JP2004140611A - Incoming call discriminating apparatus and incoming call discriminating method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To control the power consumption in a waiting state and the call waiting period at the arrival of an incoming call. <P>SOLUTION: A reception section 104 intermittently receives a paging indicator (hereinafter called 'PI') via an antenna 102, demodulates the PI and outputs it to a reception signal level measurement section 106. The reception signal level measurement section 106 measures a received signal level R of the demodulated PI and provides an output of the result to an incoming call discrimination section 110. The incoming call discrimination section 110 compares the measured received signal level R with a threshold Th denoting a value of the signal level of the PI, discriminates the presence / absence of incoming call on the basis of the result of comparison, and outputs the result of discrimination to an incoming call sequence control section 112. A threshold adjustment section 108 adjusts the threshold Th used for the comparison with the received signal level R and provides an output to the incoming call discrimination section 110. The incoming call sequence control section 112 performs a prescribed incoming call processing on the basis of the result of discrimination of the incoming call. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an incoming call determination device and an incoming call determination method for performing an incoming call determination using a paging indicator channel.
[0002]
[Prior art]
In a mobile communication system, when a communication partner or a broadcast station sends a call addressed to a certain mobile station apparatus, the base station apparatus sets a paging channel mapped to a common control channel (for example, Secondary-Common \ Control \ Physical \ Channel). (Hereinafter referred to as “PCH”) to notify that there is an incoming call addressed to the mobile station apparatus. The mobile station device includes an incoming call determination device for determining an incoming call. The incoming call determination device receives the PCH, and if the PCH has paging information addressed to the mobile station device, the base station and various control information. Is replaced and the connection state is entered. In a mobile communication system of the W-CDMA (Wideband-Code / Division / Multiple / Access) system defined in the 3GPP (3rd Generation / Partnership / Project) standard, the base station device indicates whether or not there is an incoming call. Hereinafter, "PI" is transmitted to each mobile station apparatus via a paging indicator channel (hereinafter, "PICH"). On the other hand, the mobile station apparatus intermittently receives the PI, determines whether there is an incoming call using the PI, and receives the PCH as described above when it is determined that there is an incoming call. By transmitting and receiving the PICH in this manner, battery saving of the mobile station device can be improved.
[0003]
A specific incoming call determination method using PI is as follows. First, the base station device transmits a PI having a positive value bit when there is no incoming call, and transmits a PI having a negative value bit when there is an incoming call. The incoming call judging device receives the PICH at a predetermined intermittent reception cycle, and measures the received signal level of the PI. Here, the signal level is a value obtained by multiplying the power by +1 or −1 of PI, and the received signal level is a value obtained by multiplying the received power by +1 or −1 of PI. Then, the incoming call determination device determines whether there is an incoming call based on the measured received signal level. When the measured received signal level is a positive value, it is determined that there is no incoming call, and when the measured received signal level is a negative value, it is determined that there is an incoming call. When the incoming call determination device determines that there is an incoming call, it receives the PCH as described above. On the other hand, when it is determined that there is no incoming call, the incoming call determination device performs control to stop supplying power to an unnecessary portion [for example, a CPU (Central Processing Unit) for an application] in the mobile station device until the next PICH is received. The power consumption during standby is reduced (for example, see Patent Document 1).
[0004]
There are two types of errors that can occur in the above-described incoming call determination method. One is an error that erroneously determines that there is an incoming call even though there is no actual incoming call and erroneously detects the incoming call (hereinafter referred to as “incoming call error detection”). First, there is an error that the user mistakenly determines that there is no incoming call even though there is an incoming call and misses the incoming call (hereinafter, "missed incoming call detection"). If an erroneous incoming call detection occurs in the incoming call determination, the incoming call determination device performs the operation of receiving the PCH even though there is no incoming call, so that wasteful power is consumed. On the other hand, if an incoming call is missed, the incoming call judging device does not receive the PCH even if there is an incoming call. The waiting period for incoming calls until the transition to へ is extended.
[0005]
The probability of erroneous determination (hereinafter, referred to as “misjudgment probability”) includes the probability of erroneous incoming call detection (hereinafter, referred to as “false detection rate”) or the probability of ignoring incoming call detection (hereinafter, “ "Detection overlook rate"). It is known that the erroneous determination probability fluctuates depending on the PI reception quality (for example, the ratio of desired signal power to noise signal power) in the incoming call determination device. Specifically, when the desired signal power to noise signal power ratio, which is one of the indicators of the reception quality, is improved, the erroneous detection rate and the missed detection rate are reduced. The detection rate and the detection miss rate increase.
[0006]
[Patent Document 1]
JP-A-7-38487
[0007]
[Problems to be solved by the invention]
However, in the conventional incoming call judging device, since the threshold value used for comparing the PI with the received signal level is always zero, that is, a fixed value, it is possible to control the erroneous judgment probability that fluctuates with the fluctuation of the reception quality. However, there is a problem in that the incoming call judging device consumes useless power during standby or prolongs the incoming call waiting period during incoming call.
[0008]
The present invention has been made in view of the above, and an object of the present invention is to provide an incoming call judging device and an incoming call judging method capable of controlling power consumption during standby and an incoming call waiting period during incoming.
[0009]
[Means for Solving the Problems]
The incoming call determination device of the present invention includes: a threshold adjusting unit that adjusts a threshold indicating a value of a signal level of a paging indicator; and an incoming call by comparing a received signal level of the paging indicator with the threshold adjusted by the threshold adjusting unit. And an incoming call judging means for judging the presence / absence of the call.
[0010]
According to this configuration, the presence / absence of an incoming call is determined by comparing the adjusted threshold with the received signal level of the paging indicator. Therefore, the power consumption during standby and the incoming waiting period during incoming can be controlled.
[0011]
The incoming call judging device of the present invention, in the configuration described above, wherein the threshold adjustment unit includes a reception quality measurement unit that measures reception quality of the paging indicator to generate a reception quality measurement value, and the reception quality measurement unit generates the reception quality measurement value. The threshold value is adjusted based on the measured reception quality value.
[0012]
According to this configuration, in addition to the above-described effects, the threshold is adjusted based on the generated reception quality measurement value, so that the arrival determination unit erroneously determines that there is an incoming call based on the reception quality of the paging indicator. Since it is possible to achieve the probability and the desired probability of erroneously determining that there is no incoming call, it is possible to achieve the desired standby power consumption for the user and the desired incoming call waiting period for the user.
[0013]
The incoming call judging device of the present invention, in the above configuration, wherein the threshold value adjusting means includes a reception quality reference value setting means for setting a reception quality reference value of the paging indicator, and is set by the reception quality reference value setting means. The threshold value is adjusted based on the reception quality reference value.
[0014]
According to this configuration, in addition to the above effects, the threshold is adjusted based on the set reception quality reference value, so that the incoming call determination unit erroneously determines that there is an incoming call based on the reception quality reference value of the paging indicator. Since the desired probability and the desired probability of erroneously determining that there is no incoming call can be achieved, it is possible to achieve the desired standby power consumption for the user and the desired incoming call waiting period for the user.
[0015]
The incoming call judging device of the present invention, in the above configuration, wherein the threshold value adjusting means has a first erroneous judgment probability that the incoming call judging means erroneously judges that there is an incoming call or a second erroneous judgment probability that erroneously judges that there is no incoming call And a target value determining means for determining the target value of the threshold value, and adjusting the threshold value based on the target value determined by the target value determining means.
