Performance of a normalized energy metric without jammer state information for an FH/MFSK system in worst case partial band jamming
Abstract
For a frequency-hopped noncoherent MFSK communication system without jammer state information (JSI) in a worst case partial band jamming environment, it is well known that the use of a conventional unquantized metric results in very poor performance. In this paper, a 'normalized' unquantized energy metric is suggested for such a system. It is shown that with this metric, one can save 2-3 dB in required signal energy over the system with hard decision metric without JSI for the same desired performance. When this very robust metric is compared to the conventional unquantized energy metric with JSI, the loss in required signal energy is shown to be small. Thus, the use of this normalized metric provides performance comparable to systems for which JSI is known. Cutoff rate and bit error rate with dual-k coding are used for the performance measures.
- Publication:
-
IEEE Transactions on Communications
- Pub Date:
- August 1985
- Bibcode:
- 1985ITCom..33..869L
- Keywords:
-
- Frequency Hopping;
- Frequency Shift Keying;
- Jamming;
- Signal Encoding;
- Signal To Noise Ratios;
- State Estimation;
- Bit Error Rate;
- Decoding;
- Incoherence;
- Metric Space;
- Normalizing (Statistics);
- Robustness (Mathematics);
- Transmission Efficiency;
- Communications and Radar