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

Data transmission through metallic structures is commonly required in industrial control applications. In a number of these applications, mechanically penetrating the structure to pass cables and establish a wired communication link is either impossible or undesirable. Examples of such structures in...

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Veröffentlicht in:	IEEE transactions on industrial electronics (1982) 2014-05, Vol.61 (5), p.2362-2369
Hauptverfasser:	Bielinski, Magdalena, Sosa, Guillermo, Wanuga, Kevin, Primerano, Richard, Kam, Moshe, Dandekar, Kapil R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustic data transmission adaptive modulation orthogonal frequency-division multiplexing (OFDM) peak-to-average power ratio (PAPR) reduction
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container_title	IEEE transactions on industrial electronics (1982)
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creator	Bielinski, Magdalena Sosa, Guillermo Wanuga, Kevin Primerano, Richard Kam, Moshe Dandekar, Kapil R.
description	Data transmission through metallic structures is commonly required in industrial control applications. In a number of these applications, mechanically penetrating the structure to pass cables and establish a wired communication link is either impossible or undesirable. Examples of such structures include metal bulkheads, pressure vessels, or pipelines. Ultrasonic signaling has been proposed as a solution for through-metal data transfer without penetrating the structure. The reverberant nature of the through-metal channel, however, can lead to significant intersymbol interference, limiting the data rate achievable by conventional single-carrier communication techniques. In this paper, we describe a through-metal communication technique that exploits the slow-varying nature of the ultrasonic channel to implement an orthogonal-frequency-division-multiplexing-based rate-adaptive peak-to-average power ratio (PAPR) reduction algorithm. Measurements of the proposed adaptive algorithm have demonstrated transmitted throughput rates of up to 14 Mbps while reducing PAPR by up to 3 dB and maintaining a bit error rate of 10 - 5 at average transmit powers of roughly 6 dBm. This enhancement provides the required throughput and error rate to support high-rate network applications in otherwise data-limited environments.
doi_str_mv	10.1109/TIE.2013.2272283
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Measurements of the proposed adaptive algorithm have demonstrated transmitted throughput rates of up to 14 Mbps while reducing PAPR by up to 3 dB and maintaining a bit error rate of 10 - 5 at average transmit powers of roughly 6 dBm. 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In a number of these applications, mechanically penetrating the structure to pass cables and establish a wired communication link is either impossible or undesirable. Examples of such structures include metal bulkheads, pressure vessels, or pipelines. Ultrasonic signaling has been proposed as a solution for through-metal data transfer without penetrating the structure. The reverberant nature of the through-metal channel, however, can lead to significant intersymbol interference, limiting the data rate achievable by conventional single-carrier communication techniques. In this paper, we describe a through-metal communication technique that exploits the slow-varying nature of the ultrasonic channel to implement an orthogonal-frequency-division-multiplexing-based rate-adaptive peak-to-average power ratio (PAPR) reduction algorithm. Measurements of the proposed adaptive algorithm have demonstrated transmitted throughput rates of up to 14 Mbps while reducing PAPR by up to 3 dB and maintaining a bit error rate of 10 - 5 at average transmit powers of roughly 6 dBm. This enhancement provides the required throughput and error rate to support high-rate network applications in otherwise data-limited environments.</abstract><pub>IEEE</pub><doi>10.1109/TIE.2013.2272283</doi><tpages>8</tpages></addata></record>
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subjects	Acoustic data transmission adaptive modulation orthogonal frequency-division multiplexing (OFDM) peak-to-average power ratio (PAPR) reduction
title	Bit-Loaded PAPR Reduction for High-Data-Rate Through-Metal Control Network Applications
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