Title :
Boost-phase acceleration estimation
Author :
Crosson, Eric L. ; Romine, J. Brent ; Willner, Dieter ; Kusiak, Steven J.
Author_Institution :
Lincoln Lab., MIT, Lexington, MA, USA
Abstract :
Characterizing the boost phase of a rocket´s flight is challenging when only metric radar data (range and angles) are used. Incorporating range-acceleration measurements results in superior tracking performance and much improved characterization of boost-phase flight. This paper demonstrates how to estimate range acceleration reliably from the amplitude and phase of the target-reflected radar signal. Phase-derived range-acceleration estimates can be used to tune a tracking filter and can be incorporated into the filter for improved trajectory reconstruction. Range-acceleration measurements can also be used in a multitarget environment to identify boosting targets. These techniques have been used successfully on actual rocket-launch data to improve postmission tracking and object identification performance
Keywords :
acceleration measurement; amplitude estimation; circuit tuning; distance measurement; phase estimation; radar target recognition; radar theory; radar tracking; rockets; state estimation; target tracking; tracking filters; amplitude estimation; boost-phase flight; boosting targets; multitarget identification; object identification; phase estimation; postmission tracking; range-acceleration estimates; range-acceleration measurements; rocket flight; state estimation; target-reflected radar signal; tracking filter tuning; tracking performance; trajectory reconstruction; Acceleration; Accelerometers; Boosting; Filters; Phase estimation; Radar measurements; Radar tracking; State estimation; Target tracking; Trajectory;
Conference_Titel :
Radar Conference, 2000. The Record of the IEEE 2000 International
Conference_Location :
Alexandria, VA
Print_ISBN :
0-7803-5776-0
DOI :
10.1109/RADAR.2000.851832
