JP2004159078A - Cell search controller and cell search control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the consumption amount of power in cell search. <P>SOLUTION: A reception quality measuring part 118 measures the reception quality of the synchronizing signal of its own cell and generates a measured value Q. A received quality determining part 106 compares the measured value Q with a threshold Q<SB>th</SB>. An instruction output part 108 instructs a cell search execution part 104 to search for a cell (first cell) whose diffusion code and diffusion timing are known when the comparison result shows that the measured value Q is not smaller than the threshold Q<SB>th</SB>. The instruction output part 108 instructs the cell search execution part 104 to search for the cell (second cell) whose diffusion code and diffusion timing are unknown when the comparison result shows that the measured value Q is smaller than the threshold Q<SB>th</SB>. The cell search execution part 104 searches for the first or second cell based on the instruction. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a cell search control device and a cell search control method used in a mobile communication system.
[0002]
[Prior art]
2. Description of the Related Art In a CDMA (Code Division Multiple Access) type mobile communication system that is currently widely used, the entire service area is divided into small areas called cells. A base station is arranged in each cell, and a mobile station existing in a certain cell communicates with a base station arranged in the cell. Such mobile communication systems include an inter-cell synchronous system and an inter-cell asynchronous system. Of these two systems, the inter-cell asynchronous system does not require an external time synchronization system such as GPS (Global Positioning System) and can be deployed flexibly, so the inter-cell asynchronous system is widely used. ing.
[0003]
In this inter-cell asynchronous system, a mobile station performs a cell search to find a base station (ie, a cell) to be connected. The cell search includes an initial cell search performed when the power of the mobile station is turned on, and a cell search performed during communication and standby of the mobile station. In order to perform the cell search, the base station always transmits a radio signal with a fixed power via a synchronization channel [for example, a CPICH (Common Pilot Channel)]. The radio signal includes a synchronization signal, and the synchronization signal is spread at different spreading timings between the base stations with different spreading codes between the base stations. On the other hand, the mobile station detects the cell by detecting the spread timing of the synchronization signal and identifying the spread code, for example, by a three-stage cell search which is a well-known method. Then, in the initial cell search, the cell detected by the above-described method is captured by the mobile station.
[0004]
The synchronization channel transmitted from the captured cell (hereinafter, the own cell) is attenuated in proportion to the distance of the propagation path from the base station to the mobile station, and is attenuated by the influence of the shield on the propagation path. The signal reception quality [for example, SIR (Signal to Interference Ratio), reception power, and the like] fluctuates particularly with the movement of the mobile station. In order to prepare for outgoing and incoming calls while coping with this fluctuation, the mobile station needs to perform a cell search as appropriate. The mobile station in the standby state performs a cell search for the cell at a predetermined time interval (for example, 2.56 seconds) while intermittently receiving the synchronization channel in order to reduce battery consumption. You have selected the best cell.
[0005]
It is known that a cell search for a cell is performed in two types according to a cell to be subjected to the cell search (for example, see Patent Document 1).
[0006]
The first type is a cell search for cells whose spreading timing and spreading code of a synchronization signal are known. In this case, the spreading timing and the spreading code of the synchronization signal are acquired, for example, via a broadcast channel when the power of the mobile station is turned on, and are stored inside the mobile station. Therefore, in the first type of cell search, no step is required to detect it again. Hereinafter, the first type of cell search is referred to as “known timing cell search”. On the other hand, the second type is a cell search for a cell whose spreading timing and spreading code of a synchronization signal are unknown. In the second type of cell search, a process for detecting a spreading timing and a spreading code is required. In other words, since the second type of cell search requires more operation processing and longer operation time than the first type of cell search, the power consumption in the second type of cell search is the first type. Power consumption in the cell search of the type (1). Hereinafter, the second type of cell search is referred to as “unknown timing cell search”.
[0007]
Conventionally, a cell search control device that controls the execution of a cell search as described above performs control such that a known timing cell search and an unknown timing cell search are executed in a predetermined order.
[0008]
[Patent Document 1]
JP 2001-86035 A
[0009]
[Problems to be solved by the invention]
However, in the conventional cell search control device, when the reception quality is stable in a good state, such as when the mobile station is stationary without any obstacle in the propagation path, the result of the unknown timing cell search and Even though the result of the known timing cell search is the same, the power consumption in the unknown timing cell search is larger than that of the known timing cell search. There was a problem that would consume.
