Title :
An All-Digital Signal Demodulation Scheme for High Frequency (HF) QAM Signals
Author :
Yan, Zhao ; Tiandong, Duan ; Suqin, Wu
Author_Institution :
Inf. Eng., PLA Univ., Nanjing
Abstract :
In this paper, an all-digital demodulation scheme is introduced and investigated for HF QAM signals in MIL-STD-188-110B. Symbol timing, adaptive equalization and carrier recovery techniques are involved in it. Symbol timing is carried out by a maximum mean power estimate (MMPE) algorithm which avoids the conventional loop and decreases the computational complexity. A decision-directed (DD) mode carrier recovery loop runs jointly with adaptive equalizer. It eliminates intersymbol interference (ISI) and phase error better than separate structure. The non-linear decision feedback equalizer (DFE) is also adopted. Compared to linear equalizers, it has better performance on compensation for channel distortion. In this scheme, the signal synchronization preamble is equalized and phase compensated firstly in order to open the signal eye pattern, then adaptive equalization and carrier synchronization are carried out for data symbols. Simulation shows this all-digital demodulation scheme is feasible and efficient for HF QAM signals. It provides theoretical foundation for the DSP implementation
Keywords :
adaptive equalisers; computational complexity; decision feedback equalisers; interference suppression; intersymbol interference; quadrature amplitude modulation; DSP implementation; adaptive equalization; all-digital demodulation scheme; carrier recovery techniques; carrier synchronization; channel distortion; computational complexity; decision-directed mode carrier recovery loop; high frequency QAM signals; intersymbol interference suppression; maximum mean power estimation; nonlinear decision feedback equalizer; phase compensation; signal synchronization; symbol timing; Adaptive equalizers; Computational complexity; Decision feedback equalizers; Demodulation; Frequency synchronization; Hafnium; Intersymbol interference; Nonlinear distortion; Quadrature amplitude modulation; Timing;
Conference_Titel :
Wireless Communications, Networking and Mobile Computing, 2006. WiCOM 2006.International Conference on
Conference_Location :
Wuhan
Print_ISBN :
1-4244-0517-3
DOI :
10.1109/WiCOM.2006.160
