Year
1992
Abstract
There is an emerging interest in using thermal infrared energy to automatically detect human intruders over wide areas. Such a capability could provide early warning beyond the perimeter at fixed sites, and could be used for portable security around mobile military assets. Sandia National Laboratories has been working on automatic detection systems based on the thermal contrast and motion of human intruders for several years, and has found that detection is sometimes difficult, depending on solar and other environmental conditions. Solar heating can dominate human thermal radiation by 100 fold, and dynamic background temperature changes can limit detector sensitivity. This paper explains those conditions and energy transfer mechanisms that lead to difficult thermal detection. We will not cover those adverse conditions that are more widely understood and previously reported on, such as fog, smoke, rain and falling snow. This work was sponsored by the Defense Nuclear Agency.