[0010]
The present invention has been made in view of the above, and an object of the present invention is to provide a cell search control device and a cell search control method that can reduce power consumption in cell search.
[0011]
[Means for Solving the Problems]
A cell search control device according to the present invention includes: a measuring unit configured to measure reception quality of a synchronization signal to generate a measured value; and a comparing unit configured to compare the measured value generated by the measuring unit with a threshold to generate a comparison result. And a cell search execution means for performing a cell search based on the comparison result generated by the comparison means, wherein the cell search execution means determines that the measured value is equal to or greater than the threshold value. Performs a cell search for the first cell whose spreading code and spreading timing are known, and when the comparison result indicates that the measured value is less than the threshold, the spreading code and the spreading A configuration is employed in which a cell search is performed for a second cell whose timing is unknown.
[0012]
According to this configuration, the cell search for the second cell whose spread code and spread timing are unknown (ie, unknown timing cell search) is performed only when the measured value of the reception quality is less than the threshold value. Can be reduced, so that the power consumption in the cell search can be reduced.
[0013]
In the above configuration, the cell search control device of the present invention may further include a timer for measuring a first predetermined time, wherein the measuring unit sets the reception quality at every second predetermined time shorter than the first predetermined time. Measuring the first predetermined time while the timer keeps indicating that the measured value is less than the threshold, and performing the cell search. The means is configured to perform a cell search for the second cell when the timer completes measuring the first predetermined time.
[0014]
According to this configuration, in addition to the above effects, the cell search execution means performs the cell search for the second cell (ie, the unknown timing cell search) only when the timer completes the measurement of the first predetermined time. Since the unknown timing cell search can be prevented from being performed due to a temporary decrease in reception quality for a shorter time than the first predetermined time, power consumption in the cell search can be further reduced.
[0015]
A cell search control device according to the present invention includes: a measuring unit configured to measure reception quality of a synchronization signal to generate a measured value; and a comparing unit configured to compare the measured value generated by the measuring unit with a threshold to generate a comparison result. And a cell search execution means for performing a cell search based on the comparison result generated by the comparison means, wherein the cell search execution means determines that the measured value is equal to or greater than the threshold value. Performs a cell search for a first cell for which the spreading code and spreading timing are known, and when the comparison result indicates that the measured value is less than the threshold, the first search is performed. A configuration is employed in which a cell search is performed on a second cell whose cell, spreading code, and spreading timing are unknown.
[0016]
According to this configuration, both the known timing cell search and the cell search for the second cell whose spreading code and spreading timing are unknown (ie, unknown timing cell search) are performed only when the measured value of the reception quality is less than the threshold value. As a result, the frequency of executing the unknown timing cell search can be reduced, so that the power consumption in the cell search can be reduced.
[0017]
In the above configuration, the cell search control device of the present invention may further include a timer for measuring a first predetermined time, wherein the measuring unit sets the reception quality at every second predetermined time shorter than the first predetermined time. Measuring the first predetermined time when the comparison result continues to indicate that the measured value is less than the threshold value, and the cell search execution means However, when the timer completes measuring the first predetermined time, a cell search for the first cell and the second cell is performed.
[0018]
According to this configuration, in addition to the above-described effects, the cell search execution unit may perform the cell search for the first cell (that is, the known timing cell search) and the second cell search only when the timer completes measuring the first predetermined time. Cell search (that is, an unknown timing cell search) is performed for the cell of the first cell, so that the unknown timing cell search can be prevented from being performed due to a temporary decrease in reception quality for a shorter time than the first predetermined time. Power consumption in the search can be further reduced.
[0019]
The cell search control method of the present invention is a measuring step of measuring the reception quality of a synchronization signal to generate a measurement value, and a comparison step of generating a comparison result by comparing the measurement value generated in the measurement step with a threshold value A cell search execution step of performing a cell search based on the comparison result generated in the comparison step, wherein the cell search execution step indicates that the measured value is equal to or greater than the threshold value. Performing a cell search for a first cell with a known spreading code and spreading timing when the spreading code and the spreading timing are unknown when the comparison result indicates that the measured value is less than the threshold. And performing a cell search for the second cell.
