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5 August 2003 Cryogenic sensor for space operations
Vitaliy Alexeevich Yatsenko, Jose Carlos Principe
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Proceedings Volume 5088, Space Systems Technology and Operations; (2003) https://doi.org/10.1117/12.485653
Event: AeroSense 2003, 2003, Orlando, Florida, United States
Abstract
This article discusses the principle and performance of a controlled sensitive element. A concept of the cryogenicoptical sensor based on competitive the adaptive sensitive element applicable to a gravity meter sensor is considered. The sensor element is based on a magnetic levitation phenomenon, high-precision optical registration of levitating body mechanical coordinates, and robust signal processing tools. A controlled self-bearing probe dynamics is also analyzed. An dynamical approach to highly sensitive measurement of weak signal is presented. The robust signal estimation problem is considered, when signal are estimated via application of neural networks and when nonlinear measurements are used. The construction of the sensor is described. Simulation results support the mathematical, and the system characteristics are thus optimized.
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Vitaliy Alexeevich Yatsenko and Jose Carlos Principe "Cryogenic sensor for space operations", Proc. SPIE 5088, Space Systems Technology and Operations, (5 August 2003); https://doi.org/10.1117/12.485653
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KEYWORDS
Sensors
Magnetism
Superconductors
Signal processing
Neural networks
Signal detection
Chemical elements
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