Median weighted tracking for spread-spectrum communications
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-015/00
H04K-001/00
H04L-027/30
H04L-027/26
출원번호
US-0765001
(2001-01-18)
발명자
/ 주소
Lomp,Gary R.
출원인 / 주소
InterDigital Technology Corporation
대리인 / 주소
Volpe and Koenig, P.C.
인용정보
피인용 횟수 :
26인용 특허 :
204
초록▼
An improvement for a method and system for tracking a spreading code, used in a code division multiple access (CDMA) system. An input signal has spread-spectrum modulation. The spreading code embedded in the spread-spectrum modulation has a plurality of chips. The input signal is sampled, and half-c
An improvement for a method and system for tracking a spreading code, used in a code division multiple access (CDMA) system. An input signal has spread-spectrum modulation. The spreading code embedded in the spread-spectrum modulation has a plurality of chips. The input signal is sampled, and half-chip offset samples are formed from the sampled input signal. An even set of the half-chip offset samples are grouped into an early set of samples, and an odd set of the half-chip offset samples are grouped into a late set of samples. Each early set of samples is multiplied by the spreading code c(n+1), c(n+2), . . . , c(n+L) , to generate a first plurality of products. L is approximately equal to the number of chips of delay between the earliest and latest multipath signals. A first plurality of sums and magnitudes are computed from the first plurality of products. The first plurality of magnitudes are summed to generate an early signal-energy value. Each late set of samples is multiplied by the spreading-code c(n-1), c(n-2), . . . , c(n-L), thereby generating a second plurality of products. A second plurality of sums and magnitudes are computed from the second plurality of products. The second plurality of magnitudes are summed to generate a late signal-energy value. A difference is calculated between the early signal-energy value and the late signal-energy value, thereby producing an error signal.
대표청구항▼
What is claimed is: 1. An improvement for tracking a spreading code in a multipath environment generating a plurality of multipath signals used in a code division multiple access (CDMA) tracking circuit requiring an error signal, the improvement comprising: an analog-to-digital converter for sampli
What is claimed is: 1. An improvement for tracking a spreading code in a multipath environment generating a plurality of multipath signals used in a code division multiple access (CDMA) tracking circuit requiring an error signal, the improvement comprising: an analog-to-digital converter for sampling an input signal having spread-spectrum modulation, with the spreading code embedded in the spread-spectrum modulation having a plurality of chips, with the analog-to-digital converter forming half-chip offset samples and grouping an even set of the half-chip offset samples into an early set of samples, and alternatively grouping an odd set of the half-chip offset sample into a late set of samples; a first correlation-bank, adaptive-matched filter, coupled to said analog-to-digital converter, for multiplying each early set of samples by the spreading code c(n+1), c(n+2), . . . , c(n+L), where L is small compared to the length of the spreading code and approximately equal to the number of chips of delay between the earliest and latest multipath signals, thereby generating a first plurality of products; a first sum-and-dump bank, coupled to said first correlation bank, adaptive-matched filter, for computing a first plurality of sums from the first plurality of products, respectively; a first plurality of calculators, coupled to said first sum-and-dump bank, for calculating a first plurality of magnitudes from the first plurality of sums, respectively; a first summer, coupled to said first plurality of calculators, for summing the first plurality of magnitudes to generate an early signal-energy value; a second correlation-bank, adaptive-matched filter, coupled to said analog-to-digital converter, for multiplying each late set of samples by the spreading code c(n-1), c(n-2), . . . , c(n-L), thereby generating a second plurality of products; a second sum-and-dump bank, coupled to said second correlation bank, adaptive-matched filter, for computing a second plurality of sums from the second plurality of products, respectively; a second plurality of calculators, coupled to said second sum-and-dump bank, for calculating a second plurality of magnitudes from the second plurality of sums, respectively; a second summer, coupled to said second plurality of calculators, for summing the second plurality of magnitudes to generate a late signal-energy value; and a subtractor, coupled to said first summer and to said second summer, for calculating a difference between the early signal-energy value and the late signal-energy value, thereby producing the error signal. 2. An improvement for tracking a spreading code in a multipath environment generating a plurality of multipath signals, used in a code division multiple access (CDMA) tracking circuit requiring an error signal, the improvement comprising the steps of: sampling an input signal having spread-spectrum modulation, with the spreading code embedded in the spread-spectrum modulation having a plurality of chips; forming half-chip offset samples from the sampled input signal; grouping an even set of the half-chip offset samples into an early set of samples; grouping, alternatively, an odd set of the half-chip offset samples into a late set of samples; multiplying each early set of samples by the spreading code c(n+1), c(n+2), c(n+L), where L is small compared to the length of the spreading code and approximately equal to the number of chips of delay between the earliest and latest multipath signals, thereby generating a first plurality of products; computing a first plurality of sums from the first plurality of products, respectively; calculating a first plurality of magnitudes from the first plurality of sums, respectively; summing the first plurality of magnitudes to generate an early signal-energy value; multiplying each late set of samples by the spreading code c(n-1), c(n-2), c(n-L), thereby generating a second plurality of products; computing a second plurality of sums from the second plurality of products, respectively; calculating a second plurality of magnitudes from the second plurality of sums, respectively; summing the second plurality of magnitudes to generate a late signal-energy value; and calculating a difference between the early signal-energy value and the late signal-energy value, thereby producing the error signal. 3. An improvement for tracking a spreading code in a multipath environment generating a plurality of multipath signals, used in a code division multiple access (CDMA) tracking circuit requiring an error signal, the improvement comprising: sampling means for sampling an input signal having spread-spectrum modulation, with the spreading code embedded in the spread-spectrum modulation having a plurality of chips, with an analog-to-digital converter forming half-chip offset samples and grouping an even set of the half-chip offset samples into an early set of samples, and alternatively grouping an odd set of the half-chip offset sample into a late set of samples; first correlation means for multiplying each early set of samples by the spreading code c(n+1), c(n+2), . . . , c(n+L), where L is small compared to the length of the spreading code and approximately equal to a number of chips of delay between the earliest and latest multipath signals, thereby generating a first plurality of products; first sum-and-dump means for computing a first plurality of sums from the first plurality of products, respectively; first calculator means for calculating a first plurality of magnitudes from the first plurality of sums, respectively; first summer means for summing the first plurality of magnitudes to generate an early signal-energy value; second correlation means for multiplying each late set of samples by the spreading code c(n-1), c(n-2), . . . , c(n-L), thereby generating a second plurality of products; second sum-and-dump means for computing a second plurality of sums from the second plurality of products, respectively; second calculator means for calculating a second plurality of magnitudes from the second plurality of sums, respectively; second summer means, coupled to said second calculator means, for summing the second plurality of magnitudes to generate a late signal-energy value; and subtractor means for calculating a difference between the early signal-energy value and the late signal-energy value, thereby producing the error signal.
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