[0020]
According to this method, the cell search for the second cell whose spread code and spread timing are unknown (ie, unknown timing cell search) is performed only when the measured value of the reception quality is less than the threshold value. Can be reduced, so that the power consumption in the cell search can be reduced.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
The gist of the present invention is to compare the measured value of the reception quality of the synchronization signal with a threshold value and control the execution frequency of a cell search for a cell whose spreading code and spreading timing are unknown based on the result of the comparison.
[0022]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0023]
(Embodiment 1)
FIG. 1 is a block diagram showing a configuration of a cell search control device according to Embodiment 1 of the present invention.
[0024]
The cell search control device 100 includes an antenna 102, a cell search execution unit 104, a reception quality determination unit 106, and an instruction output unit 108. The cell search execution unit 104 includes a code / timing control unit 110, a code / timing storage unit 112, a delay profile calculation unit 114, a timing correction unit 116, and a reception quality measurement unit 118.
[0025]
An input terminal of the delay profile calculation unit 114 is connected to the antenna 102 and the code / timing control unit 110. The input terminal of the timing correction unit 116 is connected to the delay profile calculation unit 114 and the code / timing control unit 110. The input terminal of reception quality measurement section 118 is connected to antenna 102 and timing correction section 116. The input terminal of reception quality determination section 106 is connected to reception quality measurement section 118. An input terminal of the instruction output unit 108 is connected to the reception quality determination unit 106. The input terminal of the code / timing control unit 110 is connected to the antenna 102, the instruction output unit 108, and the code / timing storage unit 112.
[0026]
FIG. 2 shows an example of the configuration of reception quality determination section 106 of cell search control apparatus 100.
[0027]
The reception quality determination unit 106 includes a comparison unit 202 and a threshold value holding unit 204. The input terminal of comparison section 202 is connected to reception quality measurement section 118 and threshold value holding section 204. The output terminal of the comparison unit 202 is connected to the input terminal of the instruction output unit 108.
[0028]
Next, the operation of the cell search control device 100 having the above configuration will be described.
[0029]
First, the antenna 102 receives a radio signal including a synchronization signal transmitted from a base station of the own cell or a neighboring cell via a synchronization channel, and generates reception data. Then, antenna 102 outputs the received data to code / timing control section 110, delay profile calculation section 114, and reception quality measurement section 118.
[0030]
The code / timing control unit 110 extracts the spreading code and the spreading timing of the synchronization signal of the own cell from the code / timing storage unit 112 and outputs them to the delay profile calculation unit 114.
[0031]
Note that the spreading code and spreading timing of the synchronization signal of the own cell are acquired at the time of the initial cell search performed when the power supply of the receiving device (for example, the mobile station) including the cell search control device 100 is started, and the code / code is acquired. It is stored in the timing storage unit 112.
[0032]
The delay profile calculation section 114 uses the spread code and spread timing output from the code / timing control section 110 to correlate the received data output from the antenna 102 with the spread code, and delays the synchronization signal of the own cell. Calculate the profile.
[0033]
The timing correction unit 116 detects the detailed spread timing of the synchronization signal by detecting the peak of the power value in the calculated delay profile, and detects the spread code and the spread timing output from the code / timing control unit 110. The spreading timing is corrected, and the spreading code and the corrected spreading timing are output to reception quality measuring section 118.
[0034]
The reception quality measurement unit 118 demodulates the reception data output from the antenna 102 using the spreading code and the spreading timing output from the timing correction unit 116 to generate a synchronization signal of the own cell. Reception quality measurement section 118 measures the reception quality (for example, SIR) of the generated synchronization signal of the own cell and generates measurement value Q. Then, reception quality measurement section 118 outputs generated measurement value Q to reception quality determination section 106.
[0035]
The cell search control device 100 performs the above operation for a predetermined time T ₁ (For example, every 2.56 seconds).
[0036]
Subsequently, the reception quality determination unit 106 determines the quality of the generated measurement value Q. Specifically, in reception quality determination section 106, comparison section 202 compares measured value Q with threshold value Q held in threshold value holding section 204 in advance. _th And outputs a comparison result to the instruction output unit 108.
