JP2004158933A - Synchronism tracking system and method therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a synchronism tracking apparatus and a method thereof which moderates the influence of a multi-path to improve the reception quality. <P>SOLUTION: The synchronism tracking apparatus comprises a replica generator 103 for demodulating the known signals in the received signals in a multi-carrier system to generate a replica, a delay profile generator 104 for calculating the correlation value of the replica with the received signals to generate a delay profile, an integrated value calculator 105 for integrating the correlation value in a fixed range of the delay profile to calculate a plurality of integrated values, a maximum integrated value detector 106 for detecting a maximum integrated value being the maximum of the integrated values, and a demodulation timing detector 107 for detecting the demodulation timing of the multi-carrier demodulation from the position of the maximum integrated value. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a synchronization tracking device and method in a multi-carrier wireless communication system.
[0002]
[Prior art]
A conventional synchronization tracking method will be described with reference to FIGS. In the conventional synchronous tracking method, the FFT timing position is detected by a process called guard correlation process. In the OFDM {Orthogonal Frequency Division Multiplex (orthogonal frequency division multiplexing)} communication method, as shown in FIG. 9A, in order to reduce the influence of multipath, an OFDM symbol included in a received signal is used as a guard section and an effective section. The guard section consists of a symbol section, and the guard section is a cyclic copy of the rear part of the effective symbol. As shown in FIG. 9B, the OFDM signal is delayed by an effective symbol period, and the OFDM signal before and after the delay is multiplied. Since the delayed signal component matches the signal component of the path without delay in the guard period, a correlation value is obtained, and no correlation appears in other sections. This correlation signal is slid and integrated by the guard period length. As a result, as shown in FIG. 9C, a triangular waveform having a peak at a symbol boundary in a signal of a path without delay is obtained. From this peak, an approximate value of the FFT synchronization timing can be detected.
[0003]
Next, a complex signal at the carrier position of the signal obtained by modulating the reference signal at the head of the frame is extracted from the signal after FFT {Fast Fourier Transform} processing, and the transmission path characteristics are determined by the known reference signal. Desired. Thereafter, IFFT {Inverse Fast Fourier Transform} processing is performed to calculate a power value of the signal subjected to the IFFT processing, and a peak of the power value is detected. The FFT window position is determined using the peak position of the power value, and the approximate value of the FFT synchronization timing obtained in advance is corrected.
[0004]
FIG. 10A shows received OFDM symbols. Here, it is assumed that there is no positional deviation from the IFFT-processed section on the transmission side. The impulse response of the signal shown in FIG. 10A appears at the position shown in FIG. 10C (for the sake of explanation, the impulse appears at the center when the DC component is subjected to inverse Fourier transform). The FFT window position at this time is as shown in FIG.
[0005]
However, when a position shift occurs in the OFDM symbol as shown in FIG. 10B, the position of the impulse also shifts and appears at the position shown in FIG. 10D. Therefore, the position of the window for Fourier transform is shifted by an amount corresponding to the shift from the originally appearing position {FIG. 10 (c)}. In the case of FIG. 10, by changing the position of the window to be Fourier-transformed to the position shown in FIG. 10 (f), the impulse component of the main wave appears at the center. The FFT window position is determined in this manner. When an impulse appears as shown in FIG. 10D, the FFT window is moved to a position fixedly shifted to half of the guard period as shown in FIG. You can also set windows. Regarding the output of the delay profile, regardless of whether the FFT window is set at the position shown in FIG. 10F or the position shown in FIG. To do. Thereby, the front ghost and the rear ghost can be confirmed.
[0006]
FIG. 11A shows a delay profile when there is a rear ghost, and FIG. 11B shows a delay profile when there is a front ghost. That is, in the case of FIG. 11A, it is possible to identify an impulse located after the position of the impulse of the main wave at the center as a rear ghost, and measure the time A as a delay time of the rear ghost. In the case of FIG. 11B, it is possible to identify a preceding impulse from the position of the impulse of the main wave at the center as a preceding ghost, and measure the time B as a delay time of the preceding ghost.
[0007]
Also, an FFT window position recovery device, which is one of the synchronization tracking devices, obtains an initial predicted value using a peak of a cross-correlation value of a well-known training sequence, and then calculates the FFT synchronization timing based on the obtained peak position. It is adjusted (for example, see Patent Document 1).
[0008]
[Patent Document 1]
JP 2001-268042 A
[0009]
[Problems to be solved by the invention]
However, in the conventional synchronization tracking device, since the peak value of the correlation value is not always present at the head position of the path group (main wave), when the FFT synchronization timing is detected using the peak value of the correlation value, the correlation When the position of the peak value of the value and the position of the path group are far apart on the time axis, even if a guard interval section is inserted to reduce the effect of multipath, the position of the peak value is If the allowable interval is exceeded, the effect of multipath cannot be reduced, and the effect of multipath cannot be reduced even by using the guard interval, so that there is a problem that the reception quality deteriorates.
[0010]
The present invention has been made in view of such a point, and an object of the present invention is to provide a synchronization tracking apparatus and method that can reduce the influence of multipath and improve reception quality.
[0011]
[Means for Solving the Problems]
The synchronization tracking device of the present invention includes a replica generation unit configured to generate a replica by multi-carrier demodulation of a known signal of a received signal, and a delay profile generation configured to calculate a correlation value between the replica and the received signal to generate a delay profile. Means, integrating means for calculating the plurality of integrated values by integrating the correlation value for each fixed range of the delay profile, maximum integrated value detecting means for detecting the maximum integrated value that is the maximum value of the integrated value, Demodulation timing detection means for detecting demodulation timing for performing multi-carrier demodulation from the position of the maximum integration value.
[0012]
According to this configuration, a plurality of integral values are calculated by integrating the delay signal for each predetermined range of the delay profile, a maximum integral value that is a maximum value of the integral value is detected, and a position of the maximum integral value is detected. In order to detect the demodulation timing for performing multi-carrier demodulation, when the position of the peak value of the delay profile and the position of the path group are significantly separated on the time axis, a certain range in which the peak value of the correlation value is located Since the integral value of the correlation value is small, the demodulation timing can be detected by eliminating the path signal of the peak value of the correlation value, and the demodulation timing that has the least influence on the reception quality can be detected. In addition, the reception quality can be improved by reducing the influence of multipath.
