Archivio Istituzionale della RicercaThis work proposes a new detection strategy suitable for MEMS sensors with up to 6 degrees of freedom. Parallel structures based on the Stewart theory are commonly adopted as actuators in many fields such as high precision manipulators, aircraft and vibration simulators and machine tools; the same configuration was used here to define the kinematics of a displacement sensor in the microscale based on the optical detection. The algorithm for the estimation of absolute positions and orientations of the platform is presented. The described sensing approach considerably simplifies the platform architecture and design and introduces a promising solution for many MEMS sensors and devices.
Multi-dofs MEMS displacement sensors based on the Stewart platform theory / Mura, Andrea. - In: MICROSYSTEM TECHNOLOGIES. - ISSN 0946-7076. - STAMPA. - 18:(2012), pp. 575-579. [10.1007/s00542-012-1470-8]
Multi-dofs MEMS displacement sensors based on the Stewart platform theory
MURA, ANDREA
2012
Abstract
This work proposes a new detection strategy suitable for MEMS sensors with up to 6 degrees of freedom. Parallel structures based on the Stewart theory are commonly adopted as actuators in many fields such as high precision manipulators, aircraft and vibration simulators and machine tools; the same configuration was used here to define the kinematics of a displacement sensor in the microscale based on the optical detection. The algorithm for the estimation of absolute positions and orientations of the platform is presented. The described sensing approach considerably simplifies the platform architecture and design and introduces a promising solution for many MEMS sensors and devices.
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https://hdl.handle.net/11583/2506021
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