Méthode élément fini And NotC. Basdogan
List of bibliographic references
Number of relevant bibliographic references: 33.Ident. | Authors (with country if any) | Title |
---|---|---|
000122 | Q. H. Nguyen [Corée du Sud] ; S. B. Choi [Corée du Sud] ; Y. S. Lee [Corée du Sud] ; M. S. Han [Corée du Sud] | Optimal design of a new 3D haptic gripper for telemanipulation, featuring magnetorheological fluid brakes |
000164 | Krzysztof J. Rechowicz [États-Unis] ; Frederic D. Mckenzie [États-Unis] | Development and validation methodology of the Nuss procedure surgical planner : Medical Simulation |
000171 | Romain Buttin [France] ; Florence Zara [France] ; Behzad Shariat [France] ; Tanneguy Redarce [France] ; Gilles Grange [France] | Biomechanical simulation of the fetal descent without imposed theoretical trajectory |
000352 | ZHAOGUANG WANG [France] ; Georges Dumont [France] | Haptic manipulation of deformable CAD parts with a two-stage method |
000364 | Kiattisak Sangpradit [Thaïlande, Royaume-Uni] ; HONGBIN LIU [Royaume-Uni] ; Prokar Dasgupta [Royaume-Uni] ; Kaspar Althoefer [Royaume-Uni] ; Lakmal D. Seneviratne [Royaume-Uni] | Finite-Element Modeling of Soft Tissue Rolling Indentation |
000367 | Giovanni Berselli [Italie] ; Marco Piccinini [Suisse] ; Gianluca Palli [Italie] ; Gabriele Vassura [Italie] | Engineering Design of Fluid-Filled Soft Covers for Robotic Contact Interfaces: Guidelines, Nonlinear Modeling, and Experimental Validation |
000382 | JINGJING JI [République populaire de Chine] ; Kok-Meng Lee [États-Unis] ; SHUYOU ZHANG [République populaire de Chine] | Cantilever Snap-Fit Performance Analysis for Haptic Evaluation |
000395 | Rudy J. Lapeer [Royaume-Uni] ; Paul D. Gasson [Royaume-Uni] ; Vasudev Karri [Royaume-Uni] | A Hyperelastic Finite-Element Model of Human Skin for Interactive Real-Time Surgical Simulation |
000445 | R. Sharifi Sedeh [États-Unis] ; M. T. Ahmadian [Iran] ; F. Janabi-Sharifi [Canada] | Modeling, Simulation, and Optimal Initiation Planning For Needle Insertion Into the Liver |
000589 | KYUNG WOOK NOH [Corée du Sud] ; YOUNG MIN HAN [Corée du Sud] ; Seung-Bok Choi [Corée du Sud] | Haptic Cue Device for Accelerator Pedal Using Magnetorheological (MR) Fluids |
000792 | Yi-Je Lim [États-Unis] ; Suvranu De [États-Unis] | Real time simulation of nonlinear tissue response in virtual surgery using the point collocation-based method of finite spheres |
000809 | Kyungno Lee [Corée du Sud] ; DOO YONG LEE [Corée du Sud] | MIMO output estimation with reduced multirate sampling for real-time haptic rendering |
000855 | CHUNG HYUK PARK [Corée du Sud] ; Bum-Hee Lee [Corée du Sud] | Elasticity modeling and estimation for haptic contact using a DD-robot |
000859 | MIN LI [Hong Kong] ; Yun-Hui Liu [Hong Kong, République populaire de Chine] | Dynamic modeling and experimental validation for interactive endodontic simulation |
000938 | Ridha Hambli [France] ; Abdessalam Chamekh [Tunisie] ; HEDI BEL HADJ SALAH [Tunisie] | Real-time deformation of structure using finite element and neural networks in virtual reality applications |
000A14 | W. Akl [Égypte] ; A. Baz [États-Unis] | Efficient virtual reality design of quiet underwater shells |
000A20 | B. Liu [Australie] ; W. H. Li [Australie] ; P. B. Kosasih [Australie] ; X. Z. Zhang [Australie] | Development of an MR-brake-based haptic device |
000A43 | Emma Murphy [Royaume-Uni] ; Antti Pirhonen [Finlande] ; Graham Mcallister [Royaume-Uni] ; WAI YU [Royaume-Uni] | A semiotic approach to the design of non-speech sounds |
000A99 | Dan C. Popescu [Australie] ; Bhautik Joshi [Australie] ; Sébastien Ourselin [Australie] | Real-time topology modification for finite element models with haptic feedback |
000B18 | Masanori Nakano [Japon] ; Andrea Mazzone [Suisse] ; Filippo Piffaretti [Suisse] ; Roger Gassert [Suisse] ; Masayuki Nakao [Japon] ; Hannes Bleuler [Suisse] | IPMC actuator array as 3-d haptic display |
000C18 | Christian Duriez [France] ; Claude Andriot [France] ; Abderrahmane Kheddar [Japon] | Signorini's contact model for deformable objects in haptic simulations |
000C34 | J. Berkley [États-Unis] ; G. Turkiyyah ; D. Berg ; M. Ganter ; S. Weghorst | Real-Time Finite Element Modeling for Surgery Simulation: An Application to Virtual Suturing |
000C68 | Vytautas Daniulaitis [Japon] ; M. Osama Alhalabi [Japon] ; Haruhisa Kawasaki [Japon] ; Yuji Tanaka [Japon] ; Takumi Hori [Japon] | Medical palpation of deformable tissue using physics-based model for haptic interface RObot (HIRO) |
000C77 | Dirc Rose [Allemagne] ; Katrin Bidmon [Allemagne] ; Thomas Ertl [Allemagne] | Intuitive and Interactive Modification of Large Finite Element Models |
000C81 | Kenji Inoue [Japon] ; Reiko Uesugi [Japon] ; Ryouhei Sasama [Japon] ; Tatsuo Arai [Japon] ; Yasushi Mae [Japon] | Integrated visual and haptic display using translucent and flexible sheet |
000D18 | Robert L. Blanding [États-Unis] ; George M. Turkiyyah [États-Unis] | Flexible bones for the haptic prototyping of deformable objects |
000E37 | Simon P. Dimaio [Canada] ; S. E. Salcudean [Canada] | Needle insertion modeling and simulation |
000F02 | TIE HU [États-Unis] ; Jaydev P. Desai [États-Unis] | A biomechanical model of the liver for reality-based haptic feedback |
000F99 | DING GUOFU [République populaire de Chine] ; WU XIAO [République populaire de Chine] ; WANG JINNUO [République populaire de Chine] | Force modeling between Virtual hand and Virtual objects based on nonlinear contact finite element method |
001057 | Torgny E. Carlsson [Suède] ; Bengt Nilsson [Suède] ; Jonny Gustafsson [Suède] | System for acquisition of three-dimensional shape and movement using digital Light-in-Flight holography |
001069 | Cagatay Basdogan [États-Unis] ; Chih-Hao Ho [États-Unis] ; Mandayam A. Srinivasan [États-Unis] | Virtual environments for medical training: Graphical and haptic simulation of laparoscopic common bile duct exploration |
001093 | A. K. Noor [États-Unis] ; T. M. Wasfy | Simulation of physical experiments in immersive virtual environments |
001280 | I. Erkmen [Turquie] ; A. M. Erkmen ; A. E. Tekkaya ; T. Pasinlioglu | Haptic perception of shape and hollowness of deformable objects using the Anthrobot-III robot hand |
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