Feedback And NotBrian T. Bethea
List of bibliographic references
Number of relevant bibliographic references: 121.Ident. | Authors (with country if any) | Title |
---|---|---|
000072 | Ali Alaraj [États-Unis] ; Cristian J. Luciano [États-Unis] ; Daniel P. Bailey [États-Unis] ; Abdussalam Elsenousi [États-Unis] ; Ben Z. Roitberg [États-Unis] ; Antonio Bernardo [États-Unis] ; P. Pat Banerjee [États-Unis] ; Fady T. Charbel [États-Unis] | Virtual Reality Cerebral Aneurysm Clipping Simulation With Real-time Haptic Feedback |
000095 | Jacqueline K. Koehn [États-Unis] ; Katherine J. Kuchenbecker [États-Unis] | Surgeons and non-surgeons prefer haptic feedback of instrument vibrations during robotic surgery. |
000213 | Samuel Koo [États-Unis] ; Aram Kim ; Robert Bruce Donoff ; Nadeem Yakub Karimbux | An initial assessment of haptics in preclinical operative dentistry training. |
000241 | A. Chellali [États-Unis, France] ; L. Zhang [États-Unis] ; G. Sankaranarayanan ; V. S. Arikatla ; W. Ahn ; A. Derevianko [États-Unis] ; S. D. Schwaitzberg [États-Unis] ; D. B. Jones [États-Unis] ; M. Demoya [États-Unis] ; C. G. L. Cao [États-Unis] | Validation of the VBLaST Peg Transfer Task: A First Step towards an Alternate Training Standard |
000330 | Kristopher G. Hooten [États-Unis] ; J Richard Lister ; Gwen Lombard ; David E. Lizdas ; Samsun Lampotang ; Didier A. Rajon ; Frank Bova ; Gregory J A. Murad | Mixed reality ventriculostomy simulation: experience in neurosurgical residency. |
000396 | Sara C. Schvartzman [États-Unis] ; Rebeka Silva [États-Unis] ; Ken Salisbury [États-Unis] ; Dyani Gaudilliere [États-Unis] ; Sabine Girod [États-Unis] | Computer-aided trauma simulation system with haptic feedback is easy and fast for oral-maxillofacial surgeons to learn and use. |
000467 | Sonny Chan [États-Unis] ; François Conti ; Kenneth Salisbury ; Nikolas H. Blevins | Virtual reality simulation in neurosurgery: technologies and evolution. |
000501 | Ali Alaraj ; Fady T. Charbel ; Daniel Birk ; Mathew Tobin ; Cristian Luciano ; Pat P. Banerjee ; Silvio Rizzi ; Jeff Sorenson [États-Unis] ; Kevin Foley [États-Unis] ; Konstantin Slavin ; Ben Roitberg | Role of Cranial and Spinal Virtual and Augmented Reality Simulation Using Immersive Touch Modules in Neurosurgical Training |
000516 | Shervin Ehrampoosh [États-Unis] ; Mohit Dave ; Michael A. Kia ; Corneliu Rablau ; Mehrdad H. Zadeh | Providing haptic feedback in robot-assisted minimally invasive surgery: a direct optical force-sensing solution for haptic rendering of deformable bodies. |
000519 | Thomas P. James [États-Unis] ; John J. Pearlman ; Anil Saigal | Predictive force model for haptic feedback in bone sawing. |
000652 | Alice Urbankova [États-Unis] ; Miroslav Eber ; Steven P. Engebretson | A complex haptic exercise to predict preclinical operative dentistry performance: a retrospective study. |
000710 | L. Zhang [États-Unis] ; C. Grosdemouge ; V S Arikatla ; W. Ahn ; G. Sankaranarayanan ; S. De ; D. Jones ; S. Schwaitzberg ; C G L. Cao | The added value of virtual reality technology and force feedback for surgical training simulators. |
000734 | Anton Simorov [États-Unis] ; R Stephen Otte ; Courtni M. Kopietz ; Dmitry Oleynikov | Review of surgical robotics user interface: what is the best way to control robotic surgery? |
000780 | Michael J. Fu [États-Unis] ; M Cenk Cavu O Lu | Human-arm-and-hand-dynamic model with variability analyses for a stylus-based haptic interface. |