[0013]
In the above configuration, the synchronization tracking apparatus of the present invention detects the position where the correlation value of the delay profile from the delay profile generating means first exceeds a threshold from the top of the delay profile to generate first position information. First detecting means for detecting a second position where the correlation value of the delay profile from the delay profile generating means first exceeds the threshold value from the end of the delay profile to generate second position information; A second detecting means for calculating a section from the first position to the second position on the basis of the first and second position information from the first and second detecting means; And an interval calculating means for generating the integral value to the integral value calculating means, wherein the integral value calculating means, within a section indicated by the section information, It calculates a plurality of integrated values by integrating the delay profile for each predetermined range a configuration that gives the maximum integral value detecting means.
[0014]
According to this configuration, in addition to the effect described above, the demodulation timing is calculated by calculating the integral value of the correlation value only in the section where the correlation value of the delay profile is equal to or larger than the threshold value, so that the amount of calculation can be reduced. .
[0015]
In the synchronization tracking device of the present invention, in the above-described configuration, the replica generation unit generates a replica by performing multi-carrier demodulation on a known signal of a plurality of received signals, and provides the replica to the delay profile generation unit. Calculating a correlation value between the replica and the plurality of received signals to generate a plurality of delay profiles, and the synchronization tracking device adds the plurality of delay profiles from the delay profile generation unit to obtain the integrated value. A configuration including an adding means provided to the calculating means is adopted.
[0016]
According to this configuration, in addition to the above-mentioned effects, a delay profile is generated based on a plurality of received signals, the delay profiles are added, and the added delay profile is integrated for each predetermined range to obtain a plurality of integration profiles. Calculating the value, detecting the maximum integration value that is the maximum value of the integration value, and detecting the demodulation timing for performing multi-carrier demodulation from the position of the maximum integration value, it is possible to detect a stable demodulation timing. it can.
[0017]
The synchronization tracking device of the present invention, in the configuration, wherein the replica generation means performs multi-carrier demodulation of known signals of a plurality of received signals to generate a replica and provides the replica to the delay profile generation means, and the synchronization tracking device includes Selecting means for selecting a signal having the highest reception quality among the plurality of received signals and providing the selected signal to the delay profile generating means, wherein the delay profile generating means includes the replica from the replica generating means and the selecting means , A correlation value between the received signal and the received signal is calculated to generate a delay profile.
[0018]
According to this configuration, in addition to the above-described effects, a delay profile is generated based on the received signal having the highest reception quality, and a plurality of integrated values are calculated by integrating the delay profile for each predetermined range. Since the maximum integral value which is the maximum value of the integral value is detected, and the demodulation timing for performing the multi-carrier demodulation is detected from the position of the maximum integral value, it is possible to detect the demodulation timing with high accuracy.
[0019]
The synchronization tracking device of the present invention, in the above configuration, wherein the delay profile generation unit calculates a correlation value between the replica from the replica generation unit and the received signal, and a decimation to set a decimation interval. An interval setting unit, when performing the in-phase addition of the correlation value from the correlation value generation unit, performs the in-phase addition of the correlation value by thinning out the correlation value at the decimation interval from the decimation interval setting unit to generate a correlation value. And an in-phase addition unit to be provided to the integral value calculation means.
[0020]
According to this configuration, in addition to the above-described effects, when performing in-phase addition of the correlation value of the delay profile, the correlation value is generated by thinning out the correlation value at a predetermined decimation interval, performing in-phase addition of the correlation value, and generating the correlation value. Demodulation timing for integrating the correlation value for each fixed range to calculate a plurality of integral values, detecting the maximum integral value that is the maximum value of the integral values, and performing multi-carrier demodulation from the position of the maximum integral value , The amount of calculation can be reduced.
[0021]
The synchronization tracking device of the present invention, in the above configuration, wherein the synchronization tracking device generates a delay spread value indicating a spread of the correlation value of the delay profile from the delay profile generation unit, and the delay spread value calculation unit; Delay spread value determination means for determining whether the spread value is equal to or greater than a reference value to generate a determination result, wherein the integration value calculation means determines the delay based on the determination result from the delay spread value determination means. When the spread value is indicated to be equal to or greater than the reference value, the delay profile is integrated for each predetermined range to calculate a plurality of integrated values, and the synchronization tracking device determines that the delay spread value is When it is indicated that the delay profile is not more than the reference value, the correlation value of the delay profile is a threshold value from the beginning of the delay profile. A first detecting means for detecting a position exceeding firstly to generate first position information, and a correlation between the delay profile when the determination result indicates that the delay spread value is not more than the reference value. A second detecting unit that detects a second position whose value first exceeds the threshold from the end of the delay profile to generate second position information, and based on the first and second position information. A section calculating means for calculating a section from the first position to the second position to generate section information; and determining whether a section indicated by the section information is equal to or greater than a reference section to generate a determination result. And a threshold change to be given to the first and second detection means by changing the threshold when the determination result from the section determination means indicates that the section is longer than the reference section. And receiving the first position information from the section determination means when the determination result from the section determination means indicates that the section is not greater than or equal to the reference section. Another demodulation timing detecting means for detecting the demodulation timing based on the first position is provided.
[0022]
According to this configuration, in addition to the above-described effects, the operation of detecting the demodulation timing can be changed according to the delay spread value of the delay profile, so that the demodulation timing can be accurately detected.