[0037]
The instruction output unit 108 outputs a cell search execution instruction to the code / timing control unit 110 based on the comparison result obtained from the comparison unit 202. For example, if the measured value Q is the threshold Q _th When the comparison result indicates that the above is the case, the instruction output unit 108 performs a cell search for a cell (hereinafter, referred to as a “first cell”) having a known spreading code and spreading timing (ie, a known timing cell search). ) Is output. On the other hand, the measured value Q is _th When the comparison result indicates that the cell is less than the cell number, the instruction output unit 108 performs a cell search for a cell whose spread code and spread timing are unknown (hereinafter, referred to as a “second cell”) (ie, unknown timing cell search) ) Is output.
[0038]
The code / timing control section 110 outputs the spread code and spread timing of the cell synchronization signal to the delay profile calculation section 114 based on the instruction obtained from the instruction output section 108. More specifically, when receiving an instruction to execute a known timing cell search from the instruction output unit 108, the code / timing control unit 110 extracts the spread code and spread timing of the first cell from the code / timing storage unit 112. Then, code / timing control section 110 outputs the extracted spread code and spread timing to delay profile calculation section 114.
[0039]
The spread code and spread timing of the synchronization signal of the first cell are acquired, for example, via a broadcast channel when a power supply of a device (for example, a mobile station) equipped with a cell search control device is turned on, and a code / timing storage unit is provided. 112.
[0040]
On the other hand, when receiving an instruction to execute an unknown timing cell search from the instruction output unit 108, the code / timing control unit 110 performs, for example, a three-stage cell search, which is a well-known method, using the reception data output from the antenna 102. , Detecting the spreading timing of the second cell and identifying the spreading code. Then, code / timing control section 110 outputs the identified spread code and the detected spread timing to delay profile calculation section 114.
[0041]
The delay profile calculation unit 114 correlates the received data output from the antenna 102 with the spread code using the spread code and the spread timing output from the code / timing control unit 110, and calculates the first cell or the second cell. Calculate the delay profile for the synchronization signal of the cell.
[0042]
The timing correction unit 116 detects the detailed spread timing of the synchronization signal of the first cell or the second cell by detecting the peak of the power value in the calculated delay profile, and outputs from the code / timing control unit 110 The spread timing is corrected among the spread codes and the spread timings, and the spread code and the corrected spread timing are output to reception quality measuring section 118.
[0043]
The reception quality measurement unit 118 demodulates the reception data output from the antenna 102 using the spreading code and the spreading timing obtained from the timing correction unit 116 to generate a synchronization signal of the first cell or the second cell. I do. Then, in the case of executing the known timing cell search, the reception quality measurement unit 118 measures the reception quality (for example, SIR) of the generated synchronization signal of the first cell to generate the measurement value Q. On the other hand, in the case of executing the unknown timing cell search, the reception quality measuring section 118 measures the reception quality (for example, SIR) of the generated synchronization signal of the second cell to generate the measurement value Q.
[0044]
Next, the operation of cell search control apparatus 100 according to Embodiment 1 of the present invention will be described using FIG. FIG. 3 is a flowchart illustrating an operation of cell search control apparatus 100 according to Embodiment 1 of the present invention.
[0045]
First, in step ST301, reception quality measurement section 118 measures the reception quality of the synchronization signal of the own cell and generates measurement value Q. Then, in step ST302, the comparison unit 202 compares the generated measurement value Q with the threshold Q _th To generate a comparison result.
[0046]
Then, in step ST302, the measured value Q _th In this case, in step ST303, the instruction output unit 108 outputs an instruction to execute a known timing cell search to the cell search execution unit 104. Subsequently, in step ST304, cell search execution section 104 performs a known timing cell search, and reception quality measurement section 118 in cell search execution section 104 measures the reception quality of the synchronization signal of the first cell to obtain the measured value. Generate Q.
[0047]
On the other hand, in step ST302, the measured value Q _th If it is less than the above, in step ST305, the instruction output unit 108 outputs an instruction to execute an unknown timing cell search to the cell search execution unit 104. Subsequently, in step ST306, the cell search execution unit 104 performs an unknown timing cell search, and the reception quality measurement unit 118 in the cell search execution unit 104 measures the reception quality of the synchronization signal of the second cell. Generate Q.
[0048]
As described above, according to Embodiment 1, cell search control apparatus 100 sets measurement value Q of reception quality to threshold value Q _th Since the unknown timing cell search is performed only when the value is less than the above, the execution frequency of the unknown timing cell search can be reduced, so that the power consumption in the cell search can be reduced.
