Title :
Energy-constrained error control for wireless channels
Author :
Zorzi, Michele ; Rao, Ramesh R.
Author_Institution :
Center for Wireless Commun., California Univ., San Diego, La Jolla, CA, USA
fDate :
12/1/1997 12:00:00 AM
Abstract :
When terminals powered by a finite battery source are used for wireless communications, energy constraints are likely to influence the choice of error control protocols. Therefore, we propose the average number of correctly transmitted packets during the lifetime of the battery as a new metric. In particular, we study the go-back-N retransmission protocol operating over a wireless channel using a finite energy source with a flat power profile. We characterize the sensitivity of the total number of correctly transmitted packets to the choice of the output power level. We then generalize our results to arbitrary power profiles through both a recursive technique and Markov analysis. Finally, we compare the performance of go-back-N with an adaptive error control protocol that slows down the transmission rate when the channel is impaired, and document the advantages
Keywords :
Markov processes; automatic repeat request; cells (electric); error correction codes; land mobile radio; mobile radio; packet radio networks; protocols; recursive estimation; telecommunication channels; ARQ protocol; Markov analysis; adaptive error control protocol; average number; battery lifetime; battery source; correctly transmitted packets; energy constraints; energy-constrained error control; error control protocols; finite energy source; flat power profile; go-back-N retransmission protocol; impaired channel; mobile communications; output power level; performance; portable devices; recursive technique; sensitivity; terminals; transmission rate; wireless channels; wireless communications; Automatic repeat request; Batteries; Error correction; Feedback; Jitter; Mobile communication; Power generation; Storage area networks; Wireless application protocol; Wireless communication;
Journal_Title :
Personal Communications, IEEE