[0016]
According to this configuration, in addition to the above-described effects, the threshold is adjusted based on the determined target value. Therefore, the desired probability and the absence of the incoming call are determined by the incoming call determining means based on the target value. Since a desired probability of erroneous determination can be achieved, it is possible to achieve a desired standby power consumption for the user and a desired incoming call waiting period for the user.
[0017]
The incoming call judging device of the present invention, in the above-mentioned configuration, wherein the threshold value adjusting means comprises residual charge amount detecting means for detecting a residual charge amount of a battery used for driving the threshold adjusting means and the incoming call judging means, The threshold value is adjusted based on the remaining charge amount detected by the remaining charge amount detection means.
[0018]
According to this configuration, in addition to the above-described effects, the threshold is adjusted based on the detected remaining charge amount, so that the incoming call determination unit erroneously determines that there is an incoming call based on the detected remaining charge amount. Since it is possible to achieve the probability and the desired probability of erroneously determining that there is no incoming call, it is possible to achieve the desired standby power consumption for the user and the desired incoming call waiting period for the user.
[0019]
The incoming call determination device of the present invention, in the above configuration, wherein the threshold value adjusting means includes an intermittent reception cycle obtaining means for obtaining an intermittent reception cycle for intermittently receiving the paging indicator, and the threshold adjusting means obtains the intermittent reception cycle obtaining means. The threshold value is adjusted based on the intermittent reception cycle thus performed.
[0020]
According to this configuration, in addition to the above-described effects, the threshold is adjusted based on the acquired intermittent reception cycle, so that the incoming call determination unit erroneously determines that there is an incoming call based on the obtained intermittent reception cycle. Since it is possible to achieve the probability and the desired probability of erroneously determining that there is no incoming call, it is possible to achieve the desired standby power consumption for the user and the desired incoming call waiting period for the user.
[0021]
The incoming call judging device of the present invention, in the above configuration, wherein the threshold value adjusting means includes a command demodulating means for demodulating a command for adjusting the threshold value, and based on the command demodulated by the command demodulating means, A configuration for adjusting the threshold value is adopted.
[0022]
According to this configuration, in addition to the above-described effects, the threshold is adjusted based on the demodulated command. Therefore, the desired probability and the absence of the incoming call that the incoming call determination unit erroneously determines that there is an incoming call based on the demodulated command. Therefore, it is possible to achieve a desired power consumption during standby and a desired incoming call waiting period for the user.
[0023]
A mobile communication system according to the present invention includes a base station device and a mobile station device, wherein the base station device generates a command for adjusting a threshold indicating a value of a signal level of a paging indicator, and a command generating unit. , Paging indicator generating means for generating the paging indicator, and transmitting means for transmitting the command generated by the command generating means and the paging indicator generated by the paging indicator generating means, respectively, A station device, receiving means for receiving the command transmitted by the transmitting means and the paging indicator, threshold adjusting means for adjusting the threshold based on the command received by the receiving means, the paging indicator Receiving A configuration having a, a call determining means for determining whether the incoming by comparing with the threshold signal level is adjusted by the threshold adjusting unit.
[0024]
According to this configuration, based on the command generated in the base station device, the mobile station can achieve the desired probability of erroneously determining that there is an incoming call and the desired probability of erroneously determining that there is no incoming call in the mobile station. Therefore, it is possible to achieve a desired power consumption during standby for the base station apparatus and a desired incoming call waiting period for incoming calls for the base station apparatus.
[0025]
An incoming call determination method according to the present invention includes a threshold adjusting step of adjusting a threshold indicating a value of a signal level of a paging indicator, and an incoming call determining step of determining presence or absence of an incoming call by comparing a received signal level of the paging indicator with the threshold. And so on.
[0026]
According to this method, the presence / absence of an incoming call is determined by comparing the adjusted threshold value with the received signal level of the paging indicator. Therefore, the power consumption during standby and the incoming waiting period during incoming can be controlled.
[0027]
BEST MODE FOR CARRYING OUT THE INVENTION
The gist of the present invention is to adjust the threshold value used to compare the paging indicator with the received signal level.
[0028]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0029]
(Embodiment 1)
FIG. 1 is a block diagram showing a configuration of the incoming call determination device according to Embodiment 1 of the present invention.
[0030]
The incoming call judging device 100 shown in FIG. 1 includes an antenna 102, a receiving unit 104, a received signal level measuring unit 106, a threshold adjusting unit 108, an incoming call judging unit 110, and an incoming call sequence control unit 112.
[0031]
The input terminal of the receiving unit 104 is connected to the antenna. The input terminal of the received signal level measuring section 106 is connected to the receiving section 104. The input terminal of the incoming call determination unit 110 is connected to the threshold adjustment unit 108 and the reception signal level measurement unit 106. An input terminal of the incoming call sequence control section 112 is connected to the receiving section 104 and the incoming call judging section 110.
[0032]
The receiving unit 104 receives a radio signal including the PI on the PICH transmitted from the base station device (not shown) via the antenna 102 at every preset intermittent reception cycle (for example, 2 seconds), It demodulates the PI included in the radio signal and outputs it to received signal level measuring section 106. In the following description, receiving a radio signal including a PI on the PICH via the antenna 102 at every preset intermittent reception cycle (for example, 2 seconds) is referred to as “performing PICH reception”.
[0033]
Further, when there is an incoming call, receiving section 104 receives and demodulates a radio signal including the PCH from the base station apparatus, and outputs the demodulated PCH to incoming sequence control section 112.
[0034]
Received signal level measuring section 106 measures received signal level R of the PI demodulated by receiving section 104. Then, received signal level measuring section 106 outputs the measured received signal level R to incoming call determining section 110.
[0035]
The incoming call determination unit 110 compares the received signal level R measured by the received signal level measurement unit 106 with a threshold Th indicating the value of the signal level of PI, determines whether there is an incoming call based on the comparison result, The result of determination is output to incoming sequence control section 112.
[0036]
Threshold adjusting section 108 adjusts the value of threshold Th used for comparison with received signal level R measured by received signal level measuring section 106. Then, threshold adjusting section 108 outputs the adjusted threshold Th to incoming call determining section 110.
[0037]
The incoming call sequence control section 112 performs a predetermined incoming call process based on the incoming call determination result obtained from the incoming call determination section 110. When the result of the incoming call determination by the incoming call determination unit 110 is no incoming call, the incoming call sequence control unit 112 transmits an unnecessary portion (for example, for an application) in the mobile station device including the incoming call determination device 100 until the next PICH reception. Control to stop the supply of power to the CPU and the like so as to reduce power consumption during standby. On the other hand, when the result of the incoming call determination by the incoming call determination section 110 is that there is an incoming call, the incoming call sequence control section 112 uses the PCH obtained from the receiving section 104 to detect paging information addressed to this mobile station apparatus. In the following description, detecting paging information addressed to the mobile station apparatus using the PCH obtained from receiving section 104 is referred to as “performing PCH reception”. If the PCH has paging information addressed to the mobile station device, the incoming sequence control section 112 exchanges various types of control information with the base station and shifts to the connected state.
[0038]
Next, the operation of the incoming call determination device 100 having the above configuration will be described.
[0039]
FIG. 2 is a diagram for explaining an operation in which the incoming call determination device 100 determines an incoming call.
[0040]
<A. When the incoming call determination result is no incoming call>
First, receiving section 104 performs PICH reception to demodulate PI. Then, the reception signal level measurement unit 106 measures the reception signal level R of the PI. Then, the incoming call determination unit 110 compares the received signal level R with a predetermined threshold Th. As a result of the comparison, if the received signal level R is equal to or larger than the threshold (R ≧ Th), the incoming call determination unit 110 determines that there is no incoming call. Then, the incoming sequence control unit 112 performs control to stop supplying power to unnecessary parts in the mobile station device until the next PICH reception, thereby reducing power consumption during standby.