[0023]
The synchronization tracking device of the present invention, in the above configuration, wherein the synchronization tracking device generates a delay spread value indicating a spread of the correlation value of the delay profile from the delay profile generation unit, and the delay spread value calculation unit; Delay spread value determination means for determining whether the spread value is equal to or greater than a reference value to generate a determination result, wherein the integration value calculation means determines the delay based on the determination result from the delay spread value determination means. When the spread value is indicated to be equal to or greater than the reference value, the delay profile is integrated for each predetermined range to calculate a plurality of integrated values, and the synchronization tracking device determines that the delay spread value is Maximum peak value detection for detecting the maximum peak value of the correlation value of the delay profile when it is indicated that the value is not equal to or greater than the reference value. Means for generating first position information indicating a first position at which a correlation value of the delay profile first becomes equal to or greater than a threshold value in a positive direction, which is a direction in which time progresses from the maximum peak value, And second detection means for generating second position information indicating a second position at which the correlation value of the delay profile first becomes greater than or equal to the threshold value in a negative direction, which is a direction in which the time goes back from the maximum peak value. Section calculation means for calculating a section from the first position to the second position based on the first and second position information to generate section information; and the section indicated by the section information A section determining means for determining whether or not the section is equal to or longer than the reference section, and changing the threshold value when the determination result from the section determining means indicates that the section is not equal to or longer than the reference section. A threshold changing means to be provided to the first and second detecting means; and a negative value receiving and storing the second position information from the threshold changing means when it is indicated that the section is not longer than the reference section. The direction position storage means, and when the determination result from the section determination means indicates that the section is not more than the reference section has changed from when it is shown that the section is more than the reference section Other demodulation timing detection means for reading the second position information from the negative direction position storage means at a time and detecting a demodulation timing based on the second position of the second position information. take.
[0024]
According to this configuration, in addition to the above-described effects, the operation of detecting the demodulation timing can be changed according to the delay spread value of the delay profile, so that the demodulation timing can be accurately detected.
[0025]
A synchronization tracking method according to the present invention includes a replica generating step of generating a replica by multi-carrier demodulation of a known signal of a received signal, and generating a delay profile by calculating a correlation value between the replica and the received signal. Step, an integration step of calculating the plurality of integrated values by integrating the correlation value for each fixed range of the delay profile, a maximum integration value detection step of detecting a maximum integration value that is the maximum value of the integration value, A demodulation timing detecting step of detecting a demodulation timing for performing multi-carrier demodulation from the position of the maximum integration value.
[0026]
According to this method, a plurality of integral values are calculated by integrating the delay signal for each predetermined range of the delay profile, a maximum integral value that is the maximum value of the integral values is detected, and a position of the maximum integral value is detected. In order to detect the demodulation timing for performing multi-carrier demodulation, when the position of the peak value of the delay profile and the position of the path group are significantly separated on the time axis, a certain range in which the peak value of the correlation value is located Since the integral value of the correlation value is small, the demodulation timing can be detected by eliminating the path signal of the peak value of the correlation value, and the demodulation timing that has the least influence on the reception quality can be detected. In addition, the reception quality can be improved by reducing the influence of multipath.
[0027]
BEST MODE FOR CARRYING OUT THE INVENTION
The gist of the present invention is to integrate a delay profile of a received signal for each predetermined range to calculate a plurality of integrated values, detect a maximum integrated value that is a maximum value of the integrated values, and determine a position of the maximum integrated value. It is to detect the demodulation timing for performing multi-carrier demodulation.
[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 illustrating a configuration of a synchronization tracking device according to Embodiment 1 of the present invention.
[0030]
As shown in FIG. 1, a synchronization tracking device 100 according to Embodiment 1 of the present invention includes an antenna 101, a radio reception unit 102, a replica generation unit 103, a delay profile generation unit 104, an integration value calculation unit 105, a maximum integration value A detection unit 106 and a demodulation timing detection unit 107 are provided.
[0031]
The input terminal of the wireless receiving unit 102 is connected to the output terminal of the antenna 101. An input terminal 103 of the replica generation unit is connected to an output terminal of the wireless reception unit 102. An input terminal of the delay profile generation unit 104 is connected to an output terminal of the replica generation unit 103. An input terminal of the integration value calculation unit 105 is connected to an output terminal of the delay profile generation unit 104. The input terminal of the maximum integration value detection unit 106 is connected to the output terminal of the integration value calculation unit 105. An input terminal of the demodulation timing detection unit 107 is connected to an output terminal of the maximum integration value detection unit 106.
[0032]
Antenna 101 receives a radio transmission signal transmitted from a transmission device (not shown), generates a reception signal, and provides the reception signal to radio reception section 102. Radio receiving section 102 performs a predetermined process on the received signal from antenna 101 and provides the processed received signal to replica generating section 103 and delay profile generating section 104. Replica generation section 103 performs multi-carrier demodulation on a known signal of the reception signal from radio reception section 102 to generate a replica, and provides the replica to delay profile generation section 104. Delay profile generation section 104 calculates a correlation value between the replica from replica generation section 103 and the received signal, generates a delay profile, and provides the delay profile to integral value calculation section 105.
[0033]
Integral value calculating section 105 integrates the delay profile from delay profile generating section 104 for each fixed range to calculate a plurality of integral values, and provides the integrated values to maximum integral value detecting section 106. That is, the integrated value calculating unit 105 calculates a plurality of integrated values by shifting each of the correlation values while shifting the same by a certain range (several samples) from the beginning of the delay profile.
[0034]
The maximum integration value detection unit 106 detects the maximum integration value, which is the maximum value of the integration value from the integration value calculation unit 105, and supplies the maximum integration value to the demodulation timing detection unit 107. Demodulation timing detection section 107 detects a demodulation timing for performing multicarrier demodulation from the position of the maximum integration value from maximum integration value detection section 106.
[0035]
Next, the operation of the synchronization tracking device according to Embodiment 1 of the present invention will be described with reference to FIG. 1 and FIG. FIG. 2 is a flowchart for explaining the operation of the synchronization tracking device according to Embodiment 1 of the present invention.
[0036]
As shown in FIG. 2, in step ST201, replica generation section 103 generates a replica by performing multicarrier demodulation on a known signal of a received signal. Then, delay profile generating section 104 calculates a correlation value between the replica from replica generating section 103 and the received signal to generate a delay profile (step ST202).
[0037]
Next, integral value calculating section 105 computes a plurality of integral values by performing integration for each fixed range of the delay profile (step ST203). Thereafter, the maximum integration value detection unit 106 detects the maximum integration value that is the maximum value of the plurality of integration values (Step ST204). Next, demodulation timing detection section 107 detects demodulation timing for performing multicarrier demodulation from the position of the maximum integral value (step ST205).
