JP3888761B2 - Channel switching method in mobile communication system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a channel switching method in a mobile communication system, and more particularly to a channel switching method in which channel switching is performed based on a request from a mobile station. In a mobile communication system that employs time division multiple access (TDMA), for example, PDC (Personal Digital Cellular), the reception level of signals from a plurality of peripheral zones is simultaneously used by a mobile station using TDMA empty slots during communication. A system is employed in which the mobile station side detects the zone shift of the mobile station and requests the base station to switch the channel during communication.
This channel switching method is called MAHO (Mobile Assisted Hand Off), but a channel switching request is generated when the reception level of the signal from the surrounding zone is higher than the reception level of the channel being talked about by the judgment threshold. Therefore, channel switching may be frequently performed, which is a problem. The outline will be described below.
[0002]
[Prior art]
16 and 17 are radio status report transmission / reception flowcharts in the conventional channel switching method. 16 and 17, in S41, the mobile station waits for reception of radio status report information sent from the base station in the visited zone through the control channel. The radio status report information includes a perimeter channel frequency code for monitoring the surrounding zone, a regular report time interval (T2), a determination time interval (T1), a report determination threshold (A), a state change amount threshold (B), Information necessary for the mobile station to measure the reception level of the signal from the surrounding zone, such as the level measurement time interval (Ts) and the maximum number of report channels, is included.
[0003]
When the mobile station receives the radio status report information from the base station (S41), the mobile station transmits a radio status report information confirmation on the control channel to the base station (S42), in parallel with the measurement of the reception level of the busy channel of the mobile station. Then, in order to detect the zone shift, measurement of the reception level of the signal from the surrounding zone is started using the empty slot (perch channel) (S43).
[0004]
When the first level measurement for each perch channel is completed (S44), the mobile station transmits a radio status report 1 on the control channel to the base station (S45). Then, the mobile station sets a timer T2 for regular reporting (S46), and compares the reception level of its own call channel and each perch channel within the period when this timer T2 expires (S49) ( S47) It is determined whether or not the reception level of the surrounding zone is higher than the value obtained by adding the determination threshold A to the reception level of the local station (S48). If the reception level of the surrounding zone is small, the timer T2 is timed up. The process returns to S44 after waiting for (S49), performs the second level measurement, and reports the measurement result to the base station (S45).
[0005]
In this way, the mobile station monitors whether or not a situation occurs in which the reception level of the surrounding zone is higher than the reception level of the local station within the periodic report period in which the timer T2 times up (S47 → S48 → S49 → S47) While the reception level of the surrounding zone is low, the wireless state report 1 is repeatedly transmitted every periodic report period T2.
When the mobile station detects that there is a peripheral zone with a high reception level within the period of the regular report (S48), it resets the timer T2 (S50) and transmits a radio status report 2 as a channel switching request to the base station. (S51). Next, the mobile station sets a retransmission timer (S52) and waits for reception of an acknowledgment that the radio status report 2 has been received from the base station (S53 → S54 → S53), and receives an acknowledgment within the waiting period. Then, the retransmission timer is reset (S55), and the processes of S57 to S61 are executed. On the other hand, if the mobile station does not receive an acknowledgment within the waiting period (S53 → S54 → S53) and the retransmission timer expires (S53), the mobile station transmits the radio status report 2 again and the retransmission ends ( S56), similarly, the processing of S57 to S61 is executed.
[0006]
That is, the mobile station waits for the determination time interval T1 to elapse (S57), and compares the reception level of its own call channel and each perch channel (S58), and the reception level of the surrounding zone is the reception level of its own station. It is determined whether or not the value is larger than the value obtained by adding the determination threshold A to (S59). If the reception level in the surrounding zone is low, the process returns to S44, and the above-described periodic report operation is performed.
[0007]
On the other hand, if the reception level in the surrounding zone is still larger than the value obtained by adding the determination threshold A to the reception level of the local station (S59), whether or not the difference between the previous and current reception levels is greater than the state change amount threshold B. (S60). If the difference between the previous and current reception levels is larger than the state change amount threshold B, a channel switching request is transmitted again to the base station (S51). If the difference between the previous and current reception levels is not greater than the state change amount threshold B, it is determined whether or not the previous retransmission performed in S56 is successful (S61), and the retransmission is successful. If the retransmission is not successful, the channel switching request is transmitted again to the base station (S51).
