The third satellite in the Air Force\u27s Miniature Sensor Technology Integration program, MSTI-3, launched May 16, 1996. The primary mission is to characterize atmospheric background clutter by collecting images in the midwave infrared (MWIR) and the shortwave infrared (SWIR). This data will improve current predictive infrared radiance models and the current understanding of atmospheric background clutter as a function of solar geometry, spectral bandpass, season, geographic region, and orthography. This knowledge is critical to evaluating and improving space surveillance systems into the next century. MSTI-3 is operated out of the MSTI Payload Operations Center (MPOC) in Alexandria, Virginia. The operations architecture incorporates missi...
The Compact Midwave Infrared System (CMIS) is a multi-angle, multi-spectral radiometer designed for ...
This paper describes background removal, point source detection, and position and irradiance extract...
The main objective of this paper was to demonstrate the capability of dedicated small satellite infr...
The MSTI-2 satellite mission is the second in a series established to test, in realistic scenarios, ...
The third Miniature Sensor Technology Sensor Technology Integration Satellite (MSTI-3) is scheduled ...
The Miniature Sensor Technology Integration (MSTI) program will launch MSTI-3 the third satellite in...
MSTI-3 is a Ballistic Missile Defense Organization (BMDO) experiment to be launched on a Pegasus boo...
The ability to detect and track targets against the structured earth and earthlimb backgrounds is a ...
The objective of the Miniature Sensor Technology Integration - 3 (MSTI-3) calibration is to generate...
The MSTI-3 satellite is the third in a series established to test, in realistic scenarios, miniature...
This paper discusses the instrumentation being built under BMDO auspices to construct a small, light...
The Ballistic Missile Defense Organization Technology Deputate\u27s Miniature Sensor Technology Inte...
MTI is a comprehensive R&D project, featuring a single satellite in sun-synchronous orbit designed t...
MSTI-3, an advanced technology demonstration satellite, was launched on May 16, 1996, to collect dat...
Ground systems for satellite operations often involve expensive, high maintenance, custom software s...
The Compact Midwave Infrared System (CMIS) is a multi-angle, multi-spectral radiometer designed for ...
This paper describes background removal, point source detection, and position and irradiance extract...
The main objective of this paper was to demonstrate the capability of dedicated small satellite infr...
The MSTI-2 satellite mission is the second in a series established to test, in realistic scenarios, ...
The third Miniature Sensor Technology Sensor Technology Integration Satellite (MSTI-3) is scheduled ...
The Miniature Sensor Technology Integration (MSTI) program will launch MSTI-3 the third satellite in...
MSTI-3 is a Ballistic Missile Defense Organization (BMDO) experiment to be launched on a Pegasus boo...
The ability to detect and track targets against the structured earth and earthlimb backgrounds is a ...
The objective of the Miniature Sensor Technology Integration - 3 (MSTI-3) calibration is to generate...
The MSTI-3 satellite is the third in a series established to test, in realistic scenarios, miniature...
This paper discusses the instrumentation being built under BMDO auspices to construct a small, light...
The Ballistic Missile Defense Organization Technology Deputate\u27s Miniature Sensor Technology Inte...
MTI is a comprehensive R&D project, featuring a single satellite in sun-synchronous orbit designed t...
MSTI-3, an advanced technology demonstration satellite, was launched on May 16, 1996, to collect dat...
Ground systems for satellite operations often involve expensive, high maintenance, custom software s...
The Compact Midwave Infrared System (CMIS) is a multi-angle, multi-spectral radiometer designed for ...
This paper describes background removal, point source detection, and position and irradiance extract...
The main objective of this paper was to demonstrate the capability of dedicated small satellite infr...