[0038]
As described above, in the first embodiment of the present invention, a plurality of integrated values are calculated by integrating the delay profile of the received signal for each fixed range, and a maximum integrated value that is the maximum value of the integrated values is detected. In addition, in order to detect the demodulation timing at which the multi-carrier demodulation is performed from the position of the maximum integral value, when the position of the peak value of the delay profile and the position of the path group are greatly separated on the time axis, the correlation value Since the integrated value of the correlation value in a certain range where the peak value is located is small, the demodulation timing can be detected by eliminating the path signal of the peak value of the correlation value, and the demodulation that has the least influence on the reception quality can be performed. Since the timing can be detected, the influence of multipath can be reduced and the reception quality can be improved.
[0039]
(Embodiment 2)
Next, a second embodiment of the present invention will be described in detail with reference to the drawings. FIG. 3 is a block diagram illustrating a configuration of a synchronization tracking device according to Embodiment 2 of the present invention. In the second embodiment of the present invention, the same components as those in the first embodiment of the present invention are denoted by the same reference numerals, and description thereof will be omitted.
[0040]
As shown in FIG. 3, synchronization tracking apparatus 300 according to Embodiment 2 of the present invention differs from synchronization tracking apparatus 100 according to Embodiment 1 of the present invention in that detecting sections 301 and 302 and section calculating section 303 are added. It becomes. That is, synchronization tracking apparatus 300 according to Embodiment 2 of the present invention includes antenna 101, radio reception section 102, detection sections 301 and 302, section calculation section 303, replica generation section 103, delay profile generation section 104, integration value calculation It has a unit 105, a maximum integration value detection unit 106, and a demodulation timing detection unit 107.
[0041]
Input terminals of the detection units 301 and 302 are connected to output terminals of the delay profile generation unit 104. The input terminal of the section calculation unit 303 is connected to the output terminals of the detection units 301 and 302. Output terminals of the delay profile generation unit 104 and the section calculation unit 303 are connected to input terminals of the integration value calculation unit 105.
[0042]
Next, an operation of the synchronization tracking device 300 according to the second embodiment of the present invention, which is different from the first embodiment of the present invention, will be described.
[0043]
The detection unit 301 detects a position where the correlation value of the delay profile from the delay profile generation unit 104 first exceeds the threshold from the beginning of the delay profile, generates first position information, and provides the first position information to the section calculation unit 303. The detecting unit 302 detects a second position where the correlation value of the delay profile from the delay profile generating unit 104 first exceeds the threshold from the end of the delay profile, generates second position information, and generates a second position information. This is given to the calculation unit 303.
[0044]
The section calculator 303 calculates a section from the first position to the second position based on the first and second position information from the detectors 301 and 302, generates section information, and calculates an integral value. To the unit 105. The integral value calculating section 105 calculates a plurality of integral values by integrating the delay profile from the delay profile generating section 104 for each predetermined range within the section indicated by the section information from the section calculating section 303, and detects the maximum integral value. To the unit 106.
[0045]
As described above, in the second embodiment of the present invention, in addition to the effect of the first embodiment of the present invention, by calculating the integral value of the correlation value only in the section where the correlation value of the delay profile is equal to or larger than the threshold value. Since the demodulation timing is calculated, the amount of calculation can be reduced.
[0046]
(Embodiment 3)
Next, a third embodiment of the present invention will be described in detail with reference to the drawings. FIG. 4 is a block diagram illustrating a configuration of a synchronization tracking device according to Embodiment 3 of the present invention. In the third embodiment of the present invention, the same components as those in the first embodiment of the present invention are denoted by the same reference numerals, and description thereof will be omitted.
[0047]
As shown in FIG. 4, synchronization tracking apparatus 400 according to Embodiment 3 of the present invention differs from synchronization tracking apparatus 100 according to Embodiment 1 of the present invention in that antenna 101, radio reception section 102, and delay profile generation section 104. , A plurality of antennas 101-1 to 101-N, radio receiving units 102-1 to 102-N, delay profile generating units 104-1 to 104-N, and an adding unit 401.
[0048]
That is, synchronization tracking apparatus 400 according to Embodiment 3 of the present invention includes a plurality of antennas 101-1 to 101-N, radio receiving sections 102-1 to 102-N, and delay profile generating sections 104-1 to 104-N. , An adder 401, a replica generator 103, an integrated value calculator 105, a maximum integrated value detector 106, and a demodulation timing detector 107.
[0049]
Input terminals of the wireless receiving units 102-1 to 102-N are connected to output terminals of the antennas 101-1 to 101-N. Input terminals of the replica generation unit 103 are connected to output terminals of the radio reception units 102-1 to 102-N. Input terminals of the delay profile generation units 104-1 to 104-N are connected to output terminals of the radio reception units 102-1 to 102-N and the replica generation unit 103. The input terminal of the adder 401 is connected to the output terminals of the delay profile generators 104-1 to 104-N.
[0050]
Next, an operation of the synchronization tracking device 400 according to the third embodiment of the present invention, which is different from the first embodiment of the present invention, will be described.
[0051]
The antennas 101-1 to 101-N receive a plurality of radio transmission signals transmitted from a transmission device (not shown), generate reception signals, and provide the reception signals to the radio reception units 102-1 to 102-N. Radio receiving sections 102-1 to 102-N perform predetermined processing on a plurality of received signals from antennas 101-1 to 101-N, and apply the processed plurality of received signals to replica generation section 103 and delay profile generation. To the units 104-1 to 104-N. Replica generating section 103 performs multi-carrier demodulation on known signals of a plurality of received signals from radio receiving sections 102-1 to 102-N, generates replicas, and provides the replicas to delay profile generating sections 104-1 to 104-N. Delay profile generation sections 104-1 to 104 -N calculate correlation values between the replica from replica generation section 103 and a plurality of received signals, generate a plurality of delay profiles, and provide the resultant to addition section 401. Adder 401 adds a plurality of delay profiles from delay profile generators 104-1 to 104 -N and provides the result to integral value calculator 105.
