JP3948877B2 - Wireless telephone equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an improvement in intermittent reception operation in a radiotelephone device.
[0002]
[Prior art]
A radiotelephone device (hereinafter referred to as a mobile station) such as a PDC (Personal Digital Cellular) is connected to another base station (hereinafter referred to as a peripheral station) from a radio zone of a base station (hereinafter referred to as a local station) that is waiting or communicating. In order to determine whether or not to shift the zone to the wireless zone, the reception level of the radio waves from the peripheral stations in parallel with the measurement of the reception level (RSSI, reception field strength) of the radio waves from the local station We are measuring.
[0003]
FIG. 11 is a diagram for explaining the operation of measuring the reception levels of the mobile station and the peripheral stations by the mobile station.
[0004]
The figure shows a mobile station (PS in the figure), own station 1 (CS1 in the figure) which is a base station where the mobile station is registered, and peripheral stations 2 to 5 (base stations other than the own station 1). In the same figure, it consists of CS2-5. In the figure, the mobile station measures the reception level of its own station 1 at predetermined intervals during communication with the own station 1 and during standby, and at the same time, performs TDMA (Time Division Multiple Access) for each predetermined period. Using the empty channel, the reception level is measured for each of the peripheral stations 2 to 5 in order. More specifically, the measurement operation is repeated so that the local station 1 and the peripheral station 2 in the first cycle, the local station 1 and the peripheral station 3 in the second cycle, and the local station 1 and the peripheral station 3 in the third cycle. The mobile station measures several cycles of the reception level of each base station, and uses the arithmetic average as a measurement value based on a comparison between the measurement value of the own station 1 and the maximum measurement value of the peripheral stations 2 to 5. Determine zone transition. In general, the measured value of the local station is compared with the maximum measured value of the peripheral stations, and the maximum measured value is larger.
[0005]
In the reception level measurement operation, the mobile station reduces power consumption by performing intermittent reception in which the power is turned on only during reception level measurement and the power is turned off during other time periods. The period of intermittent reception in the PDC is generally 720 ms. In other words, the mobile station turns on the power every 720 ms and measures the reception level, and turns off the power at other times.
[0006]
In addition to this intermittent reception, if MSPC (Mobile Station ID) power saving mechanism and fast scan mechanism, which are developed in DSP (Digital Signal Processor) for mobile stations, developed by DSPC technology (DSPC technology limited) are used. Further, it is possible to further reduce the power consumption required for measuring the reception level of the peripheral station.
[0007]
The MSI power saving mechanism compares the reception level with a preset threshold value when the reception level of the local station is measured in each cycle, and the reception level of the local station exceeds the preset threshold value. If this is the case, this is a technique for reducing the power consumption required for the measurement of the peripheral station by skipping the measurement of the reception level of the peripheral station in the period.
[0008]
Fast scan is a technique for measuring a plurality of base stations in a short period of time. By using this technique, it is possible to measure the reception levels of a plurality of base stations within a period required for measuring the reception level of one base station. Since the measurement of the reception levels of a plurality of peripheral stations that has been performed over a plurality of cycles is only one cycle, the measurement of the remaining cycles can be omitted, thereby reducing power consumption.
[0009]
[Problems to be solved by the invention]
As described above, the MSI power saving mechanism and the fast scan mechanism are techniques for reducing power consumption in the reception level measurement operation. However, the fast scan mechanism has low measurement accuracy, and the MSI power saving mechanism has low measurement reliability because the reception level changes due to the movement of the mobile station during the reception level measurement skip for a long period of time. There were drawbacks.
[0010]
On the other hand, in the zone shift, an accurate reception level of the peripheral station is required in order to shift to the optimum peripheral station radio zone.
[0011]
That is, if the reduction of power consumption is pursued, the accuracy of the reception level is lowered, and if the accuracy of reception level is pursued, the reduction rate of the power consumption is lowered.
[0012]
Therefore, the present invention adds a further contrivance to the reception level measurement method using the MSI power saving mechanism and the fast scan mechanism, and makes a trade-off between reducing power consumption and obtaining accurate measurement values in zone transition determination. It is an object of the present invention to provide a mobile phone device that performs a reception level measurement process in consideration.