[0008]
As described above, in the channel switching based on the conventional MAHO operation, the mobile station compares the reception level of its own station with the maximum reception level of the signal from the peripheral zone, and the peripheral reception level is higher than the reception level of its own station. Is also performed by transmitting a radio status report 2 which is a channel switching request to the base station when the report determination threshold A is greater than or equal to.
[0009]
[Problems to be solved by the invention]
By the way, the radio zone includes a zone called “cell” that defines the service area of the base station and a zone called “sector” obtained by dividing the cell into a plurality of zones. In the conventional channel switching method, channel switching is likely to occur when a mobile station moves in the vicinity of such a zone boundary during a call.
[0010]
18 and 19 are explanatory diagrams of reception levels when the mobile station moves between cell zones and between sector zones.
In FIG. 18, the cell zone 21 is a service area of the base station 23, and the cell zone 22 is a service area of the base station 24. The cell zones 21 and 22 are formed with a slight overlap. When the mobile station 25 moves along the overlapping portion of the overlapping portions of the cell zones 21 and 22 in the direction indicated by the arrows, the receiving electric field 25 of the transmitting radio wave of the base station 23 and the receiving electric field 26 of the transmitting radio wave of the base station 24 are obtained. Are similar at the same level.
[0011]
In such a case, depending on the reception position, the reception electric field in the surrounding zone may easily exceed the value obtained by adding the determination threshold A to the reception electric field of the local station. Then, channel switching may occur frequently. 23, the service area of the base station 31, that is, the cell zone, is divided into, for example, three sector zones 32, 33, and 34. Similarly, when the mobile station 35 moves near the boundary between the sector zones 32 and 34 along the boundary as indicated by the arrows, the reception electric fields of both the sector zones 32 and 34 are similar at substantially the same level. There may be frequent channel switching.
[0012]
Since there is a silent state of several hundred milliseconds for channel switching, when frequent channel switching occurs, the call is interrupted so that communication with the other party cannot be achieved. Even when the reception electric field in the surrounding zone easily exceeds the value obtained by adding the determination threshold A to the reception electric field of the local station, the reception level of the local station is often at a level that does not interfere with the call continuation. In such a case, it is difficult and difficult to communicate with the other party to perform channel switching simply by satisfying the switching condition.
[0013]
An object of the present invention is to provide a channel switching method in a mobile communication system that can suppress the frequency of occurrence of channel switching when a mobile station is in the vicinity of a zone boundary.
[0014]
[Means for Solving the Problems]
FIG. 1 is a block diagram showing the principle of the present invention.
According to the first aspect of the present invention, the mobile station compares the reception level of the signal from the in-zone zone acquired in the channel during communication with the reception level of the signal from the peripheral zone acquired in the non-call channel, In the channel switching method in the mobile communication system that transmits a channel switching request to the base station when the reception level of the mobile station is higher than the reception level of the in-zone zone, the mobile station transmits the zone identification code to be received together with the reception time. A storage unit 1a that sequentially stores, a determination unit 2 that determines whether or not the vehicle travels N times between a plurality of zones within a predetermined time from the zone identification code stored in the storage unit 1a, A threshold value changing means 3a for changing the judgment threshold value to a larger judgment threshold value when it is judged that a plurality of zones are traversed N times within a predetermined time; Characterized in that it obtain.
[0015]
That is, in the first aspect of the invention, the mobile station stores the zone identification code that is wirelessly received in the storage unit 1a along with the reception time, and the determination unit 2 is stored in the storage unit 1a. When it is determined from the zone identification code whether or not the zone has been traversed N times within a predetermined time, and it is detected that the zone has been traversed N times within the predetermined time, the threshold changing means 3a Then, the determination threshold employed in the conventional channel switching method is changed to a larger determination threshold so that a channel switching request is issued based on the changed determination threshold. The zone identification code is specifically a base station identification code or a sector identification code.
[0016]
As a result, when the mobile station exists near the boundary of the zone, it is possible to reduce the occurrence of frequent channel switching, and to reduce the frequency of channel switching to such an extent that communication with the other party can be achieved. .
FIG. 2 is a block diagram showing the principle of the present invention.
According to a second aspect of the present invention, in the channel switching method in the mobile communication system according to the first aspect, the threshold value changing means 3b returns the changed determination threshold value to the original determination threshold value after a predetermined time has elapsed. And
[0017]
That is, in the invention according to claim 2, when the mobile station changes the determination threshold value to a large value when the mobile station exists near the zone boundary, the threshold value changing means 3b passes the changed determination threshold value for a predetermined time. Later, the original determination threshold is restored, and the conventional channel switching can be performed thereafter.
