Title :
Adaptive error control based on type-I hybrid-ARQ protocols
Author :
Rice, Michael D. ; Wicker, Stephen B.
Author_Institution :
Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
An adaptive error control technique based on the use of type-I hybrid-ARQ protocols is presented. Nonstationary channels are modeled as finite-state Markov chains. The system counts the number of retransmission requests during an observation interval called a frame and, together with knowledge of the code in use and a set of thresholds, estimates the state of the channel. The code which maximizes throughput while maintaining a minimum level of reliability is chosen for use in the next frame. The optimal code for each state is determined a priori by varying both the rate and the number of errors corrected by a family of fixed-length codes. The procedure is demonstrated using Reed-Solomon codes
Keywords :
Markov processes; error correction codes; protocols; telecommunication channels; Reed-Solomon codes; adaptive error control; code; error correction code; finite-state Markov chains; frame; nonstationary channels; observation interval; reliability; retransmission requests; state estimation; throughput; type-I hybrid-ARQ protocols; Adaptive control; Automatic repeat request; Decoding; Error analysis; Error correction; Error correction codes; Programmable control; Protocols; State estimation; Throughput;
Conference_Titel :
Telecommunications Symposium, 1990. ITS '90 Symposium Record., SBT/IEEE International
Conference_Location :
Rio de Janeiro
DOI :
10.1109/ITS.1990.175593
