Modeling and Testing of a Biomimetic Flagellar Propulsion Method for Microscale Biomedical Swimming Robots Bahareh Behkam and Metin Sitti, Member, IEEE Abstract— Medical applications are among the most impactful areas - Medical robots - Document - PDFSEARCH.IO

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	Modeling and Testing of a Biomimetic Flagellar Propulsion Method for Microscale Biomedical Swimming Robots Bahareh Behkam and Metin Sitti, Member, IEEE Abstract— Medical applications are among the most impactful areas Add to Reading List Document Date: 2012-11-16 19:15:36 Open Document File Size: 462,15 KB Share Result on Facebook City London / New York / / Company Academic Press / DOW CORNING / Keyence Inc. / Micro Electro Mechanical Systems / Biomimetic / Myonic Inc. / Dennis Kunkel Microscopy Inc. / John Wiley & Sons / Honda / / / Facility Carnegie Mellon University / Robotics Institute / Tohoku University / / / IndustryTerm metal / energy efficient propulsion system / silicone oil / manufacturing / energy efficient propulsion systems / oil / treatment of many diseases / steel / / Organization Robotics Institute / Mechanical Engineering Department / FDA / Carnegie Mellon University / Pittsburgh / Tohoku University / / Person Biochemistry / Bahareh Behkam / / / Position designer / Major / forward / head / head / respectively / controller / / ProvinceOrState New York / / PublishedMedium Magnetic Resonance Imaging / / Technology laser / drug delivery / Magnetic Resonance Imaging / MRI / / URL http / SocialTag Aerodynamics Propellers Locomotion Flagellum Organelles Robotics Reynolds number Dimensional analysis Motility Physics

Modeling and Testing of a Biomimetic Flagellar Propulsion Method for Microscale Biomedical Swimming Robots Bahareh Behkam and Metin Sitti, Member, IEEE Abstract— Medical applications are among the most impactful areas Add to Reading List