000829 | Tomonori Yamamoto [États-Unis] ; Niki Abolhassani ; Sung Jung ; Allison M. Okamura ; Timothy N. Judkins | Augmented reality and haptic interfaces for robot-assisted surgery. |
000835 | Rui Hu [États-Unis] ; Kenneth E. Barner ; Karl V. Steiner | An accelerated haptic feedback algorithm utilizing volume reconstruction. |
000854 | Berk Gonenc [États-Unis] ; Hakan Gurocak [États-Unis] | Virtual needle insertion with haptic feedback using a hybrid actuator with DC servomotor and MR-brake with Hall-effect sensor |
000872 | J. Miltel Hubanks [États-Unis] ; Eric C. Umbreit [États-Unis] ; R. Jeffrey Karnes [États-Unis] ; Robert P. Myers [États-Unis] | Open Radical Retropubic Prostatectomy Using High Anterior Release of the Levator Fascia and Constant Haptic Feedback in Bilateral Neurovascular Bundle Preservation Plus Early Postoperative Phosphodiesterase Type 5 Inhibition: A Contemporary Series |
000A04 | M. Zhou [États-Unis] ; S. Tse [États-Unis] ; A. Derevianko [États-Unis] ; D. B. Jones [États-Unis] ; S. D. Schwaitzberg [États-Unis] ; C. G. L. Cao [États-Unis] | Effect of Haptic Feedback in Laparoscopic Surgery Skill Acquisition |
000B54 | SHENG LIU [États-Unis] ; Brian C. Zellers [États-Unis] ; Dean Anderson [États-Unis] | Opportunities for Micro-Steerable Catheters and Tactile Feedback Technology with High Performance Electrostrictive EAPs |
000B57 | Todd Margolis [États-Unis] ; Thomas A. Defanti [États-Unis] ; Greg Dawe [États-Unis] ; Andrew Prudhomme [États-Unis] ; Jurgen P. Schulze [États-Unis] ; Steve Cutchin [Arabie saoudite] | Low cost heads-up virtual reality (HUVR) with optical tracking and haptic feedback |
000B60 | Cristian J. Luciano [États-Unis] ; P. Pat Banerjee [États-Unis] ; Brad Bellotte [États-Unis] ; G. Michael [États-Unis] ; Michael Jr Lemole [États-Unis] ; Fady T. Charbel [États-Unis] ; Ben Roitberg [États-Unis] | Learning Retention of Thoracic Pedicle Screw Placement Using a High-Resolution Augmented Reality Simulator With Haptic Feedback |
000B85 | HUI ZHANG [États-Unis] ; JIANGUANG WENG [République populaire de Chine] ; Andrew J. Hanson [États-Unis] | A Pseudo-haptic Knot Diagram Interface |
000B87 | Matthew J. Jensen [États-Unis] ; A. Madison Tolbert [États-Unis] ; John R. Wagner [États-Unis] ; Fred S. Iii Switzer [États-Unis] ; Joshua W. Finn [États-Unis] | A Customizable Automotive Steering System With a Haptic Feedback Control Strategy for Obstacle Avoidance Notification |
000C06 | Mohamad W. Salkini [États-Unis] ; Charles R. Doarn ; Nicholai Kiehl ; Timothy J. Broderick ; James F. Donovan ; Krishnanath Gaitonde | The role of haptic feedback in laparoscopic training using the LapMentor II. |
000C34 | Cara E. Stepp [États-Unis] ; Yoky Matsuoka | Relative to direct haptic feedback, remote vibrotactile feedback improves but slows object manipulation. |
000C85 | Yi Chen [États-Unis] ; Shigehiko Tanaka ; Ian W. Hunter | Disposable endoscope tip actuation design and robotic platform. |
000D08 | Laura Marchal-Crespo [États-Unis] ; Jan Furumasu [États-Unis] ; David J. Reinkensmeyer [États-Unis] | A robotic wheelchair trainer: design overview and a feasibility study |
000E15 | Mohamad W. Salkini [États-Unis] ; Charles R. Doarn [États-Unis] ; Nicholai Kiehl [États-Unis] ; Timothy J. Broderick [États-Unis] ; James F. Donovan [États-Unis] ; Krishnanath Gaitonde [États-Unis] | The Role of Haptic Feedback in Laparoscopic Training Using the LapMentor II |