[0041]
<B. When the incoming call determination result indicates that there is an incoming call>
First, receiving section 104 performs PICH reception to demodulate PI. Then, the reception signal level measurement unit 106 measures the reception signal level R of the PI. Then, the incoming call determination unit 110 compares the received signal level R with a predetermined threshold Th. As a result of the comparison, if the received signal level R is less than the threshold value (R <Th), the incoming call determination section 110 determines that there is an incoming call. Then, the incoming sequence control unit 112 performs PCH reception, and if there is paging information addressed to the mobile station device, exchanges various kinds of control information with the base station device and shifts to the connection state.
[0042]
FIG. 3 is a diagram for explaining an example of an operation when the threshold adjustment unit 108 in the incoming call determination device 100 adjusts the threshold Th.
[0043]
3 is a probability distribution diagram before the threshold value adjusting unit 108 adjusts the threshold value Th, and the threshold value Th at this time is zero (Th = 0). In this probability distribution diagram, the curve C_nRepresents the probability density function P (R) with respect to the received signal level R when there is an incoming call, and the curve C_pRepresents a probability density function P (R) with respect to the received signal level R when there is no incoming call. Further, a point S on the horizontal axis in this probability distribution diagram is an average received signal level when there is no incoming call, and a point -S is an average received signal level when there is an incoming call. The false detection rate Pfd when the threshold value Th is zero is calculated by calculating the area of the region filled with the diagonally downward slant line.₀Can be obtained. Further, by calculating the area of the region filled with oblique lines rising to the right, the detection miss rate Pmd when the threshold value Th is zero is calculated.₀Can be obtained.
[0044]
FIG. 3B is a probability distribution diagram after the threshold value adjusting unit 108 adjusts the threshold value Th. In this operation example, the threshold value Th is adjusted in the direction of a positive value. In this case, the false detection rate Pfd_ThIs Pfd₀And the detection miss rate Pmd_ThIs Pmd₀Becomes smaller than the value of. Although not shown in FIG. 3, if the threshold value Th is adjusted in the direction of a negative value, the false detection rate Pfd_ThIs Pfd₀, The detection miss rate Pmd_ThIs Pmd₀Larger than the value of. By adjusting the threshold value Th in this manner, the false detection rate Pfd and the detection miss rate Pmd can be controlled.
[0045]
The threshold adjustment unit 108 detects the false detection rate Pfd_ThValue of Pfd₀And the detection miss rate Pmd_ThThe value of Pmd₀Is smaller than the value, the frequency at which the transition to the connection state is delayed due to the fact that the incoming sequence control unit 112 misses the PCH reception even though there is actually an incoming call is reduced. Is shortened. Further, the threshold adjustment unit 108 sets the false detection rate Pfd_ThValue of Pfd₀, The detection miss rate Pmd_ThThe value of Pmd₀When the value is larger than the value, the frequency of wasteful power consumption by the incoming sequence control unit 112 performing PCH reception even though there is actually no incoming call is reduced, so that the power consumption during standby is reduced. Is done.
[0046]
In the first embodiment, the determination is made based on whether the received signal level R is equal to or greater than the threshold Th or less than the threshold Th. However, whether the received signal level R is greater than or less than the threshold Th is determined. The determination may be made according to.
[0047]
As described above, according to the first embodiment, the incoming call determination device 100 adjusts the threshold value Th indicating the value of the signal level of the PI, and compares the adjusted threshold value Th with the received signal level R of the PI. In order to determine the presence or absence of an incoming call, it is possible to control the erroneous determination probability such as the erroneous detection rate Pfd and the missed detection rate Pmd in the incoming call determination unit 110, so that the power consumption during standby and the incoming waiting period during incoming call are controlled. can do.
[0048]
(Embodiment 2)
FIG. 4 is a block diagram showing a configuration of the incoming call determination device according to Embodiment 2 of the present invention. The incoming call judging device 400 shown in FIG. 4 has the same basic configuration as that of the incoming call judging device 100 shown in FIG. 1, and the same components are denoted by the same reference numerals and description thereof will be omitted. I do.
[0049]
As shown in FIG. 4, the incoming call judging device 400 is different from the incoming call judging device 100 shown in FIG. 1 in that a reception quality measuring unit 402, an erroneous judgment probability target value setting unit 404, a reception quality reference value setting The unit 406 and the threshold value calculation unit 408 are added. That is, the incoming call determination device 400 includes an antenna 102, a receiving unit 104, a received signal level measuring unit 106, an incoming call determining unit 110, an incoming call sequence control unit 112, a reception quality measuring unit 402, an erroneous determination probability target value setting unit 404, a reception quality A reference value setting unit 406 and a threshold value calculation unit 408 are provided.
[0050]
The input terminal of the receiving unit 104 is connected to the antenna 102. The input terminal of the received signal level measuring section 106 is connected to the receiving section 104. The input terminal of reception quality measurement section 402 is connected to reception signal level measurement section 106. The reception quality reference value setting unit 406 is connected to the erroneous determination probability target value setting unit 404. The threshold calculation section 408 is connected to the reception quality measurement section 402 and the reception quality reference value setting section 406. The input terminal of the incoming call determination unit 110 is connected to the reception signal level measurement unit 106 and the threshold calculation unit 408. An input terminal of the incoming call sequence control section 112 is connected to the receiving section 104 and the incoming call judging section 110.
[0051]
Receiving quality measuring section 402 measures PI receiving quality SIR (for example, desired signal power to noise signal power ratio) based on PI receiving signal level R measured by received signal level measuring section 106, and Measured value SIR_MGenerate Then, reception quality measurement section 402 measures measured reception quality value SIR._MIs output to the threshold calculation unit 408.
[0052]
The erroneous determination probability target value setting unit 404 sets a target value of the erroneous detection rate Pfd or a target value of the missed detection rate Pmd, and sets the target erroneous detection rate Pfd._TOr target detection miss rate Pmd_TGenerate Then, the erroneous determination probability target value setting unit 404 outputs the generated target erroneous detection rate Pfd._TOr target detection miss rate Pmd_TIs output to the reception quality reference value setting section 406.
[0053]
Note that the erroneous determination probability target value setting unit 404 uses the generated target erroneous detection rate Pfd_TOr target detection miss rate Pmd_TMay be output to the threshold value calculation unit 408 together with the reception quality reference value setting unit 406.
[0054]
The reception quality reference value setting unit 406 calculates the target false detection rate Pfd generated by the false determination probability target value setting unit 404._TOr target detection miss rate Pmd_TThe reference value of the reception quality of the PI is set based on_TGenerate Then, reception quality reference value setting section 406 generates generated reception quality reference value SIR._TIs output to the threshold calculation unit 408.
[0055]
The threshold calculation unit 408 calculates the SIR generated by the reception quality reference value setting unit 406._TAnd reception quality measurement value SIR generated by reception quality measurement section 402_M, The value of threshold Th used for comparison with received signal level R in incoming call determination section 110 is calculated. Then, threshold calculating section 408 outputs calculated threshold Th to incoming call determining section 110.
[0056]
The combination of the reception quality measurement unit 402, the erroneous determination probability target value setting unit 404, the reception quality reference value setting unit 406, and the threshold value calculation unit 408 is the threshold value Th used by the paging determination unit 110 for comparison with the reception signal level R. Constitutes a threshold adjustment unit for adjusting the value of.
[0057]
Next, the operation of the incoming call determination device 400 having the above configuration will be described.
