIG. 4 is a diagram showing a configuration example of a moving speed detector.

FIG. 5 is a diagram showing a control flow of another embodiment of the present invention.

FIG. 6 is a diagram showing a configuration of a mobile communication system in another example of the present invention.

FIG. 7 is a diagram showing a configuration example of a moving distance detector.

[Description of Reference Signs] 1 wireless base station 2 mobile station 3 wireless channel allocation control device 4 moving speed detecting means 5 moving distance detecting means

Claims (4)

[Claims] 1. A mobile communication system in which a radio base station (1) and a mobile station (2) communicate with each other via a radio channel within a zone of the radio base station. A wireless channel allocation control device (3) is provided, which sets a time interval and tries to switch the wireless channel every time the time interval has elapsed from the start of communication or the previous attempt to switch the wireless channel. Channel allocation control method. 2. The radio channel allocation control system according to claim 1, wherein the mobile speed detecting means (4) for detecting the mobile speed of the mobile station is provided as the mobile station (2) or the radio base station (1).
If the mobile station is provided with the mobile speed detecting means, the mobile station notifies the radio base station of the detected mobile speed information via the radio line, and connects the radio line to the base station or a plurality of base stations. In the wireless channel control station, the wireless channel allocation control device (3) causes the wireless channel allocation control device (3) to try switching the wireless channel based on the moving speed information. 3. A mobile communication system in which a radio base station (1) and a mobile station (2) communicate with each other via a radio channel within a zone of the radio base station, wherein a predetermined moving distance of the mobile station is set in advance. However, a radio channel allocation control device (3) is provided, which causes the mobile station to try to switch the radio channel every time the mobile station moves the moving distance from the start of communication or the last attempt to switch the radio channel. Channel allocation control method. 4. The radio channel allocation control system according to claim 3, wherein the mobile distance detecting means (5) for detecting the mobile distance of the mobile station is a mobile station (2) or a radio base station (1).
If the mobile station is provided with at least one of the above, and the mobile distance detecting means is provided, the mobile base station is notified of the detected mobile distance information via a wireless line, and the wireless line is connected to the base station or a plurality of base stations. In the wireless channel control station, the wireless channel allocation control device (3) causes the wireless channel allocation control device (3) to try to switch the wireless channel based on the moving distance information.