000E39 | I. Dobrev [États-Unis] ; J. M. Flores Moreno [États-Unis] ; C. Furlong [États-Unis] ; E. J. Harrington [États-Unis] ; J. J. Rosowski [États-Unis] ; C. Scarpino [États-Unis] | Design of a positioning system for a holographic otoscope |
000E62 | Lucian Panait [États-Unis] ; Ehab Akkary ; Robert L. Bell ; Kurt E. Roberts ; Stanley J. Dudrick ; Andrew J. Duffy | The role of haptic feedback in laparoscopic simulation training. |
000F49 | Shun Liang [États-Unis] ; P Pat Banerjee ; Deepak P. Edward | A high performance graphic and haptic curvilinear capsulorrhexis simulation system. |
000F76 | Anderson Maciel [Brésil] ; Tansel Halic [États-Unis] ; Zhonghua Lu [États-Unis] ; Luciana P. Nedel [Brésil] ; Suvranu De [États-Unis] | Using the PhysX engine for physics‐based virtual surgery with force feedback |
001046 | Lucian Panait [États-Unis] ; Ehab Akkary [États-Unis] ; Robert L. Bell [États-Unis] ; Kurt E. Roberts [États-Unis] ; Stanley J. Dudrick [États-Unis] ; Andrew J. Duffy [États-Unis] | The Role of Haptic Feedback in Laparoscopic Simulation Training |
001068 | Adam Weissman [États-Unis] ; Athena Frazier [États-Unis] ; Michael Pepen [États-Unis] ; Yen-Wen Lu [États-Unis] ; Shanchieh Jay Yang [États-Unis] | Cyber Integrated MEMS Microhand for Biological Applications |
001072 | T. Michael Seigler [États-Unis] ; Nishant Venkatesan [États-Unis] ; Daniel Inman [États-Unis] | An Approach to Force-Feedback Control with Traveling Wave Ultrasonic Motor |
001081 | Thomas S. Lendvay [États-Unis] ; Feng-Ju Hsieh ; Blake Hannaford ; Jacob Rosen | The biomechanics of percutaneous needle insertion. |
001096 | Chih-Hung King [États-Unis] ; Martin O. Culjat ; Miguel L. Franco ; James W. Bisley ; Erik Dutson ; Warren S. Grundfest | Optimization of a pneumatic balloon tactile display for robot-assisted surgery based on human perception. |
001197 | Anderson Maciel [Brésil] ; Youquan Liu [États-Unis] ; Woojin Ahn [Corée du Sud] ; T. Paul Singh [États-Unis] ; Ward Dunnican [États-Unis] ; Suvranu De [États-Unis] | Development of the VBLaST™: a virtual basic laparoscopic skill trainer |
001221 | Farzad Ahmadkhanlou [États-Unis] ; Gregory N. Washington [États-Unis] ; Stephen E. Bechtel [États-Unis] | The Development of a Five DOF Magnetorheological Fluid-Based Telerobotic Haptic System |
001238 | Carol E. Reiley [États-Unis] ; Takintope Akinbiyi [États-Unis] ; Darius Burschka [Allemagne] ; David C. Chang [États-Unis] ; Allison M. Okamura [États-Unis] ; David D. Yuh [États-Unis] | Effects of visual force feedback on robot-assisted surgical task performance |
001252 | G Michael Lemole [États-Unis] ; P Pat Banerjee ; Cristian Luciano ; Sergey Neckrysh ; Fady T. Charbel | Virtual reality in neurosurgical education: part-task ventriculostomy simulation with dynamic visual and haptic feedback. |
001293 | Caroline G L. Cao [États-Unis] ; Mi Zhou ; Daniel B. Jones ; Steven D. Schwaitzberg | Can surgeons think and operate with haptics at the same time? |
001388 | G. Michael Jr Lemole [États-Unis] ; P. Pat Banerjee [États-Unis] ; Cristian Luciano [États-Unis] ; Sergey Neckrysh [États-Unis] ; Fady T. Charbel [États-Unis] ; Francisco Ponce ; Robert F. Spetzler ; Edward C. Benzel ; Michael D. Cusimano ; Richard G. Ellenbogen | Virtual reality in neurosurgical education : Part-task ventriculostomy simulation with dynamic visual and haptic feedback. Commentary |