[0058]
FIG. 5 is a flowchart for explaining the operation of the incoming call determination device according to Embodiment 2 of the present invention.
[0059]
First, in step ST501, the erroneous determination probability target value setting unit 404 sets a target value of the false detection rate Pfd or a target value of the missed detection rate Pmd, and sets the target false detection rate Pfd._TOr target detection miss rate Pmd_TGenerate
[0060]
Then, in step ST502, reception quality reference value setting section 406 sets target erroneous detection rate Pfd generated by erroneous determination probability target value setting section 404._TOr target detection miss rate Pmd_TThe reference value of the reception quality of the PI is set based on_TGenerate
[0061]
Here, an example of a method for setting the reference value of the reception quality will be described with reference to FIG.
[0062]
FIG. 6 is a characteristic diagram of the detection miss rate Pmd used in the reception quality reference value setting unit 406. The target value of the detection miss rate Pmd is set by the erroneous determination probability target value setting unit 404, and the target detection miss rate Pmd is set._TIs generated, the reception quality reference value setting unit 406 refers to the characteristic curve Q of the detection miss rate Pmd shown in FIG._TThe reference value of the reception quality SIR is set by specifying the reception quality SIR corresponding to_TGenerate
[0063]
Next, in step ST503, receiving section 104 performs PICH reception to demodulate PI. Then, in step ST504, received signal level measuring section 106 measures received signal level R of PI. In step ST505, the reception quality of the PI is measured using the reception signal level R of the PI measured by the reception signal level measurement unit 106, and the reception quality measurement value SIR_MGenerate
[0064]
Then, in step ST 506, threshold calculating section 408 determines reception quality reference value SIR generated by reception quality reference value setting section 406._TAnd reception quality measurement value SIR generated by reception quality measurement section 402_M, The value of threshold Th used for comparison with received signal level R in incoming call determination section 110 is calculated.
[0065]
Here, an example of a method for calculating the threshold will be described with reference to FIG. FIG. 7 is a diagram for explaining the principle of the operation of the threshold value calculation unit 408 in the incoming call determination device 400. Note that the example described here assumes that the noise signal power level N is always constant.
[0066]
The diagram shown on the left side (A) and the diagram shown on the center (B) of FIG. 7 are probability distribution diagrams before the threshold value calculation unit 408 calculates the threshold value Th. It is assumed that the current threshold value Th before a new value is calculated is set to zero. First, the current threshold value Th (Th = 0) and the reception quality reference value SIR generated by the reception quality reference value setting unit 406_T, A probability density function P (R) shown in the probability distribution diagram on the left side (A) of FIG. 7 is generated. Note that a point S ′ on the horizontal axis in this probability distribution diagram is a target value of the average received signal level when there is no incoming call, and a point −S ′ is a target value of the average received signal level when there is an incoming call. . That is, the reception quality reference value SIR_TIs determined by S '/ N. Target detection miss rate Pmd generated by erroneous determination probability target value setting section 404_TAnd target detection miss rate Pmd_TTarget false detection rate Pfd corresponding to_TIs as shown in this figure.
[0067]
Then, the current threshold value Th (Th = 0) and the reception quality measurement value SIR generated by the reception quality measurement unit 402_M(SIR_M= S / N), a probability density function P (R) shown in the probability distribution diagram at the center (B) in FIG. 7 is generated. Note that the reception quality measurement value SIR used in this example is_MAre as shown in the characteristic diagram of FIG. Then, from the probability distribution chart, the reception quality measurement value SIR_MThe false detection rate Pfd and the false detection rate Pmd based on_MAnd measurement detection miss rate Pmd_MIs calculated.
[0068]
Then, the reception quality measurement value SIR_MUsing the probability density function P (R) generated on the basis of_AIs the target detection miss rate Pmd_TThe threshold value Th is calculated so as to have the same value as.
[0069]
Here, the value of the threshold Th to be calculated is kS (Th = kS: k is a constant equal to or greater than zero). Detection miss rate Pmd after threshold calculation_AIs the target detection miss rate Pmd_TThe condition that can derive the threshold value Th that is equal to is expressed by the following (Equation 1) based on the probability distribution diagram shown in FIG.
S + kS = S ′... (Equation 1)
Therefore, the constant k is obtained by the following (Equation 2).
k = (S′−S) / S... (Equation 2)
[0070]
Then, when the denominator and the numerator on the right side of the above (Equation 2) are divided by the noise signal power level N, the following (Equation 3) is obtained.
k = (S '/ N-S / N) / S / N {...} (Equation 3)
Therefore, the value of the constant k is calculated by the following (Equation 4).
k = (SIR_T-SIR_M) / SIR_M… (Equation 4)
[0071]
Therefore, the new threshold Th is calculated by the following (Equation 5).
Th = kS = (SIR_T-SIR_M) / SIR_M× S ... (Equation 5)
The threshold value calculation unit 408 calculates the threshold value Th using this (Equation 5).
[0072]
Note that, in the second embodiment, the threshold value calculation unit 408 calculates the threshold value Th using (Equation 5), but is not limited to this method. For example, threshold calculation section 408 determines reception quality measurement value SIR_M, Target false detection rate Pfd, target detection miss rate Pmd, reception quality reference value SIR_TThe threshold values Th corresponding to various numerical values such as the above may be stored in advance as a table, and the threshold value Th may be acquired using this table.
[0073]
Then, in step ST507, the incoming call determination section 110 determines an incoming call by comparing the reception signal level R measured by the reception signal level measurement section 106 with the threshold Th calculated by the threshold calculation section 408. As a result of the determination, when the received signal level R is less than the threshold (ST507: YES), in step ST508, the incoming sequence control section 112 performs PCH reception. On the other hand, as a result of the determination, when the received signal level R is equal to or higher than the threshold (ST507: NO), in step ST509, the incoming sequence control section 112 sets the power to unnecessary portions in this mobile station apparatus until the next PICH reception. After performing the control to stop the supply of the data, the process returns to step ST503, and the receiving unit 104 performs the PICH reception.
[0074]
In the second embodiment, even when a combination of at least one of reception quality measurement section 402, erroneous determination probability target value setting section 404, and reception quality reference value setting section 406 and threshold calculation section 408 constitutes a threshold adjustment unit. good.
[0075]
For example, when the combination of reception quality measurement section 402 and threshold calculation section 408 constitutes a threshold adjustment unit, threshold calculation section 408 determines reception quality measurement value SIR generated by reception quality measurement section 402._MIs calculated based on the threshold value Th. When the combination of the erroneous determination probability target value setting unit 404 and the threshold value calculation unit 408 constitutes a threshold adjustment unit, the threshold value calculation unit 408 generates the target erroneous detection rate Pfd generated by the erroneous determination probability target value setting unit 404._TOr target detection miss rate Pmd_TIs calculated based on the threshold value Th. Further, when the combination of reception quality reference value setting section 406 and threshold value calculation section 408 constitutes a threshold configuration unit, threshold value calculation section 408 generates reception quality reference value SIR generated by reception quality reference value setting section 406._TIs calculated based on the threshold value Th. Furthermore, when the combination of the reception quality measurement unit 402, the erroneous determination probability target value setting unit 404, and the threshold calculation unit 408 constitutes a threshold configuration unit, the threshold calculation unit 408 performs the reception quality measurement generated by the reception quality measurement unit 402. Value SIR_MAnd the target false detection rate Pfd generated by the false determination probability target value setting unit 404_TOr target detection miss rate Pmd_TIs calculated based on the threshold value Th. Further, when the combination of the reception quality measurement unit 402, the reception quality reference value setting unit 406, and the threshold value calculation unit 408 constitutes a threshold adjustment unit, the threshold value calculation unit 408 uses the reception quality measurement value generated by the reception quality measurement unit 402. SIR_MAnd reception quality reference value SIR generated by reception quality reference value setting section 406_TIs calculated based on the threshold value Th.
