Proceedings ArticleDOI
Radio interferometric geolocation
Miklós Maróti,Peter Volgyesi,Sebestyén Dóra,Branislav Kusý,Andras Nadas,Akos Ledeczi,Gyorgy Balogh,K. Molnar +7 more
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TLDR
A novel radio interference based sensor localization method for wireless sensor networks that does not require any sensors other than the radio used for wireless communication and has an average localization error as small as 3 cm and a range of up to 160 meters.Abstract:
We present a novel radio interference based sensor localization method for wireless sensor networks. The technique relies on a pair of nodes emitting radio waves simultaneously at slightly different frequencies. The carrier frequency of the composite signal is between the two frequencies, but has a very low frequency envelope. Neighboring nodes can measure the energy of the envelope signal as the signal strength. The relative phase offset of this signal measured at two receivers is a function of the distances between the four nodes involved and the carrier frequency. By making multiple measurements in an at least 8-node network, it is possible to reconstruct the relative location of the nodes in 3D. Our prototype implementation on the MICA2 platform yields an average localization error as small as 3 cm and a range of up to 160 meters. In addition to this high precision and long range, the other main advantage of the Radio Interferometric Positioning System (RIPS) is the fact that it does not require any sensors other than the radio used for wireless communication.read more
Citations
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Journal ArticleDOI
Wireless sensor network survey
TL;DR: This survey presents a comprehensive review of the recent literature since the publication of a survey on sensor networks, and gives an overview of several new applications and then reviews the literature on various aspects of WSNs.
Proceedings ArticleDOI
BeepBeep: a high accuracy acoustic ranging system using COTS mobile devices
TL;DR: The design, implementation, and evaluation of BeepBeep is presented, a high-accuracy acoustic-based ranging system that operates in a spontaneous, ad-hoc, and device-to-device context without leveraging any pre-planned infrastructure.
Journal ArticleDOI
Acoustic monitoring in terrestrial environments using microphone arrays: applications, technological considerations and prospectus
Daniel T. Blumstein,Daniel J. Mennill,Patrick Clemins,Lewis Girod,Kung Yao,Gail L. Patricelli,Jill L. Deppe,Alan H. Krakauer,Christopher J. R. Clark,Kathryn A. Cortopassi,Sean F. Hanser,Brenda McCowan,Brenda McCowan,Andreas M. Ali,Alexander N. G. Kirschel,Alexander N. G. Kirschel,Alexander N. G. Kirschel +16 more
TL;DR: Questions that can be addressed using bioacoustic approaches are reviewed, by providing a primer on technologies and approaches used to study animals at multiple organizational levels by ecologists, behaviourists and conservation biologists.
Journal ArticleDOI
Localization Algorithms in Wireless Sensor Networks: Current Approaches and Future Challenges
TL;DR: This paper reviews different approaches of node localization discovery in wireless sensor networks and the overview of the schemes proposed by different scholars for the improvement of localization in wireless Sensor networks is presented.
Book ChapterDOI
A survey on localization for mobile wireless sensor networks
TL;DR: This paper provides taxonomies for mobile wireless sensors and localization, including common architectures, measurement techniques, and localization algorithms, and concludes with a description of real-world mobile sensor applications that require position estimation.
References
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Proceedings Article
Acoustic Ranging in Resource-Constrained Sensor Networks.
TL;DR: This paper presents a noise tolerant acoustic ranging mechanism for wireless sensors that employs digital signal processing techniques on standard MICA hardware, and describes how noise canceling, digital filtering and peak detection can be applied to meet the severe resource constraints of the platform.
The Dimension of the Vector Space Spanned by Sets of Radio-Interferometric Measurements∗
TL;DR: This work is sponsored in part by DARPA through the ‘Networked Embedded Systems Technology’ program under contract #F30602-01-C-0123, monitored by the Air Force Research Laboratory.