Difference between revisions of "Key technologies"
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− | |[[File: | + | |[[File:umm_tech.jpg|300px|sans_cadre|]] || || || <big> '''Tactile transducer design and manufacturing''' </big> using MEMS technology. Picture on the left describes the multi-scale design of tactile transducer as developed by HFU (©UMM). |
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Revision as of 15:28, 10 September 2017
Several key technologies are developed thanks to SPIRITS for interventional radiology and more generally for hybrid image-guided surgery:
3D Printing of multimaterial polymer structures for the design of highly-integrated robotic structures. Picture on the left represents a proof-of-concept developed at ICube-INSA Strasbourg (©ICUBE). |
Tactile transducer design and manufacturing using MEMS technology. Picture on the left describes the multi-scale design of tactile transducer as developed by HFU (©UMM). |