JPH08154264A - Radio communication equipment - Google Patents

Abstract

PURPOSE: To complete smooth communication by deciding a communication base station based on a change in a past reception level stored in time series so as to surely select a base station being a moving destination. CONSTITUTION: A reception level management device 20 in a high frequency reception circuit 2 measures reception levers of transmission signals from plural surrounding base stations for each prescribed time and stores the result in a memory 6. Simultaneously a reception level change calculation circuit 5 compares a reception level stored precedingly with a reception level stored this time to calculate the time series change in the reception level. Then a microcomputer 4 decides whether or not hand-off is made to a base station communicated at present based on the reception level calculated this time and the information the calculated time series change of the reception level to select a communication channel to the base station being a transfer destination. Thus, the selection of other base station than a moving destination is not caused and number of times of hand-off is reduced.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio communication device used as a mobile station in a digital mobile communication system adopting a small zone system such as a car phone and a mobile phone, and more particularly, it improves a zone shift technique. Wireless communication device.

[0002]

2. Description of the Related Art In a mobile communication system for carrying out communication by wirelessly connecting a mobile terminal mounted on a car or a portable terminal, a communication service system called a small zone (or cell) system is generally used. Has been adopted. The small zone system is a system in which a large number of small-scale base stations are provided and the cooperation of these base stations covers a wide communication service area. In this method, the radio wave output is small, and the same channel can be used by multiple base stations (that is, limited frequency resources can be effectively utilized), so an unspecified number of users Has become the mainstream of mobile communications used by.

In addition, when a user performs communication while moving, the user may leave the communication service area of the base station in communication. In such a case, the user is adjacent to the destination. Communication is taken over by a base station that manages a communication service area (referred to as handoff). Therefore, the mobile station periodically measures the reception level of the transmission signal from the peripheral base station, and the reception level of the transmission signal from the base station in communication is deteriorated or the reception quality is deteriorated. In this case, the communication with the base station is handed off, and the communication channel is switched to another base station having the highest reception level at that time. After that, the previous communication is continued via the base station of the switching destination.
Regarding such "switching channels during communication",
The details are described in 4.4.8.5 of RCR-STD28.

[0004]

However, the communication service area (that is, the wireless zone) of each adjacent base station.
Does not have a clear boundary, but has a range overlapping each other. Then, in such a range, the reception levels of the transmission signals from the respective base stations are close to each other. Therefore, the mobile station that has moved to such a range,
As a matter of course, at that point, the base station having the highest reception level is selected and handed off. As a result, it may happen that another base station is selected without selecting the planned destination base station.In such a case, the handoff must be performed again when moving to the destination. Disappear.

As described above, in the conventional method in which the handoff is performed according to the received signal level and the next base station is selected, the number of times of handoff may increase, and there is a possibility that voice interruption or handoff that may occur during handoff occurs. It is difficult to avoid the risk of disconnection due to failure. The present invention has been made in view of the above circumstances, and it is possible to reliably select a destination base station, hand off communication with a base station in communication, and continue communication smoothly. An object is to provide a wireless communication device.

[0006]

In order to achieve the above object, the present invention according to claim 1 is a wireless communication device which serves as a mobile station in a digital mobile communication system employing a small zone system, and comprises a plurality of wireless communication devices. Reception level measuring means for measuring the reception level of the transmission signal from the peripheral base station at every predetermined time, and the measured reception level of the transmission signal from one base station is transmitted from the other base station. Reception level comparison and detection means for comparing and detecting whether or not the reception level of the signal is greater than a predetermined level difference, a reception level at the first measurement point, and a reception level after movement for a predetermined time. Reception level storage means for storing the reception level at two measurement points; and the second measurement point from the first measurement point.
The reception level change amount calculating means for calculating the change amount of the reception level changed with the movement to the measurement point, and further, by the reception level comparison detecting means, the reception levels of the transmission signals from all the peripheral base stations are A communication base station that determines, as a communication base station at that time, a base station having the largest change amount of the reception level calculated by the reception level change amount calculating means when it is detected that the difference is within the predetermined level difference. When the communication base station determined by the determining means and the communication base station determining means is not the base station in communication, handoff communication between the base station in communication,
It is characterized in that the determined communication base station is provided with a communication channel switching means for switching a communication channel.

The invention according to claim 2 is the radio communication apparatus according to claim 1, wherein the communication channel switching means notifies the base station in communication of the switching destination as a radio status report. The communication channel is switched by notifying the perch channel and receiving the notification of the switching destination communication channel corresponding to the perch channel from the base station in communication.