[0076]
As described above, according to the second embodiment, the threshold adjustment unit measures the reception quality of the PI to obtain the reception quality measurement value SIR._M, And the generated reception quality measurement value SIR_MIs adjusted based on the reception quality of the PI, the target false detection rate Pfd_TAnd target detection miss rate Pmd_TTherefore, it is possible to achieve the desired standby power consumption for the user and the desired incoming call waiting period for the user for the incoming call.
[0077]
Further, according to the second embodiment, the threshold adjustment unit performs the reception quality reference value SIR of the PI._TIs set, and the set reception quality reference value SIR is set._TTo adjust the threshold value Th based on the reception quality reference value SIR of the PI._TBased on the target false detection rate Pfd_TAnd target detection miss rate Pmd_TTherefore, it is possible to achieve the desired standby power consumption for the user and the desired incoming call waiting period for the user for the incoming call.
[0078]
Further, according to the second embodiment, the threshold adjustment unit is configured to set the target erroneous detection rate Pfd_TAnd target detection miss rate Pmd_TAnd the determined target value erroneous detection rate Pfd_TAnd target detection miss rate Pmd_TOf the threshold value Th based on the target error detection rate Pfd_TAnd target detection miss rate Pmd_TBased on the target false detection rate Pfd_TAnd target detection miss rate Pmd_TTherefore, it is possible to achieve the desired standby power consumption for the user and the desired incoming call waiting period for the user for the incoming call.
[0079]
(Embodiment 3)
FIG. 8 is a block diagram showing a configuration of an incoming call determination device according to Embodiment 3 of the present invention. The incoming call judging device 800 shown in FIG. 8 has the same basic configuration as that of the incoming call judging device 400 shown in FIG. 4, and the same components are denoted by the same reference numerals and description thereof will be omitted. I do.
[0080]
As shown in FIG. 8, incoming call judging device 800 differs from incoming call judging device 400 in FIG. 4 in that residual charge amount detecting portion 802 and erroneous judgment probability target value setting portion 804 are used instead of erroneous judgment probability target value setting portion 404. It is added. That is, the incoming call determination device 800 includes the antenna 102, the receiving unit 106, the incoming call determination unit 110, the incoming call sequence control unit 112, the reception quality measurement unit 402, the reception quality reference value setting unit 406, the threshold calculation unit 408, and the remaining charge amount detection unit. 802 and an erroneous determination probability target value setting unit 804.
[0081]
The input terminal of the receiving unit 104 is connected to the antenna 102. The input terminal of the received signal level measuring section 106 is connected to the receiving section 104. The input terminal of reception quality measurement section 402 is connected to reception signal level measurement section 106. An input terminal of the erroneous determination probability target value setting unit 804 is connected to the remaining charge amount detection unit 802. The reception quality reference value setting unit 406 is connected to the erroneous determination probability target value setting unit 804. The threshold calculation section 408 is connected to the reception quality measurement section 402 and the reception quality reference value setting section 406. The input terminal of the incoming call determination unit 110 is connected to the reception signal level measurement unit 106 and the threshold calculation unit 408. An input terminal of the incoming call sequence control section 112 is connected to the receiving section 104 and the incoming call judging section 110.
[0082]
The remaining charge detection unit 802 detects the remaining charge B of the battery used for driving each of the above components. Then, the remaining charge detection unit 802 determines whether the detected remaining charge B is equal to or higher than a specific level L (that is, a state where the remaining charge is sufficient) or less (that is, a state where the remaining charge is small). It is determined whether or not there is, and the determination result is output to the erroneous determination probability target value setting unit 804.
[0083]
Note that the remaining charge amount detection unit 802 may output the determination result to the threshold calculation unit 408 instead of the erroneous determination probability target value setting unit 804. In this case, the threshold value calculation unit 408 calculates the threshold value Th based on the determination result obtained from the remaining charge amount detection unit 802.
[0084]
The erroneous determination probability target value setting unit 804 sets a target value of the erroneous detection rate Pfd or a target value of the missed detection rate Pmd based on the determination result obtained from the remaining charge amount detection unit 802, and sets the target erroneous detection rate. Pfd_TOr target detection miss rate Pmd_TGenerate Specifically, the erroneous determination probability target value setting unit 804 can shift the incoming call determination device 800 to the connection state in a desired incoming call waiting period when the detected remaining charge amount B is equal to or higher than the level L (B ≧ L). Target detection miss rate Pmd_TIs set, and the target erroneous detection rate Pfd is such that when the detected remaining charge amount B is less than the level L (B <L), the incoming call determination device 800 can stand by with desired power consumption._TSet. Then, the erroneous determination probability target value setting unit 804 sets the target detection miss rate Pmd_TAnd target false detection rate Pfd_TIs output to the reception quality reference value setting section 406.
[0085]
The combination of the above-described reception quality measurement section 402, residual charge amount detection section 802, erroneous determination probability target value setting section 804, reception quality reference value setting section 406, and threshold value calculation section 408 makes the reception signal level R Constitutes a threshold value adjustment unit for adjusting the value of the threshold value Th used for the comparison.
[0086]
In the third embodiment, the combination of at least one of the reception quality measurement unit 402, the remaining charge detection unit 802, the erroneous determination probability target value setting unit 804, and the reception quality reference value setting unit 406 and the threshold calculation unit 408 is determined by the threshold calculation unit 408. An adjustment unit may be configured.
[0087]
For example, when the combination of the remaining charge detection unit 802 and the threshold calculation unit 408 forms a threshold adjustment unit, the threshold calculation unit 408 calculates the threshold Th based on the determination result obtained from the remaining charge detection unit 802. Do. When the combination of the residual charge amount detection unit 802, the erroneous determination probability target value setting unit 804, and the threshold value calculation unit 408 constitutes a threshold adjustment unit, the threshold value calculation unit 408 is generated by the erroneous determination probability target value setting unit 804. Target false detection rate Pfd_TOr target detection miss rate Pmd_TIs calculated based on the threshold value Th. Furthermore, when the combination of remaining charge amount detection section 802, reception quality reference value setting section 406, and threshold value calculation section 408 constitutes a threshold configuration unit, reception quality reference value setting section 406 is obtained from remaining charge amount detection section 802. Reception quality reference value SIR based on the determined result._TThe threshold calculation unit 408 generates the reception quality reference value SIR generated by the reception quality reference value setting unit 406._TIs calculated based on the threshold value Th. Further, when the combination of reception quality measurement section 402, remaining charge detection section 802, and threshold calculation section 408 constitutes a threshold adjustment unit, threshold calculation section 408 determines reception quality measurement value SIR generated by reception quality measurement section 402._MThe threshold value Th is calculated based on the determination result obtained from the remaining charge amount detection unit 802. Furthermore, when the combination of the reception quality measurement unit 402, the remaining charge amount detection unit 802, the erroneous determination probability target value setting unit 804, and the threshold calculation unit 408 forms a threshold adjustment unit, the threshold calculation unit 408 includes Quality measurement value SIR generated by_MAnd the target false detection rate Pfd generated by the false determination probability target value setting unit 804_TOr target detection miss rate Pmd_TIs calculated based on the threshold value Th. Furthermore, when the combination of the reception quality measurement unit 402, the remaining charge amount detection unit 802, the reception quality reference value setting unit 406, and the threshold calculation unit 408 constitutes a threshold adjustment unit, the reception quality reference value setting unit 406 Based on the determination result obtained from detection section 802, reception quality reference value SIR_TAnd the threshold calculation unit 408 generates the reception quality measurement value SIR generated by the reception quality measurement unit 402._MAnd reception quality reference value SIR generated by reception quality reference value setting section 406_TIs calculated based on the threshold value Th.