[0052]
As described above, in the third embodiment of the present invention, in addition to the effects of the first embodiment of the present invention, a plurality of delay profiles are generated based on a plurality of received signals, and these delay profiles are added. The added delay profile is integrated for each predetermined range to calculate a plurality of integrated values, a maximum integrated value that is the maximum value of the integrated values is detected, and multi-carrier demodulation is performed based on the position of the maximum integrated value. Since the demodulation timing to be performed is detected, stable demodulation timing can be detected.
[0053]
(Embodiment 4)
Next, a fourth embodiment of the present invention will be described in detail with reference to the drawings. FIG. 5 is a block diagram showing a configuration of a synchronization tracking device according to Embodiment 4 of the present invention. In the fourth embodiment of the present invention, the same components as those in the first embodiment of the present invention are denoted by the same reference numerals, and description thereof will be omitted.
[0054]
As shown in FIG. 5, synchronization tracking apparatus 500 according to Embodiment 4 of the present invention differs from synchronization tracking apparatus 100 according to Embodiment 1 of the present invention in that instead of antenna 101 and radio reception section 102, a plurality of It includes antennas 101-1 to 101-N, wireless receiving units 102-1 to 102-N, and a selecting unit 501.
[0055]
That is, synchronization tracking apparatus 500 according to Embodiment 4 of the present invention includes a plurality of antennas 101-1 to 101-N, radio reception sections 102-1 to 102-N, selection section 501, replica generation section 103, delay profile It includes a generation unit 104, an integration value calculation unit 105, a maximum integration value detection unit 106, and a demodulation timing detection unit 107.
[0056]
Input terminals of the wireless receiving units 102-1 to 102-N are connected to output terminals of the antennas 101-1 to 101-N. Input terminals of the replica generation unit 103 are connected to output terminals of the radio reception units 102-1 to 102-N. Input terminals of the selection unit 501 are connected to output terminals of the wireless reception units 102-1 to 102-N. The input terminal of the delay profile generation unit 104 is connected to the selection unit 501 and the output terminal of the replica generation unit 103.
[0057]
Next, an operation of the synchronization tracking device 500 according to Embodiment 4 of the present invention, which is different from Embodiment 1 of the present invention, will be described.
[0058]
The antennas 101-1 to 101-N receive a plurality of radio transmission signals transmitted from a transmission device (not shown), generate reception signals, and provide the reception signals to the radio reception units 102-1 to 102-N. Radio receiving sections 102-1 to 102-N perform predetermined processing on a plurality of reception signals from antennas 101-1 to 101-N, and process the received signals after processing to replica generation section 103 and selection section 501. Give to. Replica generating section 103 performs multi-carrier demodulation on known signals of a plurality of received signals from radio receiving sections 102-1 to 102-N, generates a replica, and provides the replica to delay profile generating section 104. Selection section 501 selects a signal having the highest reception quality from a plurality of reception signals from radio reception sections 102-1 to 102-N, and supplies the selected signal to delay profile generation section 104. Delay profile generation section 104 calculates a correlation value between the replica from replica generation section 103 and the received signal from selection section 501 to generate a delay profile.
[0059]
As described above, in the fourth embodiment of the present invention, in addition to the effect of the first embodiment of the present invention, a delay profile is generated based on the received signal having the highest reception quality among a plurality of received signals, and the delay profile is generated. A plurality of integral values are calculated by integrating the profile for each predetermined range, a maximum integral value that is the maximum value of the integral values is detected, and a demodulation timing for performing multicarrier demodulation is detected from the position of the maximum integral value. Therefore, it is possible to detect the demodulation timing with high accuracy.
[0060]
(Embodiment 5)
Next, a fifth embodiment of the present invention will be described in detail with reference to the drawings. FIG. 6 is a block diagram showing a configuration of a synchronization tracking device according to Embodiment 5 of the present invention. In the fifth embodiment of the present invention, the same components as those in the first embodiment of the present invention are denoted by the same reference numerals, and description thereof will be omitted.
[0061]
As shown in FIG. 6, synchronization tracking apparatus 600 according to Embodiment 5 of the present invention differs from synchronization tracking apparatus 100 according to Embodiment 1 of the present invention in that delay profile generating section 610 is used instead of delay profile generating section 104. Is provided. That is, synchronization tracking apparatus 600 according to Embodiment 5 of the present invention includes antenna 101, radio reception section 102, replica generation section 103, delay profile generation section 610, integration value calculation section 105, maximum integration value detection section 106, and demodulation. A timing detection unit 107 is provided.
[0062]
The delay profile generation section 610 includes a correlation value generation section 611, a thinning interval setting section 612, and an in-phase addition section 613. An input terminal of the correlation value generation unit 611 is connected to an output terminal of the wireless reception unit 102. The input terminal of the in-phase addition unit 613 is connected to the correlation value generation unit 611 and the output terminal of the thinning interval setting unit 612. An output terminal of the in-phase addition unit 613 is connected to an input terminal of the integral value calculation unit 105.
[0063]
Next, an operation of the synchronization tracking device 500 according to the fifth embodiment of the present invention, which is different from the first embodiment of the present invention, will be described.
[0064]
Correlation value generation section 611 calculates a correlation value between the replica from replica generation section 103 and the received signal from radio reception section 102 and provides the correlation value to in-phase addition section 613. The thinning interval setting unit 612 sets a thinning interval and provides the same to the in-phase adding unit 613. The in-phase addition unit 613 generates the correlation value by performing the in-phase addition of the correlation value by performing the in-phase addition of the correlation value by performing the in-phase addition of the correlation value from the correlation value generation unit 611 at the decimation interval from the decimation interval setting unit 612. This is given to the integral value calculation unit 105.
[0065]
As described above, in the fifth embodiment of the present invention, in addition to the effect of the first embodiment of the present invention, when the in-phase addition of the correlation value of the delay profile is performed, the correlation value is thinned out at a predetermined thinning interval. To calculate a plurality of integral values by integrating the delay profile for each predetermined range, detect a maximum integral value that is the maximum value of the integral values, and Since the demodulation timing for performing multi-carrier demodulation is detected from the value position, the amount of calculation can be reduced.