[0008]

According to the configuration of the invention according to claim 1, the radio communication device is adapted to be used as a mobile station in a digital mobile communication system adopting the small zone system. In this case, the reception level measuring means
The reception levels of transmission signals from a plurality of peripheral base stations are measured every predetermined time. In addition, the reception level comparison and detection means causes the measured reception level of the transmission signal from one base station to exceed the measured reception level of the transmission signal from another base station by a predetermined level difference. Whether or not is detected by comparison.

Further, the reception level storage means provides the first
The reception level at the measurement point and the reception level at the second measurement point after the movement for a predetermined time are stored. Further, the reception level change amount calculating means is configured to calculate the change amount of the reception level which changes with the movement from the first measurement point to the second measurement point.

Next, when the reception level comparison and detection means detects that the reception levels of the transmission signals from all the peripheral base stations are within the predetermined level difference, the communication base station determination means The base station having the largest amount of change in the reception level calculated by the reception level change amount calculating means is determined as the communication base station at that time. When the communication base station determined by the communication base station determining means is not the base station in communication, the communication channel switching means hands off the communication with the base station in communication and is determined. The communication channel is switched to the communication base station.

According to the configuration of the invention according to claim 2, the communication channel switching means according to claim 1 notifies the base station in communication of the perch channel of the switching destination as a radio status report. The communication channel is switched by receiving a notification of the switching destination communication channel corresponding to the perch channel from the base station in communication.

As a result of the above, in a situation where there is not much difference in the reception level of the transmission signal from the peripheral base station, the communication base station is determined based on the amount of change in the reception level stored in time series. Since it is determined, it is possible to avoid the problem that the number of handoffs increases due to switching to a base station that is not the destination.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be specifically described below with reference to the drawings. FIG. 1 is a schematic diagram for explaining a usage mode of a wireless communication device according to the present invention, and FIG.
2 is a table showing an example of reception level measurement values at each moving point used in the description of FIG. 1.

In FIG. 1, A, B, and C indicate peripheral base stations, respectively, and an arrow P indicates a traveling locus of the mobile unit. Further, a, b, c, and d indicate points at which the mobile station measured the reception level of the transmission signal from each of the peripheral base stations A, B, and C at regular intervals, and the reception shown in the table of FIG. It is assumed that the level measurement value is obtained. In the table of FIG. 2, the measurement results at the measurement positions a, b, c, d of the reception levels of the transmission signals from the peripheral base stations A, B, C are shown as digital data (0 to 255). ing.

The digital data is a value empirically determined as a value corresponding to the reception level, that is, the electric field strength [dBμ] of the received radio wave, for example, 55 dB.
μ → 120, 5 dBμ → 30. It is now assumed that the mobile device is located at point a in FIG. 1 and is in communication with base station A. At this time, as shown in FIG. 2, the reception level of the transmission signal from each base station A, B, C measured in the mobile station is 1 from the base station A, as shown in FIG.
50 from base station B and 10 from base station C. Then, this measured value is stored, and after a certain period of time, the mobile device reaches the point b. Therefore, similarly, the reception levels of the transmission signals from the base stations A, B, and C at that position are measured and stored. The reception level at this time is 200 from the base station A, 100 from the base station B, and 80 from the base station C. In this case, the value of the reception level from the base station A is considerably larger than the values of the reception levels from the other base stations B and C. Therefore, the communication with the base station A is continued as it is.

After a lapse of a certain period of time, the mobile station reaches point c. Therefore, similarly, the reception levels of the transmission signals from the base stations A, B, and C at that position are measured and stored. The reception level at this time is 150 from the base station A, 160 from the base station B, and 150 from the base station C. In this case, the value of the reception level from the base station B instead of the base station A is the maximum. Here, in the case of the conventional handoff method, the reception level from the base station B is the maximum, so that the handoff is performed to the base station A and the communication channel is switched to the base station B. Then, the change-over base station is selected in consideration of the change in the time series data of the reception level measured and stored in the past.

Specifically, the reception level of the transmission signal from the base station B has a change of 50 (= 100-50) when moving from the point a to the point b, and moves from the point b to the point c. The change at time is 60 (= 160-100). On the other hand, the reception level of the transmission signal from the base station C changes by 70 when moving from the point a to the point b.
(= 80-10), and the change when moving from the point b to the point c is 70 (150-80).

