Journal article
Transceiver Design for High-Data Rate Through-Metal Communication in Naval Applications
Naval engineers journal, Vol.125(1)
01 Mar 2013
Featured in Collection : UN Sustainable Development Goals @ Drexel
Abstract
The deployment of wireless sensing and control networks is of interest to the U. S. Navy for the maintenance of vital automated ship operation. The challenge of such onboard wireless networks lies in the ship's hull, which obstructs electromagnetic wave propagation and limits connectivity. Mechanical penetration of the bulkhead for the purpose of running cabling compromises the structural integrity of ship compartments. Ultrasonic signaling has been proposed to connect isolated radio networks inside metal compartments to achieve reliable coverage without bulkhead penetration. However, the reverberant nature of the acoustic channel becomes a network throughput bottleneck and limits the performance of narrowband communication techniques. Orthogonal Frequency-Division Multiplexing (OFDM) has been shown to be a promising technique for mitigating the frequency selectivity of ultrasound channels without the need for complex equalizers.
A high-data rate OFDM transceiver was developed to enhance through-hull communication by exploiting the slow-varying nature of the ultrasonic channel. Simulated and measured results of this transceiver have shown the potential to increase throughput while adhering to bit error constraints. This enhancement provides throughput and reliability to support high-rate network applications below decks on navy vessels while maintaining network connectivity.
Metrics
2 Record Views
Details
- Title
- Transceiver Design for High-Data Rate Through-Metal Communication in Naval Applications
- Creators
- Magdalena BielinskiKevin WanugaGuillermo SosaRichard PrimeranoMoshe KamKapil R. Dandekar
- Publication Details
- Naval engineers journal, Vol.125(1)
- Publisher
- Amer Soc Naval Eng Inc
- Number of pages
- 6
- Grant note
- N00014-11-1-0327 / Office of Naval Research CNS-0923003; CNS-0854946 / National Science Foundation; National Science Foundation (NSF)
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Electrical and Computer Engineering
- Identifiers
- 991019170346404721
UN Sustainable Development Goals (SDGs)
This output has contributed to the advancement of the following goals:
InCites Highlights
These are selected metrics from InCites Benchmarking & Analytics tool, related to this output
- Web of Science research areas
- Engineering, Civil
- Engineering, Marine
- Oceanography