[0088]
As described above, according to the third embodiment, the threshold adjustment unit detects the remaining charge amount B of the battery used for driving the threshold adjustment unit and the incoming call determination unit 110, and based on the detected remaining charge amount B, In order to adjust the threshold value Th, the target erroneous detection rate Pfd in the incoming call determination unit 110 is determined based on the detected remaining charge amount B._TAnd target detection miss rate Pmd_TTherefore, it is possible to achieve the desired standby power consumption for the user and the desired incoming call waiting period for the user for the incoming call.
[0089]
(Embodiment 4)
FIG. 9 is a block diagram showing a configuration of an incoming call determination device according to Embodiment 4 of the present invention. The incoming call judging device 900 shown in FIG. 9 has the same basic configuration as that of the incoming call judging device 400 shown in FIG. 4, and the same components are denoted by the same reference numerals and description thereof will be omitted. I do.
[0090]
As shown in FIG. 9, the incoming call judging device 900 is different from the incoming call judging device 400 in FIG. 4 in that a receiving unit 902, an intermittent reception A cycle control unit 904, an incoming call sequence control unit 906, and an erroneous determination probability target value setting unit 908 are added. That is, incoming call determination device 900 includes antenna 102, received signal level 106, incoming call determination unit 110, reception quality measurement unit 402, reception quality reference value setting unit 406, threshold calculation unit 408, reception unit 902, intermittent reception cycle control unit 904. , An incoming sequence control unit 906 and an erroneous determination probability target value setting unit 908.
[0091]
An input terminal of the receiving section 902 is connected to the antenna 102 and the intermittent receiving cycle control section 904. The input terminal of the received signal level measuring unit 106 is connected to the receiving unit 902. The input terminal of reception quality measurement section 402 is connected to reception signal level measurement section 106. An input terminal of the erroneous determination probability target value setting unit 908 is connected to the intermittent reception cycle control unit 904. The reception quality reference value setting unit 406 is connected to the erroneous determination probability target value setting unit 908. The threshold calculation section 408 is connected to the reception quality measurement section 402 and the reception quality reference value setting section 406. The input terminal of the incoming call determination unit 110 is connected to the reception signal level measurement unit 106 and the threshold calculation unit 408. The input terminal of the incoming call sequence control unit 906 is connected to the receiving unit 902, the incoming call judging unit 110, and the intermittent receiving cycle control unit 904.
[0092]
Receiving section 902 transmits a radio signal including a PI on the PICH transmitted from a base station apparatus (not shown) every intermittent reception cycle I (for example, 2 seconds) preset by intermittent reception cycle control section 904. The received signal is received via the antenna 102, the PI included in the radio signal is demodulated, and the demodulated signal is output to the received signal level measuring unit 106.
[0093]
Also, when there is an incoming call, receiving section 902 receives and demodulates a radio signal including the PCH from the base station apparatus, and outputs the demodulated PCH to incoming call sequence control section 906.
[0094]
Intermittent reception cycle control section 904 sets intermittent reception cycle I in reception section 902. Then, the set intermittent reception cycle I is output to receiving section 902, incoming call sequence control section 906, and erroneous determination probability target value setting section 908.
[0095]
The intermittent reception cycle control unit 904 may output the set intermittent reception cycle I to the threshold calculation unit 408 instead of the erroneous determination probability target value setting unit 908. In this case, the threshold calculation unit 408 calculates the threshold Th based on the intermittent reception cycle I obtained from the intermittent reception cycle control unit 904.
[0096]
The erroneous determination probability target value setting unit 908 acquires the intermittent reception cycle I set by the intermittent reception cycle control unit 904, and based on the intermittent reception cycle I, the target value of the erroneous detection rate Pfd or the missed detection rate Pmd. Of the target false detection rate Pfd_TOr target detection miss rate Pmd_TGenerate Then, the erroneous determination probability target value setting unit 908 outputs the generated target erroneous detection rate Pfd._TOr target detection miss rate Pmd_TIs output to the reception quality reference value setting section 406.
[0097]
Here, an example of a method of setting a specific target value of the erroneous determination probability will be described. In this example, the erroneous determination probability target value setting unit 908 stores the probability Px and the incoming call waiting period T in advance, and the incoming call waiting period T corresponds to the intermittent reception cycle I and the target detection miss rate Pmd._TAnd is expressed by the following (Equation 6).
T = I (1-Pmd_T) + 2IPmd_T(1-Pmd_T) + 3IPmd_T ²(1-Pmd_T) + ...… (Equation 6)
As expressed by this (Equation 6), the intermittent reception cycle I and the target detection miss rate Pmd_TIs set, the incoming call waiting period T at the time of incoming call can be achieved.
[0098]
Then, the target detection miss rate Pmd that can achieve the incoming waiting period T with a desired probability Px_TIs obtained by the following (Equation 7).
Pmd_T= (1-Px)^{(I / T)}… (Equation 7)
The erroneous determination probability target value setting unit 908 uses this (Equation 7) to calculate the target detection miss rate Pmd_TSet.
[0099]
The method of setting the target value of the erroneous determination probability is not limited to the above. For example, based on the intermittent reception cycle I set by the intermittent reception cycle control unit 904, the erroneous determination probability target value setting unit 908 sets a target erroneous detection rate Pfd that can be used for standby with desired power consumption._TMay be set.
[0100]
The combination of the above-described reception quality measurement unit 402, intermittent reception cycle control unit 904, erroneous determination probability target value setting unit 908, reception quality reference value setting unit 406, and threshold value calculation unit 408 Constitutes a threshold value adjustment unit for adjusting the value of the threshold value Th used for the comparison.
[0101]
In Embodiment 4, the combination of at least one of reception quality measurement section 402, intermittent reception cycle control section 904, erroneous determination probability target value setting section 908, and reception quality reference value setting section 406 and threshold calculation section 408 has a threshold value. You may comprise a structural unit.
