Abstract
The long distance high frequency (HF) communication suffers from time varying multipath fading. Multiple-Input Multiple-Output (MIMO) and Single-Carrier Frequency Domain Equalization (SC-FDE) have been introduced to HF communication system to combat fading. Because accurate channel estimation is essential for system operation, an architecture of signal flow chart has been designed for the HF MIMO SC-FDE system. In the architecture, an online Long Short-Term Memory (LSTM) estimator is proposed. Different from the channel responses time series created by the LSTM training and prediction loop, a corrected channel responses that are obtained through the received data symbols and the restored transmitting data symbols make up the channel responses time series. In order to evaluate the performance of channel estimators, a simulation system has been built. The uncorrelated and correlated channels are simulated referring to International Telecommunication Union (ITU)-R F.1487 standard and Kronecker model. The simulation results demonstrate that the online LSTM estimator outperforms Least Square (LS) and Recursive Least Square (RLS) estimators in terms of Bits Error Rate (BER) and Mean Square Error (MSE). The online LSTM estimator is capable of tracking the time varying HF MIMO channels. It has potentiality in actual long distance HF communication.
Highlights
High frequency (HF) communication which range of radio frequency is between 3 and 30 MHz has been widely utilized in long-distance military and civil communications
Multiple-Input Multiple-Output (MIMO) and Single-Carrier Frequency Domain Equalization (SC-FDE) have been introduced to HF communication to combat the multipath, avoid wave distortion at transmitters and improve the data rate
We designed the architecture of HF MIMO SC-FDE and the signal flow chart
Summary
High frequency (HF) communication which range of radio frequency is between 3 and 30 MHz has been widely utilized in long-distance military and civil communications. Besides its low cost and simple operation, the main advantage of HF communication is that it is not easy to be destroyed by wars and disasters owing to its propagation through the ionosphere. The HF channel presents a limited bandwidth and moderate data transfer rate, and exhibits time-varying nature that is made by the fluctuation of ionosphere. The HF channel can provide a narrow bandwidth allocation and exhibits multipath effect and time-varying nature. The barriers to applying HF communication are its low communication rate and poor reliability. Multiple-Input Multiple-Output (MIMO) technology has been introduced into HF communication systems to suppress
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