From the amount of change in the reception level, it can be estimated that the mobile unit is closer to the base station C than the base station B. Further, at the point c, the reception level from the base station B is the maximum, but the difference between the reception levels of the base station B and the base station C is only 10 (= 160-150), and the reception level to the base station B is increased. It's hard to think it's heading. That is, based on the measurement result of the reception level at the point c and the change in the reception level time series data, at the point c, the mobile device will be closer to the base station C than the base station B in the future. It is expected. Therefore, at point c, the mobile station
The communication channel is handed off, and this time, the communication channel is switched to the base station C instead of the base station B having the maximum reception level, and the communication is continued via the base station C. After a certain period of time, the mobile device reaches point d. Therefore, similarly, the reception levels of the transmission signals from the base stations A, B, and C at that position are measured and stored. The reception level at this time is 50 from the base station A and 150 from the base station B,
The one from base station C is 200. In this case, the reception level from the base station C is considerably higher than the reception levels of other base stations. Here, in the case of the conventional handoff method, after handing off the communication with the base station B,
Although the communication channel is switched to the base station C, the mobile station continues to communicate with the base station C as it is.

As described above, when the mobile unit moves from the point a to the point d, the conventional handoff method is used.
Since the base station is switched from A to B to C, the handoff is performed twice. However, in this mobile device, only the base station is switched from A to C, so that one handoff is sufficient. FIG. 3 is a block diagram showing a schematic configuration of a receiving circuit in the wireless communication device according to the present invention. A transmission signal received by the antenna 1 from the base station in communication and each base station in the vicinity is a high frequency receiving circuit (RF).
In the reception level measuring device 20 (also called an RSSI detector, which is often used for extracting the signal level in the form of a current corresponding to the strength of the intermediate frequency and converting the voltage) , Its reception level is detected,
It is digitally converted by the A / D conversion circuit 3 and input to the microcomputer 4. Therefore, the microcomputer 4 sets the reception level to an 8-bit digital value (0 to 25) based on the input data.
5) and stores in the memory 6 as each base station data at that time.

Subsequently, the timer 4 provided in the microcomputer 4
When it is confirmed that a certain time (measurement period) has elapsed by 0, the transmission level from the base station in communication and each base station in the vicinity is measured again by the reception level measuring device 20, and the same procedure is performed. Is stored in the memory 6. At the same time, the reception level value change calculation circuit 5 compares the reception level value previously stored with the reception level value stored this time, and calculates the time-series change amount of the reception level. Then, in the microcomputer 4, based on the value of the reception level measured this time and the information about the time-series change amount of the reception level calculated by the reception level value change calculation circuit 5, the base station currently in communication is notified. Then, it decides whether to handoff or not, and switches the communication channel to the base station of the switching destination.

FIG. 4 is a flow chart showing the handoff control performed by the receiving circuit of the radio communication apparatus shown in FIG. First, the power is turned on (S1), and the microcomputer 4 and its peripheral circuits are initialized (S2). Next, the reception levels of the transmission signals from the surrounding base stations A, B, and C are
The reception level measuring device 20 measures (S3), and the measured value is converted into digital data (0 to 255) by the microcomputer 4 and written in the memory 6 (S4). The measurement of each reception level is performed using a period (slot) other than the reception period. In this case, each radio wave is received by tuning to the transmission frequency of each base station by a PLL synthesizer (not shown) provided in the high frequency receiving circuit 2.

Then, when it is confirmed by the timer 40 that the predetermined time has elapsed (Yes in S5), the reception levels of the transmission signals from the respective base stations at that time are compared (S6). Then, when the received signal level from the base station A is larger than the value obtained by adding 30 to the received signal level of each of the other base stations B and C (in the case), the base station A It is confirmed whether communication is in progress (S7). Therefore, when the base station A is not in communication (No in S7), the communication with the base station currently in communication is handed off and the communication channel is switched to the base station A (S8).

The received signal level from the base station B is
When the received signal level of each of the other base stations A and C is larger than the value obtained by adding 30 (in the case), it is further confirmed whether or not the base station B is in communication (S9). . Therefore, when not communicating with the base station B (No in S9), the communication with the currently communicating base station is handed off and the communication channel is switched to the base station B (S1).
0).

Similarly, when the received signal level from the base station C is higher than (in the case of) the received signal levels of the other base stations A and B, the base station C is further in communication. It is confirmed whether or not (S11). Therefore, when not communicating with the base station C (No in S11),
The communication with the currently communicating base station is handed off, and the communication channel is switched to the base station C (S12).

When the difference between the received signal levels from the respective base stations A, B and C is within 30 (in the case), the reception level value change calculation circuit 5 causes the current time of each peripheral base station. The difference between the reception level in step 1 and the previous reception level stored previously is calculated (S13), and the previous reception level and the current reception level are compared (S14). As a result of this comparison, when the increase amount of the reception level of the base station A is the largest (in the case), it is further confirmed whether or not the base station A is in communication with the base station A (S15). If it is not communicating with the base station A (No in S15), the communication with the currently communicating base station is handed off, and the communication channel is switched to the base station A (S16).