[0013]
[Means for Solving the Problems]
In order to solve the above problem, a radiotelephone apparatus according to the present invention is a radiotelephone apparatus that measures the reception level of radio waves from a radio base station currently communicating and another radio base station for zone transition determination. , The reception level of radio waves from wireless base stations that are currently communicating or waiting At regular intervals Local station measurement means for repeatedly measuring, peripheral station measurement means for measuring the reception level of radio waves from other radio base stations, and reception levels measured by the local station measurement means Itself When, The reception level of the local station The reception level measured by the peripheral station measurement means; The difference between And changing means for changing the frequency of the measurement by the peripheral station measuring means according to the comparison result.
[0014]
In addition, when the value obtained by subtracting the reception level related to another radio base station from the reception level related to the currently communicating radio base station is a positive value, the changing means is more frequent as the difference in the reception level is smaller. It is comprised so that the said frequency may be changed.
[0015]
According to this configuration, the radiotelephone device increases the frequency of peripheral station measurement when the reception level difference is small, that is, when the probability of zone transition is high. A high reception level of the station can be obtained. In addition, the greater the difference in reception level, that is, the lower the probability of transitioning to a thorn, the lower the accuracy of the reception level that is measured compared to the case where the probability is high. Thus, power consumption for measurement is reduced.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, mobile stations according to embodiments of the present invention will be described with reference to the drawings.
[0017]
FIG. 1 is a configuration diagram of a mobile station 100 in the present embodiment.
[0018]
In the figure, a mobile station 100 is a PDC mobile station, and performs a conversion from an intermediate frequency signal to a high frequency signal or an intermediate frequency signal to a high frequency signal, between the wireless unit 12 and the wireless unit 12 and the TDMA / TDD unit 14. QPSK (Quadrature Phase Shift Keying) modulation / demodulation modem unit 13, time division multiple access (TDMA) / TDD (Time Division Duplex) unit 14 for controlling by time division multiple access method, input / output via microphone 16 and speaker 17 The speech processing unit 15 and the control unit 18 perform speech encoding / decoding processing and amplification of the speech to be performed.
[0019]
The control unit 18 includes a CPU 19, a ROM 20, and a RAM 21, and performs general communication control in the mobile station by the CPU 19 executing various programs stored in the ROM 20, and includes a DSP (not shown) and performs zone transition determination. In order to do this, the reception level measurement processing of the local station and the peripheral station is performed. Here, the local station is a base station that is currently communicating or waiting, as in the prior art, and the peripheral station is a base station in a wireless zone that exists near the wireless zone of the local station. Information about the peripheral station is included in the control information transmitted from the own station.
[0020]
The control unit 18 measures the reception level of the local station for each superframe of 720 ms during communication or standby, and also measures the reception levels of the peripheral stations in parallel with this. However, the control unit 18 performs measurement processing of different powers for measurement according to the reception level of the local station and the difference in the reception level between the local station and the peripheral station.
[0021]
Hereinafter, the reception level measurement process by the control unit 18 will be described in detail.
[0022]
The control unit 18 compares the difference between the reception levels of the local station and the peripheral station, and positions it at any one of a plurality of operation levels having different measured powers according to the difference, thereby responding to the positioned operation level. Receive level measurement processing. In the reception level measurement processing at each operation level, the power consumption for measurement differs depending on the measurement method and measurement frequency of the peripheral stations.
[0023]
FIG. 2 shows the classification of operation levels.
[0024]
As shown in the figure, the operation level depends on the level of the reception level of the local station itself and the difference between the reception level of the local station and the maximum reception level of the peripheral station (hereinafter referred to as the inter-station electric field difference). Are classified into 5 levels. That is, when the local station reception level is 30 dBμV or higher, level 0 when the inter-station electric field difference is 12 dBμV or higher, level 1 when 8 dBμV or higher and lower than 12 dBμV, level 2 when 0 dBμV or higher and lower than 8 dBμV, level 3 when lower than 0 dBμV, − Level 4 when less than 4 dBμV. When the local reception level is less than 30 dBμB, level 0 when the inter-station electric field difference is 20 dBμV or more, level 1 when the difference between 12 dBμV and less than 20 dBμV, level 2 when 0 dBμV or more and less than 12 dBμV, level 3 when less than 0 dBμV, − Level 4 when less than 4 dBμV. In the level 0, level 1 and level 2 reception level measurement processing, the power required for the peripheral station reception level measurement increases in the same order. In other words, the level 0, level 1 and level 2 reception level measurement processing increases the accuracy of the reception level in the same order. That is, at levels 0 to 2, the control unit 18 changes the power required for measurement and the accuracy of measurement by combining the MSI power saving technology, the fast scan technology, the timer, and the like. In level 3 and level 4, since the peripheral station reception level is higher than the local station reception level, there is a high probability that zone transition determination will be performed, so the accuracy of the reception level is increased by not performing MSI power saving or fast scan. .
