Robust Time-of-Arrival Location Estimation Algorithms for Wildlife Tracking
Author:
Arnon Eitam1ORCID, Cain Shlomo1ORCID, Uzan Assaf1ORCID, Nathan Ran2ORCID, Spiegel Orr1ORCID, Toledo Sivan3ORCID
Affiliation:
1. School of Zoology, Tel Aviv University, Tel Aviv 69978, Israel 2. The Alexander Silberman Institute of Life Science, The Hebrew University of Jerusalem, Jerusalem 91904, Israel 3. The Blavatnik School of Computer Science, Tel Aviv University, Tel Aviv 69978, Israel
Abstract
Time-of-arrival transmitter localization systems, which use measurements from an array of sensors to estimate the location of a radio or acoustic emitter, are now widely used for tracking wildlife. Outlier measurements can severely corrupt estimated locations. This article describes a new suite of location estimation algorithms for such systems. The new algorithms detect and discard outlier time-of-arrival observations, which can be caused by non-line-of-sight propagation, radio interference, clock glitches, or an overestimation of the signal-to-noise ratio. The new algorithms also detect cases in which two locations are equally consistent with measurements and can usually select the correct one. The new algorithms can also infer approximate altitude information from a digital elevation map to improve location estimates close to one of the sensors. Finally, the new algorithms approximate the covariance matrix of location estimates in a simpler and more reliable way than the baseline algorithm. Extensive testing on real-world data involving mobile transmitters attached to wild animals demonstrates the efficacy of the new algorithms. Performance testing also shows that the new algorithms are fast and that they can easily cope with high-throughput real-time loads.
Funder
Minerva Foundation Minerva Center for Movement Ecology The Koret UC Berkeley Tel Aviv University Initiative in Computational Biology and Bioinformatics
Subject
Electrical and Electronic Engineering,Biochemistry,Instrumentation,Atomic and Molecular Physics, and Optics,Analytical Chemistry
Reference45 articles.
1. Big-data approaches lead to an increased understanding of the ecology of animal movement;Nathan;Science,2022 2. Wang, L., Diakogiannis, F., Mills, S., Bajema, N., Atkinson, I., Bishop-Hurley, G.J., and Charmley, E. (2021). A noise robust automatic radiolocation animal tracking system. Anim. Biotelem., 9. 3. Automatic animal tracking using matched filters and time difference of arrival;MacCurdy;J. Commun.,2009 4. Weller, A., Orchan, Y., Nathan, R., Weiss, M.C.A.J., and Toledo, S. (2016, January 11–14). Characterizing the Accuracy of a Self-Synchronized Reverse-GPS Wildlife Localization System. Proceedings of the 15th ACM/IEEE International Conference on Information Processing in Sensor Networks (IPSN), Vienna, Austria. 5. Positioning of aquatic animals based on time-of-arrival and random walk models using YAPS (Yet Another Positioning Solver);Baktoft;Sci. Rep.,2017
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