As a result, the mobile station can be prevented from generating a channel switching request that would have occurred in the conventional system within the period when the determination threshold value was changed to a large value.
[0018]
FIG. 3 is a block diagram showing the principle of the present invention.
According to a third aspect of the present invention, in the channel switching method in the mobile communication system according to the first aspect, the threshold value changing unit 3c is configured such that the same zone identification code is consecutive several times from the zone identification code stored in the storage unit 1a. Means for determining whether or not the change is made, and the changed determination threshold value is returned to the original determination threshold value when the same zone identification code continues several times.
[0019]
That is, in the invention according to claim 3, when the mobile station changes the determination threshold value to a large value when it exists in the vicinity of the boundary of the zone, the threshold value changing means 3c stores the zone identification stored in the storage means 1a. From the code, it is determined whether or not the same zone identification code is continued several times. If the same zone identification code is continued several times, it can be determined that the traffic between adjacent zones has been stopped. The determined threshold value is returned to the original determination threshold value so that the conventional channel switching can be performed.
[0020]
As a result, during the period until the changed determination threshold is returned to the original determination threshold, it is possible to prevent a channel switching request that would have occurred in the conventional method from occurring.
FIG. 4 is a block diagram showing the principle of the present invention.
According to a fourth aspect of the present invention, in the channel switching method in the mobile communication system according to the first aspect, the threshold value changing means 3d uses the changed determination threshold value after the channel switching request is transmitted to the base station. It returns to a judgment threshold value, It is characterized by the above-mentioned.
[0021]
That is, in the invention according to claim 4, when the mobile station changes the determination threshold to a large value when it exists in the vicinity of the zone boundary, the threshold changing unit 3 d requests the channel switching based on the changed determination threshold. Is issued, the original determination threshold value is restored so that the conventional channel switching can be performed.
As a result, it is possible to prevent a channel switching request that would have occurred in the conventional system from occurring within a period until a channel switching request is issued based on the changed determination threshold.
[0022]
According to a fifth aspect of the present invention, in the channel switching method in the mobile communication system according to the first to fourth aspects, the zone identification code is a base station identification code.
According to a sixth aspect of the present invention, in the channel switching method in the mobile communication system according to the first to fourth aspects, the zone identification code is a sector identification code.
[0023]
That is, according to the fifth and sixth aspects of the invention, when the mobile station exists near the boundary between the cell zone and the sector zone, the determination threshold value can be changed to suppress frequent occurrence of channel switching requests.
FIG. The present invention In Related first technology It is a principle block diagram of.
The present invention In Related first technology The mobile station compares the reception level of the signal from the current zone acquired in the channel during communication with the reception level of the signal from the peripheral zone acquired in the non-call channel, and the reception level of the peripheral zone is In a channel switching method in a mobile communication system in which a channel switching request is transmitted to a base station when the received level is higher than a determination threshold value by a mobile station, the mobile station stores the measured signal reception levels from the located zone one by one Means 1b, reception level determination means 4 for determining whether or not a reception level equal to or greater than a certain electric field value is continued a predetermined number of times from the reception level stored in the storage means 1b, and the reception level determination means 4 includes a certain electric field When it is determined that the reception level equal to or greater than the value has continued for a predetermined number of times, determination stop means 5 for stopping the comparison with the determination threshold value is provided. To.
[0024]
That is, The present invention In Related first technology Then, the mobile station stores the reception level of the signal from the zone in the storage unit 1b one by one, and the reception level determination unit 4 receives a reception level that is equal to or higher than a certain electric field value from the reception level stored in the storage unit 1b. Is determined for a predetermined number of times, and when it is detected that the predetermined number of times is continued, the determination stopping unit 5 stops the comparison with the determination threshold value.
[0025]
As a result, the telephone call can be continued without switching the channel in a situation where a channel switching request would have been generated in the conventional system, and communication with the communication partner can be reliably achieved.
The present invention In Related second technology Is The present invention In Related first technology In the channel switching method in the mobile communication system, the mobile station further includes determination restarting means 6 for restarting comparison with the determination threshold after a predetermined time after execution of the determination stopping means 5.