[0025]
The control unit 18 determines whether or not to appropriately change the operation level from the reception levels of the local station and the peripheral stations measured at each operation level.
[0026]
FIG. 3 shows a transition diagram of the operation level.
[0027]
As shown in the figure, the control unit 18 arbitrarily transits between level 0, level 1, level 2 and level 3. Level 3 is further provided with a level 3 detailed measurement mode, and the control unit 18 always passes through level 3 and level 3 detailed mode, and transitions to level 4.
[0028]
FIG. 4 shows a flowchart of the operation level determination process in the control unit 18.
[0029]
The control unit 18 executes the operation level determination process shown in FIG. 5 when entering the intermittent reception operation for monitoring the reception level of the peripheral station during standby and during the execution of the measurement process at the operation levels 0 to 3.
[0030]
The control unit 18 sets the reception level S of the local station, the maximum reception level N of the peripheral station, and the zone shift level difference Z as initial settings (step 201).
[0031]
Here, the local station reception level S is the local station reception level measured up to step 201.
[0032]
The maximum reception level N of the peripheral station is the maximum value among the reception levels of the peripheral stations measured up to step 201.
[0033]
The zone shift level difference Z is greater than or equal to the difference between the standby permission level, which is an information element included in the broadcast information transmitted from the own station, and the standby deterioration level. In this embodiment, the zone shift level difference Z is 4 dBμV. The standby permission level is an information element that represents a reception level within a range where the mobile station can stand by in each wireless zone, and the standby permission level is deteriorated from the standby state of the mobile station waiting in each wireless zone. It is an information element that represents the reception level that is determined to be (out of service area) (reference document, digital automobile telephone system standard, radio wave system development center).
[0034]
Next, the mobile station 18 calculates the inter-station reception level difference index A from the local station reception level S, the maximum peripheral station reception level N, and the zone shift level difference Z, and the magnitude is compared with the threshold value X0 for level 0 determination. Are compared (step 202).
[0035]
Here, the index A is expressed by (Formula 1).
(Formula 1)
A = (S−N) / Z
That is, the index A is obtained by subtracting the maximum peripheral station reception level N from the local station reception level S and dividing it by the zone shift level difference. However, in this embodiment, the index A is an integer part obtained by rounding down the decimal part of the calculation result on the right side of (Expression 1).
[0036]
The threshold value X0 is 3 when the local station reception level S is 30 dBμV or more, and 5 when it is less than 30 dBμV.
[0037]
If the index A is greater than or equal to the threshold value X0 as a result of the size comparison, the operation level is determined to be level 0 (step 203).
[0038]
When the index A is not equal to or greater than the threshold value X0 in step 202, the control unit 18 compares the index A with the threshold value X1 for level 1 determination (step). Here, the threshold value X1 is 2 when the local station reception level S is 30 dBμV or more, and 3 when it is less than 30 dBμV.
[0039]
As a result of the comparison, if the index A is equal to or greater than the threshold value X1, the operation level is determined to be level 1 (step 205).
[0040]
If the index A is not greater than or equal to the threshold value X1 in step 204, the control unit 18 compares the local station reception level S with the maximum peripheral station reception level N (step 206).
[0041]
As a result of the comparison, when the local station reception level S is greater than the maximum peripheral station reception level N, the control unit 18 determines the operation level as level 2 (step 207).
[0042]
When the local station reception level S is equal to or less than the maximum peripheral station reception level N in step 206, the control unit 18 determines the operation level as level 3.