[0066]
(Embodiment 6)
Next, a sixth embodiment of the present invention will be described in detail with reference to the drawings. FIG. 7 is a block diagram showing a configuration of a synchronization tracking device according to Embodiment 6 of the present invention. In the sixth embodiment of the present invention, the same components as those in the first embodiment of the present invention are denoted by the same reference numerals, and description thereof will be omitted.
[0067]
As shown in FIG. 7, a synchronization tracking device 700 according to Embodiment 6 of the present invention includes an antenna 101, a radio reception unit 102, a replica generation unit 103, a delay profile generation unit 104, an integration value calculation unit 105, a maximum integration value Detecting section 106, demodulation timing detecting section 107, delay spread value calculating section 701, reference value setting section 702, delay spread value determining section 703, detecting sections 704, 705, section calculating section 706, section determining section 707, threshold value changing section 708. And a demodulation timing detection unit 709.
[0068]
The input terminal of the wireless receiving unit 102 is connected to the output terminal of the antenna 101. An input terminal 103 of the replica generation unit is connected to an output terminal of the wireless reception unit 102. An input terminal of the delay profile generation unit 104 is connected to an output terminal of the replica generation unit 103. An input terminal of the integration value calculation unit 105 is connected to an output terminal of the delay profile generation unit 104. The input terminal of the maximum integration value detection unit 106 is connected to the output terminal of the integration value calculation unit 105. An input terminal of the demodulation timing detection unit 107 is connected to an output terminal of the maximum integration value detection unit 106.
[0069]
An input terminal of the delay spread value calculation unit 701 is connected to an output terminal of the delay profile generation unit 104. The input terminal of the delay spread value determination unit 703 is connected to the output terminals of the delay spread value calculation unit 701 and the reference value setting unit 702. Input terminals of the integration value calculation unit 105 and the detection units 704 and 705 are connected to output terminals of the delay spread value determination unit 703. The input terminals of the detection units 704 and 705 are connected to the output terminal of the delay profile generation unit 104. An input terminal of the section calculation unit 706 is connected to output terminals of the detection units 704 and 705. An input terminal of the section determination unit 707 is connected to an output terminal of the section calculation unit 706. An input terminal of the threshold value changing unit 708 is connected to an output terminal of the section determination unit 707. The output terminal of the threshold value changing unit 708 is connected to the input terminals of the detection units 704 and 705. An input terminal of the demodulation timing detection section 709 is connected to an output terminal of the section determination section 707.
[0070]
Next, an operation of the synchronization tracking device 700 according to the sixth embodiment of the present invention, which is different from the first embodiment of the present invention, will be described.
[0071]
The delay spread value calculation section 701 receives the delay profile from the delay profile generation section 104, generates a delay spread value indicating the spread of the correlation value of the delay profile, and provides the delay spread value determination section 703 with the delay spread value. The reference value setting unit 702 sets a reference value of the delay spread value and supplies the reference value to the delay spread value determination unit 703. The delay spread value determination unit 703 determines whether the delay spread value from the delay spread value calculation unit 701 is equal to or greater than the reference value, generates a determination result, and provides the result to the integral value calculation unit 105 and the detection units 704 and 705.
[0072]
The integration value calculation unit 105 integrates the delay profile from the delay profile generation unit 104 for each predetermined range when the determination result from the delay spread value determination unit 703 indicates that the delay spread value is equal to or more than the reference value. Then, a plurality of integral values are calculated and provided to the maximum integral value detection unit 106.
[0073]
When the determination result from the delay spread value determination unit 703 indicates that the delay spread value is not greater than or equal to the reference value, the detection unit 704 determines that the correlation value of the delay profile from the delay profile generation unit 104 is A position that first exceeds the threshold is detected, first position information is generated, and given to the section calculation unit 706. Further, when the determination result from the delay spread value determination unit 703 indicates that the delay spread value is not equal to or greater than the reference value, the detection unit 705 determines whether the correlation value of the delay profile from the delay profile generation unit 104 matches the delay profile. A second position that first exceeds the threshold is detected from the end, and second position information is generated and provided to the section calculation unit 706.
[0074]
The section calculating unit 706 calculates a section from the first position to the second position based on the first and second position information from the detecting units 704 and 705, generates section information, and generates a section determining unit. 707. The section determination unit 707 determines whether the section indicated by the section information is equal to or greater than the reference section, generates a determination result, and provides the determination result to the threshold change unit 708 and the demodulation timing detection unit 709.
[0075]
The threshold changing unit 708 changes the threshold when the judgment result from the section judging unit 707 indicates that the section is equal to or longer than the reference section, that is, resets the threshold and gives it to the detecting units 704 and 705. The demodulation timing detecting section 709 receives the first position information from the section determining section 707 and indicates the first position when the determination result from the section determining section 707 indicates that the section is not longer than the reference section. A demodulation timing is detected based on the first position of the information.
[0076]
As described above, in the sixth embodiment of the present invention, in addition to the effect of the first embodiment of the present invention, since the operation of detecting the demodulation timing can be changed according to the delay spread value of the delay profile, accurate detection is possible. The demodulation timing can be detected.
[0077]
(Embodiment 7)
Next, a seventh embodiment of the present invention will be described in detail with reference to the drawings. FIG. 8 is a block diagram showing a configuration of a synchronization tracking device according to Embodiment 7 of the present invention. In the seventh embodiment of the present invention, the same components as those in the sixth embodiment of the present invention are denoted by the same reference numerals, and description thereof will be omitted.
[0078]
As shown in FIG. 8, synchronization tracking apparatus 800 according to Embodiment 7 of the present invention includes antenna 101, radio reception section 102, replica generation section 103, delay profile generation section 104, integration value calculation section 105, maximum integration value Detection section 106, demodulation timing detection section 107, delay spread value calculation section 701, reference value setting section 702, delay spread value determination section 703, maximum peak value detection section 801, detection sections 802, 803, section calculation section 804, section determination A section 805, a threshold value changing section 806, a negative direction position storage section 807, and a demodulation timing detection section 808 are provided.
