Abstract :
GF(q) m sequences with complex spreading mapping are considered for DS-CDMA systems by referring to three different environments with increasing synchronicity levels. For all environments, performance evaluation is derived both with a deterministic approach requiring spreading sequence specification, and with a statistical derivation, based on the assumption of spreading sequence ergodicity, in order to give closed-form performance theory. The optimal mapping design criterion, through zero-mean complex code mapping, is computed for all environments and validated through several numerical tests. Performance invariance, with respect to sequence levels, has been demonstrated for low synchronous environments, where the proposed sequence gives better performance
Keywords :
code division multiple access; sequential codes; spread spectrum communication; DS-CDMA systems; closed-form performance theory; coding map theory; complex spreading mapping; deterministic approach; optimal mapping design criterion; performance invariance; q-level m sequences; spread spectrum; spreading sequence ergodicity; spreading sequence specification; statistical derivation; synchronicity; zero-mean complex code mapping; Frequency synchronization; Multiaccess communication; Peer to peer computing; Resource management; Robustness; Signal mapping; Spread spectrum communication; System performance; Testing; Transmitters;