[0049]
(Embodiment 2)
FIG. 4 is a block diagram showing a configuration of a cell search control device according to Embodiment 2 of the present invention. In the second embodiment, the same components as those of the cell search control device 100 according to the first embodiment are denoted by the same reference numerals, and a detailed description thereof will be omitted. As shown in FIG. 4, cell search control apparatus 400 according to Embodiment 2 of the present invention includes instruction output section 402 instead of instruction output section 108 of cell search control apparatus 100 according to Embodiment 1 of the present invention. Have.
[0050]
A feature of cell search control apparatus 400 according to Embodiment 2 of the present invention is that generated measurement value Q is equal to threshold value Q _th Perform both a known timing cell search and an unknown timing cell search.
[0051]
The instruction output unit 402 outputs an instruction to execute a cell search to the code / timing control unit 110 based on the comparison result obtained from the comparison unit 202. For example, if the measured value Q is the threshold Q _th When the comparison result indicates that the above is the case, the instruction output unit 402 outputs an instruction to perform a cell search (that is, a known timing cell search) for the first cell. On the other hand, the measured value Q is _th When the comparison result indicates that the cell search is less than the above, the instruction output unit 402 outputs a cell search for the first cell (ie, a known timing cell search) and a cell search for the second cell (ie, an unknown timing cell search). Output an instruction to do both.
[0052]
Next, the operation of cell search control apparatus 400 according to Embodiment 2 of the present invention will be described using FIG. FIG. 5 is a flowchart for explaining an operation of cell search control apparatus 400 according to Embodiment 2 of the present invention. In the second embodiment, the same steps as those of the operation of cell search control apparatus 100 in the first embodiment are denoted by the same reference numerals.
[0053]
First, in step ST301, reception quality measurement section 118 measures the reception quality of the synchronization signal of the own cell and generates measurement value Q. Then, in step ST302, the comparison unit 202 compares the generated measurement value Q with the threshold Q _th To generate a comparison result.
[0054]
Then, in step ST302, the measured value Q _th At this point, in step ST303, instruction output section 108 outputs an instruction to execute a known timing cell search to cell search executing section 104. Subsequently, in step ST304, cell search execution section 104 performs a known timing cell search, and reception quality measurement section 118 in cell search execution section 104 measures the reception quality of the synchronization signal of the first cell to obtain the measured value. Generate Q.
[0055]
On the other hand, in step ST302, the measured value Q _th If it is less than the above, in step ST501, the instruction output unit 108 outputs an instruction to execute both the known timing cell search and the unknown timing cell search to the cell search execution unit 104. Then, in step ST502, first, cell search execution section 104 performs a known timing cell search, and reception quality measurement section 118 in cell search execution section 104 measures and measures the reception quality of the synchronization signal of the first cell. Generate the value Q. Subsequently, the cell search execution unit 104 performs an unknown timing cell search, and the reception quality measurement unit 118 in the cell search execution unit 104 measures the reception quality of the synchronization signal of the second cell to generate a measurement value Q. .
[0056]
Note that the execution order of the known timing cell search and the unknown timing cell search in step 502 is not limited to the above order. For example, the unknown timing cell search can be executed first. Furthermore, it is also possible to execute both cell searches at a predetermined ratio, such as executing the unknown timing cell search once after executing the known timing cell search four times.
[0057]
As described above, according to Embodiment 2, cell search control apparatus 400 sets reception quality measurement value Q to threshold Q _th Since the known timing cell search and the unknown timing cell search are both performed when the value is less than the above, it is possible to reduce the execution frequency of the unknown timing cell search and reduce the power consumption in the cell search.
[0058]
(Embodiment 3)
FIG. 6 is a block diagram showing a configuration of a cell search control device according to Embodiment 3 of the present invention. In the third embodiment, the same components as those of the cell search control device 100 according to the first embodiment are denoted by the same reference numerals, and a detailed description thereof will be omitted.
[0059]
As shown in FIG. 6, cell search control apparatus 600 according to Embodiment 3 of the present invention includes instruction output section 602 instead of instruction output section 108 of cell search control apparatus 100 according to Embodiment 1 of the present invention. And a timer 604.
[0060]
An input terminal of the instruction output unit 602 is connected to an output terminal of the reception quality determination unit 106. The instruction output unit 602 is connected to the timer 604.
[0061]
The feature of cell search control apparatus 600 according to Embodiment 3 of the present invention is that measured value Q is equal to threshold value Q _th Is to be executed only when a predetermined time is less than the predetermined time.
