Objective

Aerial photograph of Stronghold Table at Badlands Bombing Range, South Dakota. Small grids selected for sampling by conventional methods do not intersect the bombing target. I36Magnetic data from airborne swaths (large blue/green rectangle) detect the bombing target 200 meters north of the rectangle’s center.

The purpose of a statistical geophysical survey is to clearly delimit clean and contaminated areas with an acceptable level of confidence at an acceptable cost. In addition to the survey specifications, the survey approach must quantify the detection confidence, the potential risks, and the cost savings. Protocols must be mathematically supportable as the foundation of an overall engineering process and risk assessment that is acceptable to external regulators and to the general public whose safety depends upon it. This project makes use of the unique advantages of sensor arrays in order to reduce the required sampling area. Rather than dividing a homogeneous sector into a scattering of small grids for detailed investigation, a more uniform distribution of array swaths is utilized to delineate the boundaries of contamination with higher confidence and lower cost. The advantage to this approach is that ordnance density calculations can be based on actual measurements across the entire sector. This removes the statistical assumption of homogeneity between grids within a sector. Although the technology to conduct these surveys exists, the mathematical foundations and statistical protocols for this survey methodology have never been derived.

This project seeks to identify the mathematical foundations and statistical protocols in the domain of point process theory of spatial statistics by focusing on three objectives: (1) develop the statistical spatial models required to produce the mathematical foundation for UXO distribution characterization, (2) develop optimal sampling strategies through experimental survey design, and (3) improve confidence levels for contamination estimates from measured data by improving discrimination techniques.