Title :
Variable coded MFSK signaling in an adaptive wideband high-thruput HF/MBC system
Author_Institution :
SIGCOM Res., Westboro, MA, USA
Abstract :
The author analyzes a channel adaptive high-throughput interference-resistant combined HF/MBC (meteorburst communications) system using novel techniques to counter time-varying path losses, Doppler spread, and multipath spread. Some of the techniques used are coded MFSK signaling, adaptivity, frequency stepping, high suppression, and resolution adaptive filtering. For simplicity, block orthogonal and dual-k convolution codes are considered. For a 24 kbit/s midlatitude and transauroral link and a 1 Mbit/s meteorburst link, the emitter power requirements are shown to decrease substantially by increasing the value of M as path losses increase. The bandwidth or power requirements are further shown to decrease by the use of variable coded MFSK signaling. The historical background of high-throughput meteorburst communications since 1979 is reviewed
Keywords :
digital radio systems; error correction codes; frequency shift keying; meteor burst communications; signalling (telecommunication networks); 1 Mbit/s; 24 kbit/s; Doppler spread; HF/MBC system; adaptive filtering; adaptive wideband system; bandwidth; block orthogonal codes; channel adaptive system; coded MFSK signaling; dual-k convolution codes; emitter power; frequency stepping; high throughput system; interference resistant system; meteorburst communications; meteorburst link; multipath spread; time-varying path losses; transauroral link; Counting circuits; Fading; Filtering theory; Filters; Frequency; Hafnium; Signal analysis; Signal processing; Signal to noise ratio; Wideband;
Conference_Titel :
Military Communications Conference, 1991. MILCOM '91, Conference Record, Military Communications in a Changing World., IEEE
Conference_Location :
McLean, VA
Print_ISBN :
0-87942-691-8
DOI :
10.1109/MILCOM.1991.258401
