Title :
Post acquisition PN code uncertainty reduction by least-squares interpolation
Author :
Jones, W.W. ; Tu, Dan Q.
Author_Institution :
Interstate Electron., Anaheim, CA, USA
Abstract :
In direct-sequence spread-spectrum systems, typical acquisition strategies for searching the uncertainty region of the PN code operate either serially or in parallel at half-chip increments. The 2.5-dB offset loss resulting from a worse-case quarter-chip timing error has direct impact on the architectural design of both the acquisition and tracking subsystems. A computationally efficient technique based on least squares estimation is presented for reducing the quarter-chip post acquisition uncertainty. Performance results are presented that illustrate marked improvement over the worse-case loss of 2.5 dB. The computational complexity of the proposed algorithm is minimal
Keywords :
codes; interpolation; least squares approximations; spread spectrum communication; PN code; algorithm; architectural design; computational complexity; direct-sequence spread-spectrum systems; least squares estimation; least-squares interpolation; offset loss; quarter-chip post acquisition uncertainty; quarter-chip timing error; tracking subsystems; Employment; Filters; Interpolation; Least squares approximation; Noise generators; Performance loss; Signal resolution; Spread spectrum communication; Timing; Uncertainty;
Conference_Titel :
Military Communications Conference, 1991. MILCOM '91, Conference Record, Military Communications in a Changing World., IEEE
Conference_Location :
McLean, VA
Print_ISBN :
0-87942-691-8
DOI :
10.1109/MILCOM.1991.258372
