Bit-Loaded PAPR Reduction for High-Data-Rate Through-Metal Control Network Applications

by M. Bielinski, G. Sosa, K. Wanuga, R. Primerano, M. Kam and K. R. Dandekar
Reference:
M. Bielinski, G. Sosa, K. Wanuga, R. Primerano, M. Kam, K. R. Dandekar, “Bit-Loaded PAPR Reduction for High-Data-Rate Through-Metal Control Network Applications”, IEEE Transactions on Industrial Electronics, vol. 61, no. 5, pp. 2362-2369, 2014.
Bibtex Entry:
@ARTICLE{6553154, 
author={M. Bielinski and G. Sosa and K. Wanuga and R. Primerano and M. Kam and K. R. Dandekar}, 
journal={IEEE Transactions on Industrial Electronics}, 
title={Bit-Loaded PAPR Reduction for High-Data-Rate Through-Metal Control Network Applications}, 
year={2014}, 
volume={61}, 
number={5}, 
pages={2362-2369}, 
keywords={data communication;intersymbol interference;OFDM modulation;telecommunication links;bit-loaded PAPR reduction;high-data-rate through-metal control network applications;data transmission;metallic structures;industrial control applications;wired communication link;metal bulkheads;pressure vessels;pipelines;ultrasonic signaling;through-metal data transfer;through-metal channel;intersymbol interference;single-carrier communication techniques;through-metal communication technique;ultrasonic channel;orthogonal-frequency-division-multiplexing;rate-adaptive peak-to-average power ratio reduction algorithm;bit error rate;cables;data-limited environments;acoustic data transmission;Acoustic data transmission;adaptive modulation;orthogonal frequency-division multiplexing (OFDM);peak-to-average power ratio (PAPR) reduction}, 
doi={10.1109/TIE.2013.2272283}, 
ISSN={0278-0046}, 
month={May},}