[0079]
The input terminals of the maximum peak value detection unit 801 and the detection units 802 and 803 are connected to the output terminal of the delay spread value determination unit 703. The input terminals of the detection units 802 and 803 are connected to the output terminal of the delay profile generation unit 104. An input terminal of the section calculation unit 804 is connected to output terminals of the detection units 802 and 803. An input terminal of the section determination unit 805 is connected to an output terminal of the section calculation unit 804. An input terminal of the threshold value changing unit 806 is connected to an output terminal of the section determination unit 805. The output terminal of the threshold value changing unit 806 is connected to the input terminals of the detecting units 802 and 803. The input terminal of the negative direction position storage unit 807 is connected to the output terminal of the output terminal of the threshold value changing unit 806. The input terminal of the demodulation timing detection unit 808 is connected to the section determination unit 805 and the output terminal of the negative direction position storage unit 807.
[0080]
Next, an operation of the synchronization tracking device 800 according to the seventh embodiment of the present invention, which is different from the sixth embodiment of the present invention, will be described.
[0081]
The maximum peak value detection unit 801 determines the maximum peak value of the correlation value of the delay profile from the delay profile generation unit 104 when the determination result from the delay spread value determination unit 703 indicates that the delay spread value is not greater than or equal to the reference value. The value is detected and given to the detection units 802 and 803.
[0082]
The detecting unit 802 outputs the third position information indicating the third position at which the correlation value of the delay profile from the delay profile generating unit 104 first becomes equal to or greater than the threshold value in the positive direction, which is the direction in which time advances from the maximum peak value. It is generated and provided to the section calculation unit 804. The detecting unit 803 outputs the fourth position information indicating the fourth position at which the correlation value of the delay profile from the delay profile generating unit 104 first becomes equal to or larger than the threshold value in the negative direction in which the time goes back from the maximum peak value. It is generated and provided to the section calculation unit 804.
[0083]
The section calculation unit 804 calculates a section from the third position to the fourth position based on the third and fourth position information from the detection units 802 and 803, generates section information, and generates a section determination unit. 805. The section determining unit 805 receives the third and fourth position information and the section information from the section calculating unit 804, determines whether the section indicated by the section information is equal to or greater than the reference section, and generates a determination result. This is given to the threshold changing unit 806 and the demodulation timing detecting unit 808.
[0084]
The threshold changing unit 806 changes the threshold when the determination result from the section determining unit 805 indicates that the section is not equal to or longer than the reference section, that is, resets the threshold and gives the threshold to the detecting units 802 and 803; , The fourth position information is provided to the negative direction position storage unit 807 and stored. Further, threshold change section 806 receives the determination result from section determination section 805 and provides it to demodulation timing detection section 808. The demodulation timing detection unit 808 changes from when the determination result from the section determination unit 805 indicates that the section is not longer than the reference section to when it indicates that the section is not shorter than the reference section. In this case, the fourth position information previously stored in the negative direction position storage unit 807 is read out, and the demodulation timing is detected based on the fourth position of the fourth position information.
[0085]
As described above, in the seventh embodiment of the present invention, in addition to the effect of the first embodiment of the present invention, since the operation of detecting the demodulation timing can be changed according to the delay spread value of the delay profile, accurate detection is possible. The demodulation timing can be detected.
[0086]
【The invention's effect】
As described above, according to the present invention, a plurality of integrated values are calculated by integrating for each fixed range of a delay profile of a received signal, a maximum integrated value that is a maximum value of the integrated values is detected, and In order to detect the demodulation timing at which multi-carrier demodulation is performed from the position of the maximum integral value, when the position of the peak value of the delay profile and the position of the path group are significantly separated on the time axis, the peak value of the correlation value Since the integral value of the correlation value within a certain range where is located is small, it is possible to detect the demodulation timing by eliminating the path signal of the peak value of the correlation value, and to detect the demodulation timing that has the least influence on the reception quality. Therefore, it is possible to mitigate the effects of multipath and improve reception quality.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a synchronization tracking device according to a first embodiment of the present invention.
FIG. 2 is a flowchart for explaining the operation of the synchronization tracking device according to the first embodiment of the present invention;
FIG. 3 is a block diagram showing a configuration of a synchronization tracking device according to a second embodiment of the present invention.
FIG. 4 is a block diagram showing a configuration of a synchronization tracking device according to a third embodiment of the present invention.
FIG. 5 is a block diagram showing a configuration of a synchronization tracking device according to a fourth embodiment of the present invention.
FIG. 6 is a block diagram showing a configuration of a synchronization tracking device according to a fifth embodiment of the present invention.
FIG. 7 is a block diagram illustrating a configuration of a synchronization tracking device according to a sixth embodiment of the present invention.
FIG. 8 is a block diagram showing a configuration of a synchronization tracking device according to a seventh embodiment of the present invention.
FIG. 9 is a diagram for explaining a conventional synchronous tracking method;
FIG. 10 is another diagram for explaining a conventional synchronization tracking method;
FIG. 11 is another diagram for explaining a conventional synchronous tracking method.