001393 | 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 |
001415 | Mark Mon-Williams [Royaume-Uni] ; Geoffrey P. Bingham [États-Unis] | Calibrating reach distance to visual targets |
001417 | P. Pat Banerjee [États-Unis] ; Cristian J. Luciano [États-Unis] ; G. Michael Jr Lemole [États-Unis] ; Fady T. Charbel [États-Unis] ; Michael Y. Oh [États-Unis] | Accuracy of ventriculostomy catheter placement using a head-and hand-tracked high-resolution virtual reality simulator with haptic feedback |
001442 | Brandon S. Spencer [États-Unis] | Incorporating the sense of smell into patient and haptic surgical simulators. |
001449 | John Hu [États-Unis] ; Chu-Yin Chang ; Neil Tardella ; Janey Pratt ; James English | Effectiveness of haptic feedback in open surgery simulation and training systems. |
001544 | Jack T. Dennerlein [États-Unis] ; Maria-Helena J. Dimarino [États-Unis] | Forearm electromyographic changes with the use of a haptic force-feedback computer mouse |
001565 | Praveen Thiagarajan [États-Unis] ; Pei Chen ; Karl Steiner ; Guang Gao ; Kenneth Barner | Segmenting deformable surface models using haptic feedback. |
001585 | B. Weinberg [États-Unis] ; J. Nikitczuk [États-Unis] ; A. Fisch [États-Unis] ; C. Mavroidis [États-Unis] | Development of electro-rheological fluidic resistive actuators for haptic vehicular instrumentcontrols |
001620 | D. Ye [États-Unis] ; H. Mozaffari Aeini [États-Unis] ; C. Busart [États-Unis] ; N V Thakor [États-Unis] | MEMSurgery: an integrated test‐bed for vascular surgery |
001645 | Farzad Ahmadkhanlou [États-Unis] ; Gregory N. Washington [États-Unis] ; YINGRU WANG [États-Unis] ; Stephen E. Bechtel [États-Unis] | The development of variably compliant haptic systems using magnetorheological fluids |
001647 | John N. Howell [États-Unis] ; Robert L. Ii Williams [États-Unis] ; Robert R. Conatser [États-Unis] ; Janet M. Burns [États-Unis] ; David C. Eland [États-Unis] | The Virtual Haptic Back (VHB) : A virtual reality simulation of the human back for palpatory diagnostic training |
001662 | Gregory Tholey [États-Unis] ; Jaydev P. Desai [États-Unis] ; Andres E. Castellanos [États-Unis] | Force feedback plays a significant role in minimally invasive surgery: Results and analysis |
001665 | Masaya Kitagawa [États-Unis] ; Daniell Dokko [États-Unis] ; Allison M. Okamura [États-Unis] ; David D. Yuh [États-Unis] | Effect of sensory substitution on suture-manipulation forces for robotic surgical systems |
001675 | Hyun K. Kim [États-Unis] ; David W. Rattner ; Mandayam A. Srinivasan | Virtual-reality-based laparoscopic surgical training: the role of simulation fidelity in haptic feedback. |
001677 | Oleg Gerovich [États-Unis] ; Panadda Marayong ; Allison M. Okamura | The effect of visual and haptic feedback on computer-assisted needle insertion. |
001698 | D W Repperger [États-Unis] | Adaptive displays and controllers using alternative feedback. |
001801 | K. Salisbury [États-Unis] ; F. Conti ; F. Barbagli | Haptic rendering: Introductory concepts |
001826 | Roberta L. Klatzky [États-Unis] ; Susan J. Lederman ; Sara Langseth | Watching a cursor distorts haptically guided reproduction of mouse movement. |
001836 | D W Repperger [États-Unis] ; R H Gilkey ; R. Green ; T. Lafleur ; M W Haas | Effects of haptic feedback and turbulence on landing performance using an immersive cave automatic virtual environment (CAVE). |