[0043]
As described above, the control unit 18 determines the operation level and performs reception level measurement processing at each operation level. The reception level measurement processing at each operation level by the control unit 18 is shown in FIGS. The control unit 18 does not determine the transition from the level 3 to the level detailed measurement mode, the transition from the level 3 detailed measurement mode to the level 4 and the transition from the level 4 to the level 3 in this operation level determination process. The determination is made in another process described later.
[0044]
FIG. 5 shows a flowchart of level 0 reception level measurement processing by the control unit 18.
[0045]
At level 0, the peripheral station reception level is considerably lower than the local station reception level. That is, since the probability that the mobile station 100 shifts to a zone at that time is extremely low, high accuracy of the peripheral station reception level is not required. Therefore, at level 0, the control unit 18 combines MSI power saving and fast scan, and performs reception level measurement processing that has the highest power saving effect among the operation levels.
[0046]
First, the control unit 18 calculates the local station threshold TH0 as an initial setting at level 0, and sets it as the threshold for MSI power saving (step 301). The local station threshold value TH0 is the smaller one of (Expression 2) and (Expression 3).
(Formula 2)
TH0 = S − ((S−N) ÷ 2)
(Formula 3)
TH0 = S−Z × 2.25
Here, the local station reception level S, the maximum peripheral station reception level N, and the zone shift level difference Z are the same values as those used in the operation level determination process.
[0047]
Next, when one superframe period (720 ms) has elapsed by the intermittent reception timer (step 302), the control unit 18 measures the current local station reception level Sp (step 303).
[0048]
The control unit 18 compares the measured local station reception level Sp with the local station threshold value TH0 (step 304).
[0049]
If the local station reception level Sp is greater than the local station threshold value TH0 in step 304, the control unit 18 performs MSI power saving. That is, the control unit 18 skips the fast scan for measuring the peripheral station reception level (step 307).
[0050]
On the other hand, when the local station reception level Sp is equal to or less than the local station threshold TH0 in step 304, the control unit 18 measures the peripheral station reception level by fast scan. Here, the control unit 18 sets the maximum value of the measurement results as the maximum peripheral station reception level N, and sets the local station reception level Sp measured in step 303 as the local station reception level S (step 309).
[0051]
Thereafter, the operation level determination process of FIG. 4 is performed (step 310). In this operation level determination process, the local station reception level S and the maximum peripheral station reception level N newly obtained in the level 0 measurement process are used. That is, since the operation level is determined using the latest reception level, the reliability of the determination result is high.
[0052]
As a result of the operation level determination process in step 310, when it is determined to shift to an operation level other than level 0, the control unit 18 ends the flowchart of FIG. 5 and proceeds to the reception level measurement process at the operation level of the transition destination. The processing is shifted (step 311).
[0053]
On the other hand, if the result of the action level determination process in step 310 is that there is no transition to an action level other than level 0, the control unit 18 returns to the process in step 301. Here, in step 301, the control unit 18 uses the same value as that used in the action level determination process. Therefore, for example, when the operation level 0 process is performed first, the operation level determination process of step 310 is performed during the operation level 0 process, and as a result, the operation level 0 process is performed again, the first operation Level 0 is different from operation level 0 performed again in the local station reception level S and the maximum peripheral station reception level N, and also in the local station threshold TH0.
[0054]
As described above, when the local station reception level Sp is equal to or less than the local station threshold value TH0, the control unit 18 measures the peripheral station reception level by fast scan and performs the operation level determination process.
[0055]
On the other hand, the control unit 18 only measures the local station reception level Sp while the local station reception level Sp is greater than the local station threshold value TH0, and skips the measurement of the peripheral station reception level by fast scan. The processing from step 302 to step 207 is repeated during a period when the local station reception level Sp measured for each cycle is larger than the local station threshold value TH0. However, the control unit 18 performs the processing of step 305 and step 306 in order to prevent the fast scan from being continuously skipped over a long period of time. That is, the control unit 18 counts the number of times that the fast scan skip is repeated by counting up the counter C (step 306), and when the counter C exceeds 42 (step 305), that is, 720 ms × 42 times ( When the fast scan continues to be skipped during the period of the timer T0), the fast scan in step 309 is performed. Here, the counter C is reset (step 308). In steps 305 and 306, a counter is used, but a timer for measuring the timer T0 period may be used.