[0026]
That is, The present invention In Related second technology In the mobile station, the determination restarting means 6 restarts the comparison with the determination threshold after a predetermined time after the execution of the determination stopping means 5. As a result, depending on the location of the mobile station, the received electric field strength may be weaker than the determination threshold, but the timing for issuing a channel switching request by restarting the comparison with the determination threshold after an appropriate time has elapsed. It can be lost.
[0027]
The present invention In Related third technology Is The present invention In Related first technology In the channel switching system in the mobile communication system, the mobile station further includes determination restarting means 7 for restarting the comparison with the determination threshold when the reception level becomes a certain electric field value or less after execution of the determination stopping means 5. It is characterized by that.
That is, The present invention In Related third technology Then, the mobile station restarts the comparison with the determination threshold when the determination restarting means 7 becomes a certain electric field value or less after the execution of the determination stopping means 5. As a result, the received field strength may be weaker than the judgment threshold depending on the location of the mobile station, but the timing to issue a channel switching request by detecting a decrease in the received field strength and restarting the comparison with the judgment threshold So that you don't lose.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. First of the present invention 1 to 7th It is an example of a structure of the mobile station of embodiment. In FIG. 8, the mobile station 10 of this embodiment includes three storage devices 14, 15, and 16 in addition to the control unit 11, the wireless unit 12, and the antenna 13. Although not shown, the control unit 10 is connected to an external input / output device such as a telephone or a terminal.
[0029]
The control unit 11 uses the stored program control method including a central processing unit (CPU), a program memory, and a working memory to perform the above-described MAHO operation (control of radio status report) using a control channel and a communication channel in a TDMA radio channel with a base station. Transmission / reception, reception level measurement of own station and surrounding zone, etc., control of outgoing / incoming calls, channel switching, call termination, etc. by control channel, control of code decoding / bit synchronization, etc. In addition to performing the operation, the determination threshold value changing operation according to the present invention is performed using the three storage devices 14, 15, and 16.
[0030]
Here, the storage device 14 is a device that stores a base station ID, the storage device 15 is a device that stores a color code, and the storage device 16 is a device that stores a reception level. The base station ID is a base station identification code transmitted to a mobile station existing in the service area of the base station, that is, a cell, using a busy channel. The color code is a sector identification code transmitted to a mobile station existing in a sector obtained by dividing the service area of the base station using a busy channel.
[0031]
With the above configuration The present invention The correspondence with is as follows. The storage devices 1 and 15 correspond to the storage unit 1a. The control unit 11 corresponds to the determination unit 2, the threshold change units 3 a to 3 d, the reception level determination unit 4, the determination stop unit 5, and the determination restart units 6 and 7.
[0032]
Next, the operation of this embodiment will be described with reference to FIGS. The determination threshold value changing operation of this embodiment is performed in parallel with the above-described MAHO operation. In FIGS. 9 to 15, the same reference numerals are given to portions that are the same processing.
FIG. Of the present invention First of It is an operation | movement flowchart of embodiment. Figure 8 and 9, the TDMA radio signal transmitted from the base station enters the radio unit 12 through the antenna 13, undergoes amplification / demodulation processing, etc., becomes a baseband signal, and is input to the control unit 11. The control unit 11 extracts the data signal of the busy channel from the TDMA signal input from the radio unit 12, extracts the zone identification code (S1), and if the received zone identification code is the base station ID, the base station ID Is stored in the storage device 14 together with the reception time, and if the received zone identification code is a color code, the color code is stored in the storage device 15 together with the reception time (S2).
[0033]
Then, in parallel with the writing to the storage devices 14 and 15, the control unit 11 takes out the zone identification code from the storage devices 14 and 15 together with the reception time, and has not been continuously traversed between a plurality of zones a predetermined number of times. It is determined whether or not (S4). That is, the control unit 11 determines whether or not the mobile station 10 is in the vicinity of the boundary between the cell zone and the sector zone and frequently moves between adjacent zones.
[0034]
If the mobile station 10 moves within the same cell or sector, or passes through a plurality of cell zones or sector zones, but cannot be said to frequently come and go, the object of this embodiment Since it is outside, the control part 11 returns to S46 of FIG. 16 (S4: No (NO)), and transfers to the operation | movement which performs generation | occurrence | production of the channel switching request | requirement based on the conventional determination threshold value A. FIG.