[0102]
For example, when the combination of the intermittent reception cycle control unit 904 and the threshold calculation unit 408 forms a threshold adjustment unit, the threshold calculation unit 408 determines the threshold Th based on the intermittent reception cycle I obtained from the intermittent reception cycle control unit 904. Perform the calculation. When the combination of the intermittent reception cycle control unit 904, the erroneous determination probability target value setting unit 908, and the threshold value calculation unit 408 forms a threshold configuration unit, the threshold value calculation unit 408 is generated by the erroneous determination probability target value setting unit 908. Target false detection rate Pfd_TOr target detection miss rate Pmd_TIs calculated based on the threshold value Th. Furthermore, when the combination of the intermittent reception cycle control unit 904, the reception quality reference value setting unit 406, and the threshold value calculation unit 408 forms a threshold configuration unit, the reception quality reference value setting unit 406 is obtained from the intermittent reception cycle control unit 904. Reception quality reference value SIR based on the_TThe threshold calculation unit 408 generates the reception quality reference value SIR generated by the reception quality reference value setting unit 406._TIs calculated based on the threshold value Th. Further, when the combination of reception quality measurement section 402, intermittent reception cycle control section 904, and threshold calculation section 408 forms a threshold adjustment unit, threshold calculation section 408 determines reception quality measurement value SIR generated by reception quality measurement section 402._MThe threshold value Th is calculated based on the intermittent reception cycle I obtained from the intermittent reception cycle control unit 904. Furthermore, when the combination of the reception quality measurement unit 402, the intermittent reception cycle control unit 904, the erroneous determination probability target value setting unit 908, and the threshold calculation unit 408 forms a threshold adjustment unit, the threshold calculation unit 408 sets the reception quality measurement unit 402 Quality measurement value SIR generated by_MAnd the target erroneous detection rate Pfd generated by the erroneous determination probability target value setting unit 908_TOr target detection miss rate Pmd_TIs calculated based on the threshold value Th. Furthermore, when the combination of the reception quality measurement unit 402, the intermittent reception cycle control unit 904, the reception quality reference value setting unit 406, and the threshold calculation unit 408 forms a threshold adjustment unit, the reception quality reference value setting unit 406 Based on the intermittent reception cycle I obtained from control section 904, reception quality reference value SIR_TAnd the threshold calculation unit 408 generates the reception quality measurement value SIR generated by the reception quality measurement unit 402._MAnd reception quality reference value SIR generated by reception quality reference value setting section 406_TIs calculated based on the threshold value Th.
[0103]
The incoming call sequence control section 906 performs a predetermined incoming call process based on the incoming call determination result obtained from the incoming call determination section 110. When the result of the incoming call determination by the incoming call determination unit 110 is no incoming call, the incoming call sequence control unit 906 controls the incoming call determination device 900 according to the intermittent reception cycle I set by the intermittent reception cycle control unit 904 until the next PICH reception. Control is performed to stop the supply of power to unnecessary portions (for example, CPUs for applications, etc.) in the mobile station apparatus provided, and control is performed to reduce power consumption during standby. On the other hand, when the result of the incoming call determination by the incoming call determination section 110 is that there is an incoming call, the incoming call sequence control section 906 detects the paging information addressed to this mobile station apparatus using the PCH obtained from the receiving section 902. Then, when the PCH has the paging information addressed to the mobile station device, the termination sequence control unit 906 exchanges various control information with the base station and shifts to the connection state.
[0104]
As described above, according to the fourth embodiment, the threshold adjustment unit obtains the intermittent reception cycle I for intermittently receiving the PI, and adjusts the threshold Th based on the obtained intermittent reception cycle I. Based on the obtained intermittent reception cycle I, the target false detection rate Pfd in the incoming call determination unit 110_TAnd target detection miss rate Pmd_TTherefore, it is possible to achieve the desired standby power consumption for the user and the desired incoming call waiting period for the user for the incoming call.
[0105]
(Embodiment 5)
FIG. 10 is a block diagram showing a configuration of a mobile communication system according to Embodiment 5 of the present invention.
[0106]
A mobile communication system 1000 shown in FIG. 10 includes a base station device 1002 and a mobile station device 1004. The base station apparatus 1002 includes an antenna 1006, a threshold adjustment command generator 1008, a paging indicator generator 1010, a paging information generator 1012, and a transmitter 1014. Further, the mobile station device includes an incoming call determination device 1016. Incoming call judging device 1016 has the same basic configuration as incoming call judging device 400 shown in FIG. 4, and the same components are denoted by the same reference numerals and description thereof will be omitted. The incoming call judging device 1016 is different from the incoming call judging device 400 shown in FIG. It becomes. That is, the incoming call determination device 1016 includes the antenna 102, the received signal level measuring unit 106, the incoming call determining unit 110, the incoming call sequence control unit 112, the reception quality measuring unit 402, the threshold calculating unit 408, the receiving unit 1018, the command demodulating unit 1020, and the receiving A quality reference value setting unit 1022 is provided.
[0107]
In base station apparatus 1002, paging indicator generation section 1010 generates a PI indicating whether there is an incoming call to mobile station apparatus 1004 according to the presence or absence of a call to mobile station apparatus 1004. Then, paging indicator generating section 1010 outputs the generated PI to transmitting section 1014.
[0108]
Paging information generating section 1012 generates paging information addressed to mobile station device 1004 when there is an incoming call addressed to mobile station device 1004. Then, paging information generating section 1012 outputs the generated paging information to transmitting section 1014.
[0109]
The threshold adjustment command generation unit 1008 sets the target false detection rate Pfd as the target value of the false determination probability._TOr target detection miss rate Pmd_TIs set, and the set target false detection rate Pfd is set._TOr target detection miss rate Pmd_TA command for adjusting the threshold value Th used in the incoming call determination unit 110 is generated based on the Then, threshold adjustment command generating section 1008 outputs the generated command to transmitting section 1014.
[0110]
As an example of a method of setting the target value of the erroneous determination probability, a past arrival waiting period of the mobile station device 1004 is statistically investigated, and the threshold adjustment command generation unit 1008 misses the target detection based on the investigation result. Rate Pmd_TSet.
[0111]
Further, as another example, an increase or decrease in the number of mobile station devices existing in the area covered by the base station device 1002 is investigated, and based on the result of the investigation, the threshold adjustment command generation unit 1008 sets the target false detection rate Pfd._TOr target detection miss rate Pmd_TSet. For example, when the number of mobile station devices increases, the threshold adjustment command generation unit 1008 sets an arbitrary target in order to suppress an increase in the erroneous detection rate Pfd and the missed detection rate Pmd due to a decrease in PI reception quality in the area. Detection miss rate Pmd_TSet.
[0112]
Also, the command generated by the threshold adjustment command generation unit 1008 may indicate a target value of the erroneous determination probability, or may indicate a change value of the target value of the erroneous determination probability.
[0113]
Transmitting section 1014 generates a PICH radio signal by modulating the PI generated by paging indicator generating section 1010, and transmits it to mobile station apparatus 1004 via antenna 1006. Also, when there is an incoming call addressed to mobile station apparatus 1004, transmitting section 1014 generates a PCH radio signal by modulating the paging information generated by paging information generating section 1012, and transmits the mobile station via antenna 1006. Transmit to the device 1004. Further, when a command is generated by the threshold adjustment command generation unit 1008, the transmission unit 1014 generates a radio signal of a predetermined control channel by modulating the generated command, and transmits the signal to the mobile station via the antenna 1006. Transmit to the device 1004.
[0114]
In the incoming call determination device 1016 of the mobile station device 1004, the receiving unit 1018 transmits the PICH radio signal transmitted from the base station device 1002 via the antenna 102 at every preset intermittent reception cycle (for example, 2 seconds). It receives and demodulates the PI included in the radio signal and outputs it to the received signal level measuring unit 106. Also, when there is an incoming call, receiving section 1018 receives and demodulates a PCH radio signal from base station apparatus 1002, and outputs the demodulated PCH to incoming call sequence control section 112. Further, when receiving a command transmitted from base station apparatus 1002 when intermittently receiving a radio signal of the PICH, receiving section 1018 outputs the received command to command demodulating section 1020.
[0115]
Command demodulation section 1020 demodulates the command obtained from reception section 1018 and outputs the demodulated command to reception quality reference value setting section 1022.
[0116]
Note that command demodulation section 1020 may output the demodulated command to threshold value calculation section 408 instead of reception quality reference value setting section 1022. In this case, the threshold calculator 408 calculates the threshold Th based on the command obtained from the command demodulator 1020.
[0117]
The reception quality reference value setting section 1022 calculates the target false detection rate Pfd from the command obtained from the command demodulation section 1020._TOr target detection miss rate Pmd_TAnd the obtained target false detection rate Pfd_TOr target detection miss rate Pmd_TBased on the reception quality reference value SIR_TSet. Note that a specific reception quality reference value SIR_TIs the same as that of reception quality reference value setting section 406 in the second embodiment.