[Explanation of symbols]
100, 300, 400, 500, 600, 700, 800 Synchronous tracking device
101, 101-1 to 101-N antenna
102, 102-1 to 102-N wireless receiving unit
103 Replica generation unit
104, 104-1 to 104-N, 610 Delay profile generation unit
105 Integration value calculation unit
106 Maximum integrated value detector
107 Demodulation timing detector
301, 302, 704, 705, 802, 803 detector
303, 706, 804 Section calculation unit
401 adder
501 Selector
611 Correlation Value Generation Unit
612 Thinning interval setting unit
613 In-phase adder
701 Delay spread value calculation unit
702 Reference value setting section
703 Delay spread value judgment unit
707, 805 section judgment unit
708, 806 Threshold changing unit
709, 808 Demodulation timing detector
801 Maximum peak value detector
807 Negative direction position storage unit

Claims (8)

Replica generating means for generating a replica by multi-carrier demodulation of a known signal of a received signal; delay profile generating means for calculating a correlation value between the replica and the received signal to generate a delay profile; Integrating means for integrating the correlation value for each range to calculate a plurality of integrated values; maximum integrated value detecting means for detecting a maximum integrated value that is the maximum value of the integrated values; A synchronous tracking device, comprising: demodulation timing detection means for detecting demodulation timing for performing carrier demodulation. First detection means for detecting a position where the correlation value of the delay profile from the delay profile generation means first exceeds a threshold from the beginning of the delay profile to generate first position information; and the delay profile generation means Second detection means for detecting a second position where the correlation value of the delay profile from the end of the delay profile first exceeds the threshold from the end of the delay profile to generate second position information; And calculating the section from the first position to the second position based on the first and second position information from the second detecting means, generating section information, and providing the section information to the integral value calculating means. Calculating means, wherein the integral value calculating means calculates a correlation for each of a predetermined range of the delay profile from the delay profile generating means within a section indicated by the section information. The integrates synchronous follow-up apparatus according to claim 1, wherein the calculated a plurality of integration values given to the maximum integration value detecting means. The replica generation unit generates a replica by multi-carrier demodulation of a known signal of a plurality of received signals and provides the replica to the delay profile generation unit. The delay profile generation unit determines a correlation between the replica and the plurality of received signals. Calculating a value to generate a plurality of delay profiles, wherein the synchronization tracking device includes an adding unit that adds the plurality of delay profiles from the delay profile generating unit and provides the sum to the integral value calculating unit. The synchronization follow-up device according to claim 1, wherein The replica generation unit generates a replica by performing multi-carrier demodulation on a known signal of a plurality of reception signals and provides the replica to the delay profile generation unit. Selecting means for selecting a good one and giving it to the delay profile generating means, wherein the delay profile generating means calculates a correlation value between the replica from the replica generating means and the received signal from the selecting means. 2. The synchronization follow-up device according to claim 1, wherein the delay profile is generated by performing the following. The delay profile generation unit, a correlation value generation unit that calculates a correlation value between the replica from the replica generation unit and the received signal, a thinning interval setting unit that sets a thinning interval, from the correlation value generation unit When performing the in-phase addition of the correlation value, the in-phase addition unit to perform the in-phase addition of the correlation value by thinning out the correlation value at the decimation interval from the decimation interval setting unit to generate a correlation value and to provide the correlation value to the integral value calculation unit. The synchronization follow-up device according to claim 1, comprising: The synchronization tracking device includes: a delay spread value calculation unit configured to generate a delay spread value indicating a spread of a correlation value of the delay profile from the delay profile generation unit; and determining whether the delay spread value is equal to or greater than a reference value. Delay spread value determining means for generating a determination result by the delay spread value determining means. The integration value calculating means indicates that the delay spread value is equal to or greater than the reference value based on the determination result from the delay spread value determining means. When the delay spread is performed, a plurality of integrated values are calculated by integrating the correlation values for each fixed range of the delay profile. The position where the correlation value of the delay profile first exceeds the threshold from the top of the delay profile First detection means for generating position information, and when the result of the determination indicates that the delay spread value is not greater than or equal to the reference value, the correlation value of the delay profile sets the threshold value from the end of the delay profile. Second detecting means for detecting a second position exceeding the first position and generating second position information, and from the first position to the second position based on the first and second position information. A section calculating means for calculating section of the section and generating section information; a section determining means for determining whether a section indicated by the section information is equal to or greater than a reference section to generate a determination result; A threshold changing unit that changes the threshold when the section indicates that the section is equal to or longer than the reference section and gives the threshold to the first and second detection units; When the fixed result indicates that the section is not equal to or longer than the reference section, the first position information is received from the section determination means, and the demodulation timing is set based on the first position of the first position information. 2. The synchronous tracking device according to claim 1, further comprising another demodulation timing detecting means for detecting. The synchronization tracking device includes: a delay spread value calculating unit configured to generate a delay spread value indicating a spread of a correlation value of the delay profile from the delay profile generating unit; and determining whether the delay spread value is equal to or greater than a reference value. Delay spread value determination means for generating a determination result by the delay spread value determination means, wherein the integration value calculation means indicates that the delay spread value is equal to or greater than the reference value based on the determination result from the delay spread value determination means. When the delay profile is integrated, a plurality of integrated values are calculated by integrating the correlation value for each fixed range of the delay profile, and the synchronization follow-up device indicates that the delay spread value is not greater than or equal to a reference value by the determination result. Maximum peak value detection means for detecting a maximum peak value of the correlation value of the delay profile when the delay profile is present, First detection means for generating first position information indicating a first position at which a value first becomes equal to or greater than a threshold value in a positive direction, which is a direction in which time advances from the maximum peak value, and a correlation value of the delay profile A second detecting means for generating second position information indicating a second position which is first equal to or larger than the threshold value in a negative direction, which is a direction in which time goes back from the maximum peak value; Section calculation means for calculating a section from the first position to the second position based on the position information to generate section information; and determining whether the section indicated by the section information is equal to or greater than a reference section. A section determining means for determining and generating a determination result; and changing the threshold value when the determination result from the section determining means indicates that the section is not equal to or greater than the reference section. For detection means Threshold changing means, negative direction position storing means for receiving and storing the second position information from the threshold changing means when it is indicated that the section is not more than the reference section, When the determination result indicates that the section is not more than the reference section, and when the section indicates that the section is not less than the reference section, the second direction of the negative direction position storage means is changed. 2. The synchronous follow-up device according to claim 1, further comprising another demodulation timing detecting means for reading out the position information and detecting the demodulation timing based on the second position of the second position information. A replica generating step of generating a replica by multi-carrier demodulation of a known signal of a received signal; a delay profile generating step of calculating a correlation value between the replica and the received signal to generate a delay profile; An integration step of integrating the correlation value for each range to calculate a plurality of integration values; a maximum integration value detection step of detecting a maximum integration value that is a maximum value of the integration values; A demodulation timing detecting step of detecting demodulation timing for performing carrier demodulation.

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