[0056]
As described above, the control unit 18 skips the fast scan while the local station reception level Sp is greater than the local station threshold TH0 and the period during which the fast scan is continuously skipped does not exceed the timer T0 period. If the local station reception level Sp is equal to or lower than the local station threshold TH0, or if the period during which the fast scan is continuously skipped exceeds the timer T0 period, the fast scan is performed and the maximum peripheral The station reception level N and the local station reception level S are updated, and the operation level determination process is performed using the updated values.
[0057]
FIG. 6 shows a flowchart of level 1 reception level measurement processing by the control unit 18.
[0058]
The processing in the figure is the same as the level 0 processing shown in FIG. However, it differs from FIG. 5 in that its own threshold value TH1 is used instead of its own threshold value TH0 and that timer T1 (timer T0> timer T1) is used instead of timer T0.
[0059]
The local station threshold TH1 is expressed by (Expression 4).
(Formula 4)
TH1 = S−Z × 1.75
The period of the timer T1 is 720 ms × 21.
[0060]
In level 1, the maximum peripheral station reception level N is lower than the local station reception level S. That is, since the probability that the mobile station 100 shifts to the zone at that time is in a low state, high accuracy of the reception level of the peripheral station used for detection of the zone shift is not required. However, the probability of zone transition is higher than in the level 0 state, and higher accuracy of the peripheral station reception level is required than level 0. Therefore, at level 1, by shortening the period of timer T1 shorter than timer T0, shortening the period during which fast scan is continuously skipped, and by increasing the frequency at which fast scan is executed than level 0, The power saving effect is higher than level 2, and the reliability of the peripheral station reception level is increased from level 0.
[0061]
As described above, the level 1 processing procedure is the same as the level 1 processing procedure, and detailed description thereof will be omitted. In short, the control unit 18 determines that the local station reception level Sp is larger than the local station threshold value TH1 and that While the period during which scanning is continuously skipped does not exceed the timer T1 period, the skip of the fast scan is repeated, and the local station reception level Sp is equal to or less than the local station threshold TH1, or the fast scan is continuous. When the skipped period exceeds the timer T1 period, the fast peripheral scan is performed to update the maximum peripheral station reception level N and the local station reception level S, and the operation level determination process is performed using the updated values. Do.
[0062]
FIG. 7 shows a flowchart of level 2 reception level measurement processing by the control unit 18.
[0063]
Compared with the level 1 process shown in FIG. 6, the process shown in FIG. 6 uses the local station threshold TH2 instead of the local station threshold TH1, and uses the timer T2 instead of the timer T1. The difference is that normal scanning is performed in which peripheral stations are measured one by one instead of fast scanning.
[0064]
Further, the position of resetting the counter of the timer T2 counter C is different from that of the level 1 processing. That is, in the level 2 reception level measurement process, after the magnitude determination of the timer T2 counter C in step 505, the counter is reset in step 508, but in step 504 the local station reception level Sp is the local station threshold. When the value is less than TH2, the counter is not reset (when the level is 0 or 1, the counter is reset at this timing. That is, the control unit 18 determines the number of times the peripheral station reception level measurement has been skipped continuously. If the skip count exceeds a predetermined number (here, 4) regardless of whether or not it is continuous, the counter is reset (S508).
[0065]
The local station threshold TH2 is expressed by (Formula 5).
(Formula 5)
TH2 = S
The period of the timer T2 is 720 × 4.
[0066]
In level 2, the maximum peripheral station reception level N is slightly lower than the local station reception level S. That is, the probability that the mobile station 100 shifts to the zone at that time is higher than levels 0 and 1. Therefore, higher accuracy of the peripheral station reception level for use in detecting zone transition is required than levels 0 and 1. Therefore, in place of the fast scan performed at the level 0 and the level 1, the accuracy is improved by performing a normal scan for measuring one peripheral station in step 509, and the timer T2 period is made shorter than the timers T0 and T1, The frequency of normal scans is increased.
FIG. 8 shows a flowchart of level 3 reception level measurement processing by the control unit 18.
[0067]
When it is determined in the operation level determination process that the local station reception level S is equal to or lower than the peripheral station reception level N, the control unit 18 determines that a transition from level 3 detailed measurement mode described later to level 3 is made, and from level 4 to level 3 When it is determined to make a transition to, processing shown in FIG. 8 is performed.
