Method of multi selection coherent detection and device thereof
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04L-027/22
H04B-001/69
출원번호
US-0830385
(2000-06-12)
우선권정보
CN-0124113 (1999-11-25)
국제출원번호
PCT//CN00/00151
(2001-08-02)
§371/§102 date
20010802
(20010802)
국제공개번호
WO01//39530
(2001-05-31)
발명자
/ 주소
Li, Huajia
출원인 / 주소
Huwei Technologies Co., Ltd.
대리인 / 주소
Merchant &
인용정보
피인용 횟수 :
0인용 특허 :
8
초록▼
A method and device used in wireless mobile communication for multi-selection signal detection. In order to minimize the influence of frequency shift and phase rotation that reduces signal detection performance, the total number of samples used for the signal detection may be divided into an equal n
A method and device used in wireless mobile communication for multi-selection signal detection. In order to minimize the influence of frequency shift and phase rotation that reduces signal detection performance, the total number of samples used for the signal detection may be divided into an equal number of segments, on which the coherent accumulating sum is calculated. Various possible combinations will be made according to each coherent result. The combinations may then be coherent accumulated again. Finally, the optimum results may be selected as the detection results. To accomplish this result, the input signal is input to the matched filter unit, whose output will be sent to each branch unit. The phase adjustment and the coherent accumulation of the signal will be performed in each respective branch unit, and then sent to the branch selection unit where the branch output with the largest mode is selected as the output.
대표청구항▼
1. A multi-sectional coherent detection method, comprising the steps of:A. dividing a length L used for the signal detection into Nmulticoh segments, performing coherent accumulating with each segment, and obtaining total Nmulticoh coherent results denoted as Xi (i=0 . . . Nnoncoh?1); B. performing
1. A multi-sectional coherent detection method, comprising the steps of:A. dividing a length L used for the signal detection into Nmulticoh segments, performing coherent accumulating with each segment, and obtaining total Nmulticoh coherent results denoted as Xi (i=0 . . . Nnoncoh?1); B. performing various possible phase adjustments on those Nmulticoh coherent results (the number of the possible phase adjustments being denoted as P), and denoting the adjustment results as Yi-j(i=0 . . . Nmulticoh?1, j=0 . . . P?1); C. selecting a value of the adjustment result from P adjustment results corresponding to each coherent result, and the largest number of the combinations being C=PNmulticoh, D. coherently accumulating Nmulticoh adjustment results in each combination and obtaining C=PNmulticoh coherent results denoted as Zt (t=0 . . . C?1); E. among C=PNmulticoh coherent results, selecting the optimum results as the detection results; wherein, in the phase adjustment of step B, when the number of the phase adjustments is P, performing the phase rotation of φ=φ0+k*2 π/p, (k=0 . . . P?1), on the signals respectively, wherein, φ0 may be any value.2. A multi-selection coherent detection method according to claim 1, wherein, the segments in step A are equal spaced or unequal spaced.3. A multi-selection coherent detection method according to claim 1, wherein, in the said step A, obtaining one Xi for each segment, and there being total Nmulticoh coherent results; according to step b further, performing P phase adjustments for each coherent result, and obtaining total Nmulticoh*P adjustment coherent results.4. A multi-section coherent detection method according to claim 3, wherein, selecting one adjustment coherent result from P adjustment coherent results corresponding to each coherent result, and carrying out the coherent overlapping on total Nmulticoh adjustment coherent results, and obtaining a final coherent result Zt obtained; in this way, there being total C=PNmulticoh possible selection methods, then obtaining C=PNmulticoh final coherent results Zt further.5. A multi-selection coherent detection method according to claim 1, wherein, in step E, a method of largest mode is used as a criterion by a selector to calculate Maxns(n=1, 2 . . . 8) for selecting the optimum branch results, wherein a comparison of the Maxns(n=1, 2 . . . 8) results provides a final output detection result.6. A multi-selection coherent detection method according to claim 4, wherein, the number of said coherent results is C=PNmulticoh or less.7. A multi-selection coherent detection device, wherein, the said detection device comprises: a matched filter unit; two or more branch units; and a branch selection unit, wherein an input signal is input to the matched filter unit; the output of the matched filter unit is sent to each branch unit respectively where phase adjustment and coherent accumulation of the signal is performed, and then sent to a branch selection unit where a method of largest mode is used as a criterion by a selector to calculate Maxns (n=1, 2 . . . 8) for selecting the optimum branch branch results, wherein a comparison of the Maxns (n=1, 2 . . . 8) results provides a final output detection result,wherein, each said branch unit further comprises: a multiplier, for carrying out the phase adjustment; an adder, for carrying out the coherent accumulation; a holder, for holding the data; a delay unit for delaying the data; wherein the output of the matched filter is sent to the branch selection unit via the multiplier, and the adder in turn; and an adjustment series of four bits is sent to the multiplier via the holder, and an output of the adder is fed back to its input via the delay unit. 8. A multi-selection coherent detection device according to claim 7, wherein, both a holding time of the holder and a delay time of the delay unit are for a time period of 1024 chips.
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이 특허에 인용된 특허 (8)
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