Title :
Multipath error mitigation using self-encoded spread spectrum for binary-offset-carrier signals
Author :
Duraisamy, Prakash ; Won Mee Jang ; Lim Nguyen ; Steiner, A.
Author_Institution :
Peter Kiewit Inst. of Inf. Sci., Technol. & Eng., Univ. of Nebraska-Lincoln, Omaha, NE, USA
Abstract :
Self-encoded spread spectrum (SESS) incorporated with binary-offset-carrier modulation can significantly improve the navigation accuracy exploiting the inherent temporal diversity of iterative detection (ID). ID is the natural realisation of the detection scheme based on the unique SESS spreading sequence that comes from the data source itself. The enhanced precision is presented in terms of multipath error envelope, running average error and root-mean-square error for early-minus-late and elary/late slope. SESS is a promising technology that can substantially mitigate detrimental effects of multipath on tracking error for position location or navigation. The accuracy of SESS with ID is superior to other conventional correlation detection schemes with a similar or minimally increased computational complexity.
Keywords :
computational complexity; diversity reception; mean square error methods; modulation; navigation; spread spectrum communication; SESS spreading sequence; binary-offset-carrier modulation; binary-offset-carrier signals; computational complexity; correlation detection schemes; data source; early-minus-late slope; elary-late slope; iterative detection; multipath error envelope; multipath error mitigation; navigation; navigation accuracy; root-mean-square error; running average error; self-encoded spread spectrum; temporal diversity; tracking error;
Journal_Title :
Communications, IET
DOI :
10.1049/iet-com.2013.1077
