DocumentCode :
575960
Title :
An autonomous robotic platform for ground penetrating radar surveys
Author :
Williams, Rebecca M. ; Ray, Laura E. ; Lever, James
Author_Institution :
Thayer Sch. of Eng., Dartmouth Coll., Hanover, NH, USA
fYear :
2012
fDate :
22-27 July 2012
Firstpage :
3174
Lastpage :
3177
Abstract :
Detection of hidden surface crevasses on glaciers is a vital process involved in over-snow traverses for science and resupply missions in Polar regions. There are several areas warranting improvement in the current protocol for crevasse detection, which employs a human-operated ground penetrating radar (GPR) on a mid-weight tracked vehicle. In this fashion, a GPR scout team must plan an appropriate crevasse-free route by investigating paths across the glacier. This paper presents methods supporting a completely autonomous robotic system employing GPR probing of the glacier surface. We tested and evaluated three machine learning algorithms on post-processed Antarctic GPR data, collected by our robot and a Pisten Bully in 2009 and 2010 at McMurdo Station. We achieved 82% classification rate for a linear SVM, compared to 82% using logistic regression and 80% using a Bayes network for contrast. We also discuss independent versus sequential classification of GPR scans, and suggest improvements to or combinations of the most successful training models. Our experiment demonstrates the promise and reliability of real-time object detection with GPR.
Keywords :
geophysics computing; glaciology; ground penetrating radar; learning (artificial intelligence); mobile robots; object detection; pattern classification; support vector machines; Antarctic GPR data; GPR probing; Pisten Bully; autonomous robotic platform; glaciers; ground penetrating radar survey; hidden surface crevasses detection; human-operated ground penetrating radar; independent classification; linear SVM; machine learning algorithm; mid-weight tracked vehicle; polar region; real-time object detection; resupply mission; science; sequential classification; Ground penetrating radar; Hidden Markov models; Ice; Logistics; Robots; Snow; Support vector machines;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Geoscience and Remote Sensing Symposium (IGARSS), 2012 IEEE International
Conference_Location :
Munich
ISSN :
2153-6996
Print_ISBN :
978-1-4673-1160-1
Electronic_ISBN :
2153-6996
Type :
conf
DOI :
10.1109/IGARSS.2012.6350750
Filename :
6350750
Link To Document :
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