[0062]
The instruction output unit 602 outputs an instruction to the timer 604 and the code / timing control unit 110 based on the comparison result obtained from the comparison unit 202. For example, if the measured value Q is the threshold Q _th When the comparison result indicates that the above is the case, the instruction output unit 602 resets the timer 604, and further issues an instruction to execute a cell search (that is, a known timing cell search) for the first cell by the code / timing control. Output to the unit 110. On the other hand, the measured value Q is _th When the comparison result indicates that the time is less than the predetermined time, the instruction output unit 602 outputs an instruction to execute the time measurement to the timer 604.
[0063]
The timer 604 performs a predetermined time T, which is a time interval of the reception quality measurement, according to the instruction to execute the time measurement obtained from the instruction output unit 602. ₁ Longer predetermined time T ₂ (T ₂ > T ₁ ) Start timing.
[0064]
After this, a predetermined time T ₁ The measured value Q obtained for each is the threshold Q _th When the comparison result indicates that the time is less than ₂ Continue the timing of Timer 604 is time T ₂ When the timer 604 completes the time measurement, ₂ Is notified to the instruction output unit 602.
[0065]
The instruction output unit 602 calculates the time T obtained from the timer 604. ₂ The timer 604 is reset in accordance with the notification of the completion of the clock measurement, and an instruction to execute a cell search (that is, an unknown timing cell search) for the second cell is output to the code / timing control unit 110.
[0066]
Next, the operation of cell search control apparatus 600 according to Embodiment 3 of the present invention will be described using FIG. FIG. 7 is a flowchart illustrating an operation of cell search control apparatus 600 according to Embodiment 3 of the present invention. In the third embodiment, the same steps as those in the operation of cell search control apparatus 100 in the first embodiment are denoted by the same reference numerals.
[0067]
First, in step ST301, reception quality measurement section 118 measures the reception quality of the synchronization signal of the own cell and generates measurement value Q. Then, in step ST302, the comparison unit 202 compares the generated measurement value Q with the threshold Q _th To generate a comparison result.
[0068]
Then, in step ST302, the measured value Q _th At this point, in step ST701, the instruction output unit 602 resets the timer 604. Then, in step ST303, instruction output section 602 outputs an instruction to execute a known timing cell search to cell search executing section 104. Subsequently, in step ST304, cell search execution section 104 performs a known timing cell search, and reception quality measurement section 118 in cell search execution section 104 measures the reception quality of the synchronization signal of the first cell to obtain the measured value. Generate Q.
[0069]
On the other hand, in step ST302, the measured value Q _th When the time is less than the time T in step ST702, the instruction output unit 602 ₂ Is instructed to the timer 604, and in step ST703, the timer 604 sets the time T ₂ Start timing. Then, in step ST704, reception quality measurement section 118 measures the reception quality of the synchronization signal of the own cell and generates measurement value Q. Then, in step ST705, the comparing unit 202 compares the generated measurement value Q with the threshold Q _th To generate a comparison result.
[0070]
Then, in step ST705, the measured value Q is _th At this point, the instruction output unit 602 resets the timer 604 in step ST701. Then, in step ST303, instruction output section 602 outputs an instruction to execute a known timing cell search to cell search executing section 104. Subsequently, in step ST304, cell search execution section 104 performs a known timing cell search, and reception quality measurement section 118 in cell search execution section 104 measures the reception quality of the synchronization signal of the first cell to obtain the measured value. Generate Q.
[0071]
On the other hand, in step ST705, the measured value Q _th When the time is less than the time T, in step ST706, the instruction output unit 602 outputs ₂ Check whether the time measurement has been completed.
[0072]
In step ST706, the instruction output unit 602 outputs the time T from the timer 604. ₂ Time T ₂ When it is not possible to confirm the completion of the time measurement, the process returns to step ST704, and the reception quality measuring section 118 again measures the reception quality and generates the measurement value Q.
[0073]
On the other hand, in step ST706, the instruction output unit 602 outputs the time T from the timer 604. ₂ Time T ₂ When the completion of the time measurement has been confirmed, the instruction output unit 602 resets the timer 604 in step ST707. Then, in step ST305, instruction output section 602 outputs an instruction to execute unknown timing cell search to cell search executing section 104. Subsequently, in step ST306, the cell search execution unit 104 performs an unknown timing cell search, and the reception quality measurement unit 118 in the cell search execution unit 104 measures the reception quality of the synchronization signal of the second cell. Generate Q.