[0068]
At level 3, the local station reception level S is lower than the maximum peripheral station reception level. That is, the probability that the mobile station 100 shifts to the zone at that time is high. Therefore, since the accuracy of the peripheral station reception level to be used for detection of the zone shift is required, the control unit 18 at level 3 performs the normal scan and the local station reception level Sp and one station at every superframe. The peripheral station reception level Np is measured to increase the accuracy of the peripheral station reception level.
[0069]
At level 3, the control unit 18 performs an operation level determination process for each super frame.
[0070]
Further, the control unit 18 obtains the maximum peripheral station reception level N from the peripheral station reception level obtained by the normal scan every timer T3 (= 720 ms × 15), and whether the maximum peripheral station reception level N satisfies the zone transition condition. If it is satisfied, the mode shifts to the level 3 detailed measurement mode.
[0071]
Here, the zone shift condition is expressed by (Expression 6).
(Formula 6)
N> Sp + Z
FIG. 9 shows a flowchart of the reception level measurement process in the bell 3 detailed measurement mode by the control unit 18.
[0072]
In the level 3 detailed measurement mode, the control unit 18 performs fast scan multiple times (in this embodiment, 6 times) for peripheral stations with high values (up to 2 stations) among the peripheral station reception levels measured in level 3. Repeat the detailed measurement to obtain the arithmetic average. This detailed measurement is performed so that a highly accurate measurement value is obtained for a peripheral station having a high probability of becoming a zone transfer destination, so that more accurate zone transfer detection can be performed.
[0073]
The control unit 18 performs an operation level determination process B for determining whether to shift to level 4 or to remain at level 3 from the local station reception level Sp and the peripheral station reception level obtained by the detailed measurement, and depending on the result Transition to either level 3 or level 4.
[0074]
In the behavior level determination process B, the control unit 18 performs the determination shown in (Expression 7).
(Formula 7)
N> = S + Z and N> = permission level
In (Expression 7), when the peripheral station reception level N is different from the local station reception level S by the zone shift level difference Z or more and the peripheral station reception level N is the standby permission level, Transition to level 4. Otherwise, the control unit 18 remains at level 3.
[0075]
FIG. 10 shows a flowchart of level 4 reception level measurement processing by the control unit 18.
[0076]
When the control unit 18 determines to shift to level 4 in the level 3 detailed measurement mode, it shifts.
The control unit 18 measures the peripheral station reception level, and selects up to two peripheral stations satisfying (Equation 7) from among the reception levels as measurement targets at level 4 (step 801).
[0077]
The control unit 18 measures the peripheral station reception level and the local station reception level to be measured by normal scanning (step 803).
[0078]
The control unit 18 repeatedly performs the normal scan in step 803 every superframe until the timer T4 (720 ms × 15) expires. The timer T4 is provided to prevent the control unit 18 from performing level 4 processing for a long time. This is because the processing of level 4 continues to measure the reception level of up to two peripheral stations selected in step 801 for level 4 during the level 4, so that the peripherals that have not been measured during that period of time This is because the probability that a peripheral station that is most suitable for zone transition will appear higher than that of the peripheral station being measured.
[0079]
When the timer T4 has expired (step 804; Yes), the control unit 18 resets the timer (step 806), and transitions to level 3.
[0080]
【The invention's effect】
A radiotelephone apparatus according to the present invention is a radiotelephone apparatus that measures the reception level of radio waves from a radio base station currently communicating and another radio base station for zone shift determination, and is currently communicating or waiting. The reception level of radio waves from other wireless base stations At regular intervals Local station measurement means for repeatedly measuring, peripheral station measurement means for measuring the reception level of radio waves from other radio base stations, and reception levels measured by the local station measurement means Itself When, The reception level of the local station The reception level measured by the peripheral station measurement means; The difference between And changing means for changing the frequency of the measurement by the peripheral station measuring means according to the comparison result.
[0081]
In addition, when the value obtained by subtracting the reception level related to another radio base station from the reception level related to the currently communicating radio base station is a positive value, the changing means is more frequent as the difference in the reception level is smaller. It is comprised so that the said frequency may be changed.
