Full paper Attitude Estimation of a Biologically Inspired Robotic Housefly via Multimodal Sensor Fusion
نویسندگان
چکیده
In this paper, we address sensor fusion for the attitude estimation of micromechanical aerial vehicles (MAVs), in particular a biologically inspired robotic housefly. First, a dynamic observer is proposed that estimates attitude based on kinematic data available from different and redundant bio-inspired sensors such as halteres, ocelli, gravitometers, magnetic compasses and light polarization compasses. In particular, following a geometric approach, the traditional structure of complementary filters, suitable for multiple sensor fusion, is specialized to the Lie group of rigid-body rotations SO(3) and almost-global asymptotic stability is proved. Then, the filter performance is experimentally tested via a 3-d.o.f. robotic flapper and a custommade set of inertial/magnetic sensors. Experimental results show good agreement, upon proper tuning of the filter, between the actual kinematics of the robotic flapper and the kinematics reconstructed from the inertial/magnetic sensors via the proposed filter. © Koninklijke Brill NV, Leiden and The Robotics Society of Japan, 2009
منابع مشابه
Attitude Estimation of a Biologically Inspired Robotic Housefly via Multimodal Sensor Fusion
In this paper, we address sensor fusion for the attitude estimation of Micromechanical Aerial Vehicles (MAVs), in particular a biologically inspired robotic housefly. First, a dynamic observer is proposed which estimates attitude based on kinematic data available from different and redundant bio-inspired sensors such as halteres, ocelli, gravitometers, magnetic compass and light polarization co...
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