[0035]
On the other hand, when the mobile station 10 is in the vicinity of the boundary between adjacent cells and sectors and frequently travels (S4: affirmative (YES)), the determination threshold is set to the conventional determination threshold A. The value α is changed to (A + α) (S5). Therefore, in S48 of FIG. 16, a negative (NO) determination is made, and an operation of transmitting the radio status report 1 to the base station is performed. Thereby, the transmission operation of the radio status report 2 is prohibited, and the occurrence of channel switching is suppressed. The predetermined value α is determined experimentally, for example.
[0036]
Thereafter, the control unit 11 sets a timer T2 for regular reporting (S6), and within the period when this timer T2 times out (S9: affirmative (YES)), the communication channel of the own station and each perch channel The reception levels are compared (S7), and it is determined whether or not the reception levels in the surrounding zones are larger than the value obtained by adding the determination threshold (A + α) changed to the reception level of the local station (S8).
[0037]
As a result of the level comparison, the control unit 11 returns the changed determination threshold (A + α) to the original determination threshold A (S10) when the reception level in the surrounding zone is small (S8: No (NO)), and the timer T2 After waiting for time-up (S9: affirmative (NO)), the process returns to S3, and the confirmation operation of the existence zone of the mobile station 10 is performed again.
On the other hand, as a result of the level comparison, the control unit 11 resets the timer T2 when the reception level of the surrounding zone is high (S8: affirmative (YES)) (S11), and outputs a radio status report 2 that is a channel switching request. It is generated and passed to the radio unit 12 and transmitted to the base station (S12). Thereafter, an operation for confirming whether or not a channel switching request based on the changed determination threshold (A + α) has been accepted by the base station is performed.
[0038]
In the first embodiment, after issuing a channel switching request with the changed determination threshold (A + α) (S12), the process returns to S3 and the above-described operation is performed. That is, the confirmation operation of the existence zone of the mobile station 10 is performed (S4), and when the condition of S4 is still satisfied, the determination threshold is changed (S5). As long as the condition of S8 is still satisfied, a channel switching request based on the changed determination threshold (A + α) is repeatedly transmitted.
[0039]
Next, FIG. Of the present invention Second of It is an operation | movement flowchart of embodiment. Figure 8. In FIG. 10, when the reception level of the surrounding zone is larger than the value obtained by adding the determination threshold (A + α) changed to the reception level of the local station (S8: affirmative (YES)), the control unit 11 Waiting for the passage of time (S13: affirmative (YES)), the changed determination threshold (A + α) is returned to the original determination threshold A (S14), the timer T2 is reset (S11), and the process returns to S46 of FIG.
[0040]
In the second embodiment, the occurrence of a channel switching request is suppressed during the predetermined period waiting in S13.
Next, FIG. Of the present invention Third of It is an operation | movement flowchart of embodiment. Figure 8. In FIG. 11, when the reception level of the surrounding zone is larger than the value obtained by adding the determination threshold (A + α) changed to the reception level of the local station (S8: affirmative (YES)), the control unit 11 It is determined whether or not one of the zones determined in (1) is in a situation where a predetermined number of zones are visited within a predetermined time (S15). If not applicable (S15: negative (NO)), the control unit 11 returns the changed determination threshold (A + α) to the original determination threshold A as in the first and second embodiments (S10). After waiting for the timer T2 to expire (S9), the process returns to S3. If applicable (S15: affirmative (YES)), the changed determination threshold (A + α) is returned to the original determination threshold A (S14). Then, the timer T2 is reset and the process returns to S46 of FIG. 16 (S11).
[0041]
In the third embodiment, when the mobile station 10 frequently moves between a plurality of zones, a channel switching request is issued based on the changed determination threshold value (A + α), and then the traveling in the same zone is performed. In such a case, since a channel switching request based on the conventional determination threshold A is issued, the occurrence of the channel switching request is suppressed during a predetermined period in which the mobile station 10 frequently moves between a plurality of zones.
[0042]
Next, FIG. Of the present invention 4th of It is an operation | movement flowchart of embodiment. Figure 8. In FIG. 12, when the reception level of the surrounding zone is larger than the value obtained by adding the determination threshold (A + α) changed to the reception level of the local station (S8: affirmative (YES)), As in the first embodiment, the timer T2 is reset (S11), and a radio status report 2 that is a channel switching request is generated and passed to the radio unit 12 to be transmitted to the base station (S12). The determined threshold value (A + α) is returned to the original determination threshold value A (S14), and the process returns to S46 in FIG.