[0082]
According to this configuration, the radio telephone apparatus reduces the power consumption by reducing the frequency of peripheral station measurement as the local station reception level is higher than the peripheral station reception level, that is, the probability of zone shift is low. The smaller the difference between the reception level and the reception level of the peripheral station, that is, the higher the probability of shifting to the zone, the higher the accuracy of the peripheral station measurement can be achieved by increasing the frequency of the peripheral station measurement.
[0083]
A radiotelephone apparatus according to the present invention is a radiotelephone apparatus that measures the reception level of radio waves from a radio base station currently communicating and another radio base station for zone shift determination, and is currently communicating or waiting. Own station measurement means for repeatedly measuring the reception level of radio waves from other radio base stations, peripheral station measurement means for measuring reception levels of radio waves from other radio base stations, and reception measured by the own station measurement means A change in which the level and the reception level measured by the peripheral station measurement means are compared, and the measurement method by the peripheral station measurement means is changed to one of a plurality of different measurement methods according to the comparison result Means.
[0084]
Further, each of the plurality of different measurement methods has different power consumption when the measurement method is used for measurement, and the changing unit is configured to receive another radio base station from a reception level related to a radio base station that is currently communicating or waiting. When the value obtained by subtracting the reception level is a positive value, the measurement method is configured to change the measurement method so that the power consumption decreases as the difference between the reception levels increases.
[0085]
According to this configuration, the radiotelephone apparatus uses a measurement method that consumes less power as the local station reception level is higher than the peripheral station reception level, that is, the probability of zone shift is low. The smaller the difference from the station reception level, that is, the higher the probability of zone shift, the higher the power consumption, the higher the power consumption.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a mobile station.
FIG. 2 shows an outline of operation levels.
FIG. 3 shows a transition diagram of operation levels.
FIG. 4 shows a flowchart of an action level determination process.
FIG. 5 shows a flowchart of processing at level 0;
FIG. 6 shows a flowchart of processing at level 1;
FIG. 7 shows a flowchart of processing at level 2
FIG. 8 shows a flowchart of processing at level 3;
FIG. 9 shows a flowchart of processing in a level 3 detailed measurement mode.
FIG. 10 shows a flowchart of processing at level 4;
FIG. 11 is a diagram illustrating an intermittent reception operation.
[Explanation of symbols]
10 Antenna
12 Radio section
13 Modem part
14 TDMA / TDD section
15 Voice processing part
16 microphone
17 Speaker
18 Control unit
19 CPU
20 ROM
21 RAM

Claims (4)

A radiotelephone device that measures a reception level of radio waves from a radio base station currently communicating and another radio base station for zone transition determination,
Self-station measuring means for repeatedly measuring the reception level of radio waves from a wireless base station currently communicating or waiting at a fixed period;
Peripheral station measurement means for measuring the reception level of radio waves from other radio base stations,
Depending on the reception level itself measured by the local station measurement means and the difference between the reception level of the local station and the reception level measured by the peripheral station measurement means, the frequency of the measurement by the peripheral station measurement means is determined. And a changing means for changing. The changing means is
When the value obtained by subtracting the reception level related to another radio base station from the reception level related to the currently communicating radio base station is a positive value, the frequency is changed so that the frequency difference becomes more frequent as the difference between the reception levels becomes smaller. The wireless telephone device according to claim 1, wherein: A radiotelephone device that measures a reception level of radio waves from a radio base station currently communicating and another radio base station for zone transition determination,
Own station measuring means for repeatedly measuring the reception level of radio waves from a wireless base station currently communicating or waiting;
Peripheral station measurement means for measuring the reception level of radio waves from other radio base stations,
The reception level measured by the local station measurement means is compared with the reception level measured by the peripheral station measurement means, and the measurement method by the peripheral station measurement means is determined by a plurality of different measurements according to the comparison result. And a changing means for changing to any one of the methods. The plurality of different measurement methods include:
The power consumption when measured by each method is different,
The changing means is
When the value obtained by subtracting the reception level related to another radio base station from the reception level related to the radio base station that is currently communicating or waiting is a positive value, the larger the difference between the reception levels, the lower the power consumption. The radio telephone apparatus according to claim 3, wherein the radio telephone apparatus is changed to be a measurement method.

Images