[0118]
The combination of the command demodulation unit 1020, the reception quality reference value setting unit 1022, the reception quality measurement unit 402, and the threshold calculation unit 408 constitutes a threshold adjustment unit for adjusting the threshold Th used in the incoming call determination unit 110. I have.
[0119]
In Embodiment 5, a combination of at least one of reception quality measurement section 402, command demodulation section 1020, reception quality reference value setting section 1022 and threshold calculation section 408 may constitute a threshold configuration unit.
[0120]
For example, when the combination of the command demodulation unit 1020 and the threshold calculation unit 408 forms a threshold configuration unit, the threshold calculation unit 408 calculates the threshold Th based on the command demodulated by the command demodulation unit 1020. When the combination of the reception quality measurement unit 402, the command demodulation unit 1020, and the threshold value calculation unit 408 forms a threshold configuration unit, the threshold value calculation unit 408 uses the SIR generated by the reception quality measurement unit 402._MThen, the threshold value Th is calculated based on the command demodulated by the command demodulation unit 1020. Further, when a combination of the command demodulation unit 1020, the reception quality reference value setting unit 1022, and the threshold value calculation unit 408 constitute a threshold configuration unit, the threshold value calculation unit 408 generates the reception quality reference value generated by the reception quality reference value setting unit 1022. Value SIR_TIs calculated based on the threshold value Th.
[0121]
As described above, according to the fifth embodiment, the threshold adjustment unit demodulates the command for adjusting the threshold Th and adjusts the threshold Th based on the demodulated command. Target false detection rate Pfd in incoming call determination section 110_TAnd target detection miss rate Pmd_TThus, it is possible to achieve a desired power consumption during standby and a desired incoming waiting period during incoming.
[0122]
Further, according to Embodiment 5, base station apparatus 1002 generates a command for adjusting threshold value Th, transmits the generated command, and mobile station apparatus 1004 receives the transmitted command, and receives the received command. In order to determine the presence or absence of an incoming call by adjusting the threshold value Th based on the received command and comparing the adjusted threshold value Th with the received signal level R of the PI, the mobile station moves based on the command generated in the base station apparatus 1002. Target false detection rate Pfd in incoming call determination section 110 of station apparatus 1004_TAnd target detection miss rate Pmd_TTherefore, it is possible to achieve a desired power consumption during standby for the base station apparatus 1002 and a desired incoming call waiting period for incoming calls for the base station apparatus 1002.
[0123]
【The invention's effect】
As described above, according to the present invention, by adjusting the threshold value used for comparison with the received signal level of the paging indicator, it is possible to control the power consumption during standby and the incoming waiting period during incoming.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an incoming call determination device according to Embodiment 1 of the present invention.
FIG. 2 is a diagram for explaining an operation in which the incoming call determination device according to Embodiment 1 of the present invention determines an incoming call;
FIG. 3 is a diagram for explaining an example of an operation when a threshold adjustment unit adjusts a threshold in the incoming call determination device according to the first embodiment of the present invention.
FIG. 4 is a block diagram illustrating a configuration of an incoming call determination device according to a second embodiment of the present invention.
FIG. 5 is a flowchart for explaining the operation of the incoming call determination device according to Embodiment 2 of the present invention.
FIG. 6 is a characteristic diagram of a detection miss rate used in a reception quality reference value setting unit of the incoming call determination device according to Embodiment 2 of the present invention.
FIG. 7 is a diagram for explaining the principle of operation of a threshold value calculation unit of the incoming call determination device according to the second embodiment of the present invention.
FIG. 8 is a block diagram showing a configuration of an incoming call determination device according to Embodiment 3 of the present invention.
FIG. 9 is a block diagram showing a configuration of an incoming call determination device according to Embodiment 4 of the present invention.
FIG. 10 is a block diagram showing a configuration of a mobile communication system according to Embodiment 5 of the present invention.
[Explanation of symbols]
100, 400, 800, 900, 1016 Incoming call judging device
102, 1006 antenna
104, 902, 1018 receiver
106 Received signal level measuring unit
108 Threshold adjuster
110 Incoming call judging unit
112, 906: incoming sequence control unit
402 reception quality measuring unit
404, 804, 908 erroneous judgment probability target value setting unit
406, 1022 Reception quality reference value setting unit
408 threshold calculator
802 remaining charge detection unit
904 intermittent reception cycle control unit
1000 mobile communication system
1002 base station equipment
1004 mobile station equipment
1008 Threshold adjustment command generator
1010 Paging indicator generator
1012 @ Paging information generation unit
1014 Transmitter
1020 Command demodulation unit

Claims (9)

Threshold adjusting means for adjusting a threshold indicating a value of a signal level of the paging indicator,
An incoming call judging device, comprising: an incoming call judging unit that judges whether there is an incoming call by comparing a received signal level of the paging indicator with the threshold value adjusted by the threshold adjusting unit. The threshold adjustment means,
It comprises a reception quality measurement means for measuring the reception quality of the paging indicator and generating a reception quality measurement value,
The incoming call judging device according to claim 1, wherein the threshold is adjusted based on the reception quality measurement value generated by the reception quality measurement unit. The threshold adjustment means,
Comprising a reception quality reference value setting means for setting a reception quality reference value of the paging indicator,
2. The incoming call judging device according to claim 1, wherein the threshold is adjusted based on the reception quality reference value set by the reception quality reference value setting means. The threshold adjustment means,
Target value determining means for determining a target value of the first erroneous determination probability that the incoming call determination means erroneously determines that there is an incoming call or the second erroneous determination probability that erroneously determines that there is no incoming call,
2. The incoming call judging device according to claim 1, wherein the threshold value is adjusted based on the target value determined by the target value determining means. The threshold adjustment means,
The apparatus further includes a residual charge amount detection unit that detects a residual charge amount of a battery used for driving the threshold adjustment unit and the incoming call determination unit,
2. The incoming call judging device according to claim 1, wherein the threshold value is adjusted based on the remaining charge amount detected by the remaining charge amount detection means. The threshold adjustment means,
Comprising an intermittent reception cycle obtaining means for obtaining an intermittent reception cycle for intermittently receiving the paging indicator,
2. The incoming call judging device according to claim 1, wherein the threshold is adjusted based on the intermittent reception cycle acquired by the intermittent reception cycle acquisition unit. The threshold adjustment means,
Comprising a command demodulation means for demodulating a command for adjusting the threshold,
2. The incoming call judging device according to claim 1, wherein the threshold is adjusted based on the command demodulated by the command demodulating unit. Comprising a base station device and a mobile station device,
The base station device,
Command generation means for generating a command for adjusting a threshold indicating the value of the signal level of the paging indicator,
Paging indicator generating means for generating the paging indicator,
Transmitting means for transmitting the command generated by the command generating means and the paging indicator generated by the paging indicator generating means, respectively.
The mobile station device,
Receiving means for respectively receiving the command and the paging indicator transmitted by the transmitting means,
Threshold adjusting means for adjusting the threshold based on the command received by the receiving means,
A mobile communication system comprising: an incoming call determining unit that determines whether there is an incoming call by comparing a received signal level of the paging indicator with the threshold value adjusted by the threshold adjusting unit. A threshold adjustment step of adjusting a threshold indicating a value of a signal level of the paging indicator,
An incoming call determining step of determining whether or not there is an incoming call by comparing a received signal level of the paging indicator with the threshold.

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