Title :
Performance of fast frequency hopped noncoherent MESK with a fixed hop rate under worst case jamming
Author :
Wang, Qian ; Gulliver, T. Aaron ; Bhargava, Vijay K. ; Felstead, E. Barry
Author_Institution :
Dept. of Electr. & Comput. Eng., Victoria Univ., BC, Canada
fDate :
10/1/1990 12:00:00 AM
Abstract :
The performance of fast-frequency-hopped M-ary frequency-shift keying with a fixed hop rate is evaluated, utilizing the Chernoff union bound method. The performance criterion used is a throughput measure i.e., an information rate sustained by a system for a given bit error rate, normalized by the hop rate. Both uncoded and coded systems are considered. It is shown using the cutoff rate argument that coding can provide a few dB gain in throughput. This is confirmed by the performance evaluation of various convolutional and block codes. Both partial-band noise jamming and multitone jamming with one tone per M -ary band are considered. Jamming parameters are assumed to be the worst case against the coding channel. Determination of the optimum M is also addressed
Keywords :
error correction codes; frequency agility; frequency shift keying; jamming; Chernoff union bound method; bit error rate; block codes; coded systems; coding; coding channel; convolutional codes; cutoff rate; error correction codes; fast frequency hopped noncoherent MESK; fixed hop rate; information rate; multitone jamming; partial-band noise jamming; performance evaluation; throughput measure; uncoded systems; worst case jamming; Artificial satellites; Computer aided software engineering; Error correction codes; Frequency shift keying; Frequency synchronization; Frequency synthesizers; Jamming; Spread spectrum communication; System performance; Throughput;
Journal_Title :
Communications, IEEE Transactions on
