Remote Optical (U)
(U) Build and demonstrate airborne and space-based light detection and ranging (LIDAR) systems for chemical detection and
identification. The following specific system requirements have been identified by the users (DIA and CINCS):
Detection and warning of battlefield WMD use
Detection and identification of production, storage, or testing of WMD
Detection and tracking of critical mobile targets (e.g., scuds)
Battle damage assessment
Intelligence preparation of the battlefield
Description User Impact Programmatics Images Related Initiatives Related Requirements Related Categories Road Map Placements Additional Hotlinks Lead Office POC
(U) The program demonstrated lidar detection to ranges of 21.3km from 10,000 ft altitude from atop Mt Haleakala. The next step is to use an existing lidar system to detect WMD at 20km from an airborne platform(ARGUS C-135), then demonstrate an improvement in range with a more powerful lidar. As lidar technology and pointing and tracking progress we will package the system for UAV and satellite missions.
(U) The low-power N-ABLE airborne lidar system is complete. Airborne field tests started in October 1996. The moderate power
LARS system is nearing completion, with airborne field tests schedule to start in January 1997.
(U) Performance Improvement: Currently no capability to do long range detection of weapons of mass destruction (WMD), IFF,
counterproliferation, or finding scuds.
User Impact (U):
Related Initiatives (U): None.
Related Requirements (U):None.
Related Categories (U):
Name Title Imaging Technology Imaging Technology This Table Is Unclassified.
Road Map Placements (U):
Name Title TECHNOLOGY- RDT&E SPACE TECHNOLOGY This Table Is Unclassified.
Requirements, Funding and Additional Hotlinks (U):
Lead Office (U):
(U) Air Force.
Point of Contact (U):
Date Of Information (U):
(U) 21 November 1997
(U) Road Map Production Date: 12 July 1999
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