[0074]
Note that instead of performing steps ST305 and ST306, steps ST501 and ST502 described in the second embodiment can be performed. In other words, instead of performing only the unknown timing cell search, it is also possible to perform both the unknown timing cell search and the known timing cell search. In that case, the execution order of the unknown timing cell search and the known timing cell search can be performed once each, such as performing the known timing cell search four times and then performing the unknown timing cell search once. It is also possible to perform both cell searches at a predetermined rate.
[0075]
As described above, according to the third embodiment, cell search control device 600 performs control over predetermined time T ₂ The measured value Q is equal to the threshold Q _th The unknown timing cell search is performed only when the comparison result continues to indicate that the unknown timing cell search is performed, or both the unknown timing cell search and the known timing cell search are performed. Since it is possible to avoid the operation, the power consumption in the cell search can be further reduced.
[0076]
(Embodiment 4)
FIG. 8 is a block diagram showing a configuration of a cell search control device according to Embodiment 4 of the present invention. In the fourth embodiment, the same components as those of cell search control apparatus 100 in the first embodiment are denoted by the same reference numerals, respectively, and detailed description will be omitted. As shown in FIG. 8, cell search control apparatus 800 according to Embodiment 4 of the present invention includes instruction output section 802 instead of instruction output section 108 of cell search control apparatus 100 according to Embodiment 1 of the present invention. Have.
[0077]
Next, the operation of cell search control apparatus 800 according to Embodiment 4 of the present invention will be described using FIG. FIG. 9 is a flowchart illustrating an operation of cell search control apparatus 800 according to Embodiment 4 of the present invention. In Embodiment 4, the same steps as those in cell search control apparatus 100 in Embodiment 1 and cell search control apparatus 400 in Embodiment 2 are denoted by the same reference numerals.
[0078]
First, in step ST301, reception quality measurement section 118 measures the reception quality of the synchronization signal of the own cell and generates measurement value Q. Then, in step ST302, the comparison unit 202 compares the generated measurement value Q with the threshold Q _th To generate a comparison result.
[0079]
Then, in step ST302, the measured value Q _th At this point, in step ST303, instruction output section 108 outputs an instruction to execute a known timing cell search to cell search executing section 104. Subsequently, in step ST304, cell search execution section 104 performs a known timing cell search, and reception quality measurement section 118 in cell search execution section 104 measures the reception quality of the synchronization signal of the first cell to obtain the measured value. Generate Q.
[0080]
On the other hand, in step ST302, the measured value Q _th When the difference is less than the above, in step ST305, the instruction output unit 802 outputs an instruction to execute an unknown timing cell search to the cell search execution unit 104. Then, in step ST306, cell search execution section 104 performs an unknown timing cell search, and reception quality measurement section 118 in cell search execution section 104 measures the reception quality of the synchronization signal of the second cell to obtain measurement value Q Generate
[0081]
Then, in step ST901, comparing section 202 sets generated measurement value Q to threshold Q _th To generate a comparison result.
[0082]
Then, in step ST901, the measured value Q is _th When the value is less than, in step ST501, the instruction output unit 802 outputs an instruction to execute both the known timing cell search and the unknown timing cell search to the cell search execution unit 104. Then, in step ST502, first, cell search execution section 104 performs a known timing cell search, and reception quality measurement section 118 in cell search execution section 104 measures and measures the reception quality of the synchronization signal of the first cell. Generate the value Q. Subsequently, the cell search execution unit 104 performs an unknown timing cell search, and the reception quality measurement unit 118 in the cell search execution unit 104 measures the reception quality of the synchronization signal of the second cell to generate a measurement value Q. .
[0083]
On the other hand, in step ST901, the measured value Q _th If so, in step ST303, instruction output section 802 outputs a known timing cell search execution instruction to cell search executing section 104, and cell search executing section 104 performs a known timing cell search (step ST304).
[0084]
Note that, in step ST901, the measured value Q _th In this case, nothing needs to be executed instead of executing steps ST303 and ST304.
[0085]
Thus, according to Embodiment 4, cell search control apparatus 800 sets reception quality measurement value Q to threshold Q _th Since the known timing cell search and the unknown timing cell search are both performed when the value is less than the above, it is possible to reduce the execution frequency of the unknown timing cell search and reduce the power consumption in the cell search.