[0043]
In the fourth embodiment, when the mobile station 10 frequently moves between a plurality of zones, the channel switching is suppressed while the generation condition of the channel switching request based on the changed determination threshold (A + α) is satisfied. .
Next, FIG. Of the present invention 5th of It is an operation | movement flowchart of embodiment. Figure 8. In FIG. 13, the control unit 11 measures the reception level of the signal of the channel during the call one by one (S20), and stores it in the storage device 16 together with the measurement time (S21). Then, in parallel with the measurement operation, the control unit 11 retrieves the measurement data from the storage device 16 and determines whether or not the reception level of the own station is continuously at a reception level equal to or higher than the predetermined number of times GdBμ for a predetermined time. Is determined (S23). Here, the reception level equal to or higher than GdBμ is a reception level at which a call can be made.
[0044]
Then, when the reception state of the mobile station 10 satisfies the requirement of S23 (S23: (YES)), the control unit 11 is in a state in which a call on the same call channel can be maintained, so S48 of FIG. In step S24, a negative (NO) determination is made (S24), that is, the operation of generating a channel switching request is prohibited, the process returns to S20, and the measurement operation is resumed.
[0045]
On the other hand, when the reception state of the mobile station 10 does not satisfy the requirement of S23 in the first measurement result (S23: No (NO)), the determination operation for the occurrence of the channel switching request is not prohibited. Therefore (S25: negative (NO)), the process passes through S26 and directly returns to S46 of FIG. 16 to shift to an operation for generating a channel switching request based on the conventional determination threshold A.
[0046]
In addition, when the reception state of the mobile station 10 does not satisfy the requirement of S23 in the measurement result performed after the operation for determining the occurrence of the channel switching request is prohibited (S24) (S23: No ( NO)), since the operation for determining the occurrence of the channel switching request is prohibited (S25: affirmative (YES)), the measure for prohibiting the operation for determining the occurrence of the channel switching request is canceled (S26), and the process returns to S46 in FIG. The operation shifts to an operation for generating a channel switching request based on the conventional determination threshold A.
[0047]
In the fifth embodiment, even if the reception electric field in the surrounding zone easily exceeds the value obtained by adding the determination threshold A to the reception electric field of the own station, the reception level of the own station does not interfere with the call continuation. If there is a reception level higher than GdBμ, the operation for determining the occurrence of a channel switching request (S48 in FIG. 16) is stopped, and a call can be continued without requesting a channel switching.
[0048]
Next, FIG. Of the present invention 6th of It is an operation | movement flowchart of embodiment. Figure 8. In FIG. 14, in the sixth embodiment, the control unit 11 waits until a predetermined time elapses when the reception state of the mobile station 10 satisfies the requirement of S23 (S23: affirmative (YES)). Only (S27: negative (NO)), the channel switching request occurrence determination operation is prohibited as in the fifth embodiment (S24), and the process returns to S20, but when a predetermined time has elapsed (S27: positive (YES)), the channel is switched. The request generation determination operation prohibition is canceled (S28), and the process returns to S46 in FIG. 16 and shifts to an operation for generating a channel switching request based on the conventional determination threshold A.
[0049]
In the sixth embodiment, the reception electric field in the surrounding zone easily exceeds the value obtained by adding the determination threshold A to the reception electric field of the own station, and the reception level of the own station does not interfere with the call continuation. When there is a reception level equal to or higher than GdBμ, the operation for determining the occurrence of a channel switching request is stopped within a predetermined period, and a call can be continued without making a channel switching request.
[0050]
Next, FIG. Of the present invention 7th of It is an operation | movement flowchart of embodiment. Figure 8. In FIG. 15, in the seventh embodiment, the control unit 11 controls the channel as in the fifth embodiment when the reception state of the mobile station 10 satisfies the requirement of S23 (S23: affirmative (YES)). The switching request generation determination operation is prohibited (S24), the process returns to S20 via S29, and the process proceeds to the measurement operation. In S29 of this transition process, there is no problem in continuing the call even if the reception level of the local station is once. It is determined whether or not the reception level is lower than GdBμ. Then, if the reception level of the local station may fall below GdBμ even once (S29: affirmative (YES)), the control unit 11 immediately cancels the prohibition of determination operation for the occurrence of a channel switching request (S28). Returning to S46 of S16, the process proceeds to an operation for generating a channel switching request based on the conventional determination threshold A.
