Title :
A Novel Biomimetic micro-Inclinometer: modeling and preliminary prototypes
Author :
Ascari, Luca ; Cavallaro, Ettore ; Stefanini, Cesare ; Dario, Paolo
Author_Institution :
IMT, Lucca Inst. for Adv. Studies
Abstract :
This work presents the design, modeling and micro-fabrication of a biomimetic digital-output inclinometer. It describes the first attempt, up to our knowledge, to exploit the statolyth-cilia arrangement found in the statocyst organ, common in the animal kingdom, for the development of an artificial sensor. A CAD model and the techniques used for the sensor micro-fabrication, together with considerations on its working principle are presented. A model taking into account gravitational, viscous and electric forces is also presented. The first prototype has an external cubic shape with a 3 mm edge and presents a spatial angular resolution of about pi/5 steradians. This micro-inclinometer is intended to provide micro-robots (e.g. autonomous robots, robotic endoscopes or surgical tools) with spatial orientation information
Keywords :
CAD; angular measurement; biomimetics; microrobots; microsensors; 3 mm; CAD model; animal kingdom; artificial sensor; autonomous robots; biomimetic digital-output inclinometer; biomimetic microinclinometer; electric force; gravitational force; microfabrication; microrobots; robotic endoscope; spatial orientation information; statocyst organ; statolyth-cilia arrangement; surgical tool; viscous force; Animal structures; Biomimetics; Biosensors; Design automation; Endoscopes; Prototypes; Robots; Sensor phenomena and characterization; Shape; Spatial resolution;
Conference_Titel :
Biomedical Robotics and Biomechatronics, 2006. BioRob 2006. The First IEEE/RAS-EMBS International Conference on
Conference_Location :
Pisa
Print_ISBN :
1-4244-0040-6
DOI :
10.1109/BIOROB.2006.1639076
