DocumentCode
2361681
Title
3D torques, translational forces and induced voltage determination in an ironless biomedical actuator
Author
Stefanini, I. ; Markovic, M. ; Perriard, Y.
Author_Institution
Ecole Polytech. Fed. de Lausanne
fYear
2005
fDate
11-14 Sept. 2005
Abstract
We present an analysis of an electromechanical implantable glucose sensor for continuous glucose monitoring. An efficient 3D numerical model to accurately compute the torques, forces and the induced voltages for ironless actuators of any geometrical form is developed. The algorithm is based on the generalized Biot-Savart law and the permanent magnet equivalent current density model
Keywords
biomedical equipment; biosensors; electric actuators; patient monitoring; prosthetics; sugar; 3D torques; continuous glucose monitoring; electromechanical implantable glucose sensor; generalized Biot-Savart law; induced voltage determination; ironless biomedical actuator; permanent magnet equivalent current density model; translational forces; Actuators; Biomedical computing; Biomedical monitoring; Biosensors; Electromechanical sensors; Magnetic analysis; Magnetic sensors; Numerical models; Sugar; Voltage; Actuator; Magnetic device; Measurement; Modeling; Power trasmission;
fLanguage
English
Publisher
ieee
Conference_Titel
Power Electronics and Applications, 2005 European Conference on
Conference_Location
Dresden
Print_ISBN
90-75815-09-3
Type
conf
DOI
10.1109/EPE.2005.219576
Filename
1665766
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