001868 | Gregory Tholey [États-Unis] ; P. Desai [États-Unis] ; E. Castellanos [États-Unis] | Evaluating the Role of Vision and Force Feedback in Minimally Invasive Surgery: New Automated Laparoscopic Grasper and A Case Study |
001874 | Jung Kim [États-Unis] ; K. Tay [États-Unis] ; N. Stylopoulos [États-Unis] ; W. Rattner [États-Unis] ; A. Srinivasan [États-Unis] | Characterization of Intra-abdominal Tissues from in vivo Animal Experiments for Surgical Simulation |
001895 | H. S. Vitense [États-Unis] ; J. A. Jacko [États-Unis] ; V. K. Emery [États-Unis] | Multimodal feedback: an assessment of performance and mental workload |
001899 | Jeffrey D. Brown [États-Unis] ; Jacob Rosen [États-Unis] ; Mika N. Sinanan [États-Unis] ; Blake Hannaford [États-Unis] | In vivo and postmortem compressive properties of porcine abdominal organs |
001905 | Julie A. Jacko [États-Unis] ; Ingrid U. Scott [États-Unis] ; Francois Sainfort [États-Unis] ; Kevin P. Moloney [États-Unis] ; Thitima Kongnakorn [États-Unis] ; Brynley S. Zorich [États-Unis] ; V. Kathlene Emery [États-Unis] | Effects of multimodal feedback on the performance of older adults with normal and impaired vision |
001912 | Srinivas K. Prasad [États-Unis, France] ; Masaya Kitagawa [États-Unis] ; Gregory S. Fischer [États-Unis] ; Jason Zand [États-Unis] ; Mark A. Talamini [États-Unis] ; Russell H. Taylor [États-Unis] ; Allison M. Okamura [États-Unis] | A modular 2-DOF force-sensing instrument for laparoscopic surgery |
001913 | TIE HU [États-Unis] ; Jaydev P. Desai [États-Unis] | A biomechanical model of the liver for reality-based haptic feedback |
001915 | Carla M. Pugh [États-Unis] ; Sakti Srivastava ; Wm Leroy Heinrichs | Visual representations of physical abilities: reverse haptic technology? |
001917 | R. Boian [États-Unis] ; A. Sharma ; C. Han ; A. Merians ; G. Burdea ; S. Adamovich ; M. Recce ; M. Tremaine ; H. Poizner | Virtual reality-based post-stroke hand rehabilitation. |
001918 | J Brian Fisher [États-Unis] ; Susan M. Porter | Using mixed reality, force feedback and tactile augmentation to improve the realism of medical simulation. |
001919 | D. Stredney [États-Unis] ; Gregory J. Wiet ; J. Bryan ; D. Sessanna ; Jim Murakami ; P. Schmalbrock ; Kimerly Powell ; B. Welling | Temporal bone dissection simulation--an update. |
001920 | S. De [États-Unis] ; M. Manivannan ; J. Kim ; M A Srinivasan ; D. Rattner | Multimodal simulation of laparoscopic Heller myotomy using a meshless technique. |
001921 | B K Tay [États-Unis] ; N. Stylopoulos ; S. De ; D W Rattner ; M A Srinivasan | Measurement of in-vivo force response of intra-abdominal soft tissues for surgical simulation. |
001923 | Eric Acosta [États-Unis] ; Bharti Temkin ; John A. Griswold ; Sammy A. Deeb ; Tom Krummel ; Randy S. Haluck ; Louis R. Kavoussi | Heuristic haptic texture for surgical simulations. |
001924 | Kevin Montgomery [États-Unis] ; Cynthia D. Bruyns | Generalized interactions using virtual tools within the spring framework: probing, piercing, cauterizing and ablating. |
001925 | Roger Webster [États-Unis] ; Randy Haluck ; Rob Ravenscroft ; Betty Mohler ; Eric Crouthamel ; Tyson Frack ; Steve Terlecki ; Jeremy Sheaffer | Elastically deformable 3D organs for haptic surgical simulation. |
001926 | Jeffrey D. Brown [États-Unis] ; Jacob Rosen ; Manuel Moreyra ; Mika Sinanan ; Blake Hannaford | Computer-controlled motorized endoscopic grasper for in vivo measurement of soft tissue biomechanical characteristics. |