[0086]
【The invention's effect】
As described above, according to the present invention, the measured value of the reception quality of a synchronization signal is compared with a threshold, and based on the result of this comparison, the frequency of performing a cell search for a cell whose spreading code and spreading timing are unknown is reduced. Therefore, power consumption in cell search can be reduced.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a cell search control device according to Embodiment 1 of the present invention.
FIG. 2 is a block diagram showing an example of a configuration of a reception quality determination unit in the cell search control device according to Embodiment 1 of the present invention.
FIG. 3 is a flowchart for explaining the operation of the cell search control device according to the first embodiment of the present invention.
FIG. 4 is a block diagram showing a configuration of a cell search control device according to Embodiment 2 of the present invention.
FIG. 5 is a flowchart for explaining an operation of the cell search control device according to the second embodiment of the present invention.
FIG. 6 is a block diagram showing a configuration of a cell search control device according to Embodiment 3 of the present invention.
FIG. 7 is a flowchart for explaining the operation of the cell search control device according to Embodiment 3 of the present invention.
FIG. 8 is a block diagram showing a configuration of a cell search control device according to Embodiment 4 of the present invention.
FIG. 9 is a flowchart for explaining the operation of the cell search control device according to the fourth embodiment of the present invention.
[Explanation of symbols]
100, 400, 600, 800 cell search control device
102 antenna
104 Cell Search Execution Unit
106 reception quality judgment unit
108, 402, 602, 802 Instruction output unit
110 code / timing control unit
112 Code / timing storage
114 Delay Profile Calculator
116 Timing Correction Unit
118 reception quality measurement unit
202 Comparison section
204 threshold holding unit
604 timer

Claims (5)

Measuring means for measuring the reception quality of the synchronization signal to generate a measurement value;
A comparing unit that generates a comparison result by comparing the measurement value generated by the measuring unit with a threshold,
Cell search performing means for performing a cell search based on the comparison result generated by the comparing means,
The cell search execution means,
When the comparison result indicates that the measurement value is equal to or greater than the threshold value, perform a cell search for the first cell whose spreading code and spreading timing are known, and the measurement value is less than the threshold value. A cell search for a second cell whose spreading code and spreading timing are unknown when the comparison result indicates the above. A timer for measuring a first predetermined time;
The measuring means comprises:
Measuring the reception quality at every second predetermined time shorter than the first predetermined time to generate the measurement value;
The timer is
When the comparison result continues to indicate that the measured value is less than the threshold value, perform the timing of the first predetermined time,
The cell search execution means,
2. The cell search control device according to claim 1, wherein the cell search for the second cell is performed when the timer completes measuring the first predetermined time. Measuring means for measuring the reception quality of the synchronization signal to generate a measurement value;
A comparing unit that generates a comparison result by comparing the measurement value generated by the measuring unit with a threshold,
Cell search performing means for performing a cell search based on the comparison result generated by the comparing means,
The cell search execution means,
When the comparison result indicates that the measurement value is equal to or greater than the threshold value, perform a cell search for the first cell whose spreading code and spreading timing are known, and the measurement value is less than the threshold value. A cell search for the first cell and a second cell whose spreading code and spreading timing are unknown when the comparison result indicates the above. A timer for measuring a first predetermined time;
The measuring means comprises:
Measuring the reception quality at every second predetermined time shorter than the first predetermined time to generate a measurement value;
The timer is
When the comparison result continues to indicate that the measured value is less than the threshold value, perform the timing of the first predetermined time,
The cell search execution means,
4. The cell search control device according to claim 3, wherein the cell search for the first cell and the second cell is performed when the timer completes measuring the first predetermined time. A measuring step of measuring a reception quality of the synchronization signal to generate a measurement value;
A comparison step of comparing the measurement value generated in the measurement step with a threshold to generate a comparison result,
A cell search execution step of performing a cell search based on the comparison result generated in the comparison step,
The cell search execution step,
Performing a cell search for a first cell whose spreading code and spreading timing are known when the comparison result indicates that the measured value is equal to or greater than the threshold value;
Performing a cell search for a second cell whose spreading code and spreading timing are unknown when the comparison result indicates that the measured value is less than the threshold,
A cell search control method, comprising:

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