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Event-based Star Tracking via Multiresolution Progressive Hough Transforms

Samya Bagchi, Tat-Jun Chin

202032 citationsDOI

Abstract

Star trackers are state-of-the-art attitude estimation devices which function by recognising and tracking star patterns. Most commercial star trackers use conventional optical sensors. A recent alternative is to use event sensors, which could enable more energy efficient and faster star trackers. However, this demands new algorithms that can efficiently cope with high-speed asynchronous data, and are feasible on resource-constrained computing platforms. To this end, we propose an event-based processing approach for star tracking. Our technique operates on the event stream from a star field, by using multi-resolution Hough Transforms to time-progressively integrate event data and produce accurate relative rotations. Optimisation via rotation averaging is then used to fuse the relative rotations and jointly refine the absolute orientations. Our technique is designed to be feasible for asynchronous operation on standard hardware. Moreover, compared to state-of-the-art event-based motion estimation schemes, our technique is much more efficient and accurate.

Topics & Concepts

Computer scienceBitTorrent trackerAsynchronous communicationEvent (particle physics)Star trackerStar (game theory)Rotation (mathematics)Computer visionTracking (education)Fuse (electrical)Artificial intelligenceReal-time computingState (computer science)AlgorithmEye trackingEngineeringMathematicsElectrical engineeringPedagogyComputer networkQuantum mechanicsAerospace engineeringMathematical analysisPhysicsSpacecraftPsychologyInertial Sensor and NavigationAstronomical Observations and InstrumentationRobotics and Sensor-Based Localization
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