[0051]
In the seventh embodiment, the reception electric field in the surrounding zone easily exceeds the value obtained by adding the determination threshold A to the reception electric field of the local station, and the reception level of the local station has no problem in continuing the call. Whether or not there is a reception level equal to or higher than GdBμ is monitored, and the channel switching determination operation is stopped until the reception level decreases, so that the call can be continued without requesting the channel switching.
[0052]
【The invention's effect】
As explained above, Book In the invention, when the mobile station detects a situation in which channel switching may occur frequently, the mobile station changes the determination threshold to a value at which channel switching requests are unlikely to occur frequently.
Also, Book In the invention, when the received electric field level is a level that does not require channel switching, the mobile station maintains the busy channel as it is, monitors the change of the received level, and loses the generation timing of the channel switching request. I'm trying not to get it.
[0053]
Therefore, according to the present invention, the frequency of occurrence of channel switching can be reduced, and the occurrence of a situation in which communication cannot be achieved by channel switching can be avoided.
[Brief description of the drawings]
FIG. 1 is a block diagram showing the principle of the first aspect of the present invention.
FIG. 2 is a principle block diagram of the invention according to claim 2;
FIG. 3 is a block diagram showing the principle of the invention according to claim 3;
FIG. 4 is a principle block diagram of the invention according to claim 4.
[Figure 5] The present invention In Related first technology It is a principle block diagram of.
[Fig. 6] The present invention In Related second technology It is a principle block diagram of.
[Fig. 7] The present invention In Related third technology It is a principle block diagram of.
[Fig. 8] First of the present invention 1 to 7th It is an example of a structure of the mobile station of embodiment.
FIG. 9 Of the present invention First of It is an operation | movement flowchart of embodiment.
FIG. 10 Of the present invention Second of It is an operation | movement flowchart of embodiment.
FIG. 11 Of the present invention Third of It is an operation | movement flowchart of embodiment.
FIG. Of the present invention 4th of It is an operation | movement flowchart of embodiment.
FIG. 13 Of the present invention 5th of It is an operation | movement flowchart of embodiment.
FIG. 14 Of the present invention 6th The fruit It is an operation | movement flowchart of embodiment.
FIG. 15 Of the present invention 7th of It is an operation | movement flowchart of embodiment.
FIG. 16 is a radio status report transmission / reception flowchart in the conventional channel switching method (1/2);
FIG. 17 is a radio status report transmission / reception flowchart in the conventional channel switching method (2/2).
FIG. 18 is an explanatory diagram of a reception electric field level when a mobile station moves between cell zones.
FIG. 19 is an explanatory diagram of a reception electric field level when a mobile station moves between sector zones.

Claims (6)

The mobile station compares the reception level of the signal from the service zone acquired on the active channel with the reception level of the signal from the peripheral zone acquired on the non-call channel, and the reception level of the peripheral zone is the reception level of the service zone. In a channel switching method in a mobile communication system that transmits a channel switching request to a base station when it is higher than a determination threshold value than a level,
The mobile station
Storage means for sequentially storing zone identification codes for wireless reception together with reception times;
A determination means for determining whether or not the vehicle has been moved N times between a plurality of zones within a predetermined time from the zone identification code stored in the storage means;
And a threshold value changing means for changing the determination threshold value to a larger determination threshold value when it is determined that the determination means moves N times between a plurality of zones within a predetermined time. A channel switching method in a mobile communication system. In the channel switching method in the mobile communication system according to claim 1,
The channel switching method in a mobile communication system, wherein the threshold value changing unit returns the changed determination threshold value to an original determination threshold value after a predetermined time has elapsed. In the channel switching method in the mobile communication system according to claim 1,
The threshold value changing means includes
It has means for judging whether or not the same zone identification code is continued several times from the zone identification code stored in the storage means, and the changed determination threshold is set to the same zone identification code several times continuously. A channel switching method in a mobile communication system, wherein the original decision threshold is returned to the original determination threshold when In the channel switching method in the mobile communication system according to claim 1,
The channel switching method in a mobile communication system, wherein the threshold changing means returns the changed determination threshold to the original determination threshold after a channel switching request is transmitted to the base station. In the channel switching method in the mobile communication system according to any one of claims 1 to 4,
The zone identification code is a base station identification code. A channel switching method in a mobile communication system. In the channel switching method in the mobile communication system according to any one of claims 1 to 4,
The zone switching code in a mobile communication system, wherein the zone identification code is a sector identification code.

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