Novel nonstationary interference rejection technique in spread spectrum communications

Adaptive hierarchical lapped orthogonal transform (AHLOT) was proposed to track and reject the nonstationary interference in spread spectrum communications. AHLOT differs from hierarchical lapped transform (HLT) in that the former produces an arbitrary dyadic nonuniform time axis split, which can be adapted to the signal time-frequency structure, while the latter pays no attention to the signal structure and produces fixed dyadic split. A fast dynamic programming algorithm is utilized to select the basis, which matches the interference best, from a library of lapped orthogonal bases. The simulation results demonstrate that the technology improve bit error rate (BER) performance and increase the robustness of proposed receiver in the presence of nonstationary interference.