Sensor Orientation Effects on UXO Geophysical Target Discrimination

Abstract

Use of electromagnetic (EM) methods to discriminate frag and geology from unexploded ordnance (UXO) has shown steady improvement over time as demonstrated by test site results. Performance of off- the-shelf and customized EM sensors have increased both in terms of UXO probability of detection and false alarm rate. Parallel with the increase in capabilities of UXO detection and discrimination is the Increasing use of digital geophysical techniques on live sites. However, a significant gap exists in capabilities for UXO detection and discrimination between prove-out / test sites and actual UXO contaminated sites. In addition, the future deployment of more sophisticated sensors with discrimination capabilities is limited by the requirement for greater data fidelity for wide application on most sites. One issue of importance for improving data quality is the need for improved spatial representation of the geophysical signature of subsurface UXO. Presently, survey data are inadequately spatially quantified with simple XY sensor locations and an assumed constant Z elevation. To accurately represent the geophysical signature of subsurface UXO, more complete and accurate inion%ation is required, including sensor elevation inion%ation, orientation data (yaw, pitch and roll), and sensor velocity and acceleration data. Therefore, Strategic Envirom%ental Research and Development Progm-m (SERDP) Project UX- 1310 "Sensor Orientation Effects on UXO Geophysical Target Discrimination" was designed to research how the response of geophysical sensors is affected by variations in sensor orientation and motion, to develop an approach to measure these effects in the field, and to develop modeling and analysis techniques to mitigate the effects of sensor orientation and motion.

Document Details

Document Type

Technical Report

Publication Date

Dec 01, 2006

Accession Number

ADA479745

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