Further, when the increase amount of the reception level of the base station B is the maximum (in the case), it is further confirmed whether or not the base station B is in communication (S17). If it is not communicating with the base station B (No in S17), the communication with the currently communicating base station is handed off, and the communication channel is switched to the base station B (S18). Similarly, when the increase amount of the reception level of the base station C is the largest (in the case), it is further confirmed whether or not the base station C is in communication (S19). If it is not communicating with the base station C (No in S19), the communication with the currently communicating base station is handed off and the communication channel is switched to the base station C (S20).

The above steps S7, S9, S11,
If Yes in each of S15, S17, and S19, the process returns to Step S3. FIG. 5 is an example of a handoff sequence performed between the wireless communication device and the base station according to the present invention. The mobile device measures the reception level of the channel currently in communication and the reception level of the perch channel of the peripheral base station. Then, when handing off, the mobile device needs to inform the base station of the perch channel of the switching destination in order to know the communication channel to be switched next. Therefore, the base station notifies the mobile station of the communication channel corresponding to the perch channel, and the mobile station switches to communication with the base station of the switching destination by using the communication channel.

In order to perform the above operation, as shown in the figure, the following handoff sequence is executed between the mobile station and the base station. That is, during communication, the mobile station reports the wireless status to the base station in communication.
When the reception level becomes lower than the others, the report notifies the perch channel of the switching destination.
Next, the base station confirming this confirms the radio status report to the mobile station, and then notifies the call channel of the switching destination. Therefore, the mobile station that has received the notification transmits and receives a synchronization burst for establishing synchronization with the base station of the switching destination using the communication channel of the switching destination, and then the base station of the switching destination. Move to communication with.

It should be noted that the common control channel arranged in the communication zone of each base station includes at least one perch channel. And the mobile station
As fixed information, the frequency used as a perch channel in the system is stored in the ROM. The perch channel is a dedicated carrier for each zone and is a subset of the common control channel including the BCCH.

[0030]

As described above, according to the present invention, the reception level of the transmission signal from the peripheral base station is periodically measured and stored as time series data, and based on the change in the past time series reception level, Since the handoff is performed by selecting the base station of the switching destination, even if the reception level of the transmission signal from the peripheral base station is close, it is possible to mistakenly select the base station other than the movement destination. . As a result, the number of handoffs is reduced, and the risk of voice interruption that may occur during handoff and the risk of line disconnection due to handoff failure are reduced, so that communication can be continued smoothly.

[Brief description of drawings]

FIG. 1 is a schematic diagram for explaining a usage mode of a wireless communication device according to the present invention.

FIG. 2 is a table showing an example of reception level measurement values at each moving point used in the description of FIG.

FIG. 3 is a block diagram showing a schematic configuration of a receiving circuit in the wireless communication device according to the present invention.

FIG. 4 is a flowchart showing handoff control performed by a reception circuit in the wireless communication device shown in FIG.

FIG. 5 is an example of a handoff sequence performed between a wireless communication device and a base station according to the present invention.

[Explanation of symbols]

 1 reception antenna 2 high frequency reception circuit 3 A / D conversion circuit 4 microcomputer 5 reception level value change calculation circuit 6 memory 20 reception level measuring device 40 timer

Claims (2)

[Claims] 1. A wireless communication device serving as a mobile station in a digital mobile communication system employing a small zone system, the receiving level measuring means measuring the receiving levels of transmission signals from a plurality of peripheral base stations at predetermined time intervals. And whether the measured reception level of the transmission signal from one base station is larger than the measured reception level of the transmission signal from another base station by a predetermined level difference or not. Reception level comparison and detection means for detecting, reception level storage means for storing the reception level at the first measurement point, and the reception level at the second measurement point after movement for a predetermined time, the first level By the reception level change amount calculation means for calculating the change amount of the reception level changed with the movement from the measurement point to the second measurement point, and the reception level comparison and detection means, When it is detected that the reception level of the transmission signal from the peripheral base station is within the predetermined level difference, the base station having the largest change amount of the reception level calculated by the reception level change amount calculation means is selected, Between the communication base station determining means for determining as the communication base station at that time, and the communication base station determined by the communication base station determining means, when the base station is not in communication, between the base station in communication A wireless communication device comprising: a communication channel switching unit that switches off a communication channel to a communication base station that has handed off communication. 2. The communication channel switching means notifies the base station in communication of the perch channel of the switching destination as a radio status report, and the base station in communication communicates with the switch destination corresponding to the perch channel. The wireless communication device according to claim 1, wherein the communication channel is switched by receiving the notification of the communication channel.