Title :
Packet combining in frequency-hop spread-spectrum communication systems
Author :
Daraiseh, Abdel-Ghani A. ; Baum, Carl W.
Author_Institution :
Dept. of Wireless Syst. Eng., Nortel Technol., Richardson, TX, USA
fDate :
1/1/1998 12:00:00 AM
Abstract :
The performance of frequency-hop spread-spectrum (FHSS) communication systems using hybrid automatic-repeat-request (ARQ) can be improved by combining current and prior transmissions at the receiver. Two methods for combining packets in systems that employ interleaving and Reed-Solomon (RS) coding are presented and analyzed for the partial-band interference channel. These methods use majority logic combining at the codeword level to make retransmission decisions. Bounded distance errors-and-erasures decoding and erasure generation by means of Viterbi´s ratio threshold test (RTT) are incorporated in the analysis. Results of the analysis show that, with comparable packet error probabilities, the packet-combining schemes provide significant gains in throughput when compared with systems that do not employ combining
Keywords :
Reed-Solomon codes; Viterbi decoding; automatic repeat request; channel capacity; decision theory; frequency hop communication; interference (signal); interleaved codes; majority logic; packet switching; spread spectrum communication; ARQ; FHSS; RTT; Reed-Solomon coding; Viterbi´s ratio threshold test; bounded distance errors-and-erasures decoding; current transmissions; erasure generation; frequency-hop spread-spectrum communication systems; hybrid automatic-repeat-reques; interleaving; majority logic combining; packet combining; packet error probabilities; partial-band interference channel; prior transmissions; receiver; retransmission decisions; throughput; Automatic repeat request; Decoding; Frequency; Interference channels; Interleaved codes; Logic; Reed-Solomon codes; Spread spectrum communication; Testing; Viterbi algorithm;
Journal_Title :
Communications, IEEE Transactions on