001928 | Ganesh Sankaranarayanan [États-Unis] ; Venkat Devarajan ; Robert Eberhart ; Daniel B. Jones | Adaptive hybrid interpolation techniques for direct Haptic rendering of isosurfaces. |
001930 | T. Kesavadas [États-Unis] ; Dhananjay Joshi ; James Mayrose ; Kevin Chugh | A virtual environment for esophageal intubation training. |
001976 | Dru Clark [États-Unis] ; Mike Baileys [États-Unis] | Virtual-virtual haptic feedback and why it wasn't enough |
001987 | Marcia O'Malley [États-Unis] ; Michael Goldfarb [États-Unis] | The effect of force saturation on the haptic perception of detail |
001990 | Imad Elhajj [États-Unis] ; JINDONG TAN [États-Unis] ; YU SUN [États-Unis] ; NING XI [États-Unis] | Supermedia enhanced human/machine cooperative control of robot formations |
001A04 | G. Zeltser [États-Unis] ; T. Forrester [États-Unis] ; P. I. Shnitser [États-Unis] ; A. Goldsmith [États-Unis] ; A. A. Kostrzewski [États-Unis] ; S. Kupiec [États-Unis] ; J. L. Jannson [États-Unis] ; T. P. Jannson [États-Unis] | Haptic-feedback-based robotic teleparamedics |
001A08 | Jaydeep Roy [États-Unis] ; Daniel L. Rothbaum [États-Unis] ; Louis L. Whitcomb [États-Unis] | Haptic feedback augmentation through position based adaptive force scaling: Theory and experiment |
001A09 | Sangyoon Lee [Corée du Sud] ; Gaurav S. Sukhatme [États-Unis] ; Gerard Jounghyun Kim [Corée du Sud] ; Chan-Mo Park [Corée du Sud] | Haptic control of a mobile robot: A user study |
001A30 | Mark Foskey [États-Unis] ; Miguel A. Otaduy [États-Unis] ; Ming C. Lin [États-Unis] | ArtNova: Touch-enabled 3D model design |
001A44 | J. Rosen [États-Unis] ; M. Solazzo ; B. Hannaford ; M. Sinanan | Objective laparoscopic skills assessments of surgical residents using Hidden Markov Models based on haptic information and tool/tissue interactions. |
001A49 | D. Berg [États-Unis] ; J. Berkley ; S. Weghorst ; G. Raugi ; G. Turkiyyah ; M. Ganter ; F. Quintanilla ; P. Oppenheimer | Issues in validation of a dermatologic surgery simulator. |
001A50 | J T Dennerlein [États-Unis] ; M C Yang | Haptic force-feedback devices for the office computer: performance and musculoskeletal loading issues. |
001A51 | L L Holton [États-Unis] | Force models for needle insertion created from measured needle puncture data. |
001A53 | T. Dang [États-Unis] ; T M Annaswamy ; M A Srinivasan | Development and evaluation of an epidural injection simulator with force feedback for medical training. |
001A54 | V. Devarajan [États-Unis] ; D. Scott ; D. Jones ; R. Rege ; R. Eberhart ; C. Lindahl ; P. Tanguy ; R. Fernandez | Bimanual haptic workstation for laparoscopic surgery simulation. |
001A89 | Geb Thomas [États-Unis] ; Lynn Johnson [États-Unis] ; Steven Dow [États-Unis] ; Clark Stanford [États-Unis] | The design and testing of a force feedback dental simulator |
001C02 | Frank E. Pollick [Royaume-Uni] ; Chris Chizk [États-Unis] ; Charlotte Hager-Ross [États-Unis] ; Mary Hayhoe [États-Unis] | Implicit accuracy constraints in two-fingered grasps of virtual objects with haptic feedback |
001C12 | C. Shahabi [États-Unis] ; M. R. Kolahdouzan ; G. Barish ; R. Zimmermann ; D. Yao ; K. Fu ; L. Zhang | Alternative techniques for the efficient acquisition of haptic data |
001C16 | F. Dachille [États-Unis] ; H. Qin [États-Unis] ; A. Kaufman [États-Unis] | A novel haptics-based interface and sculpting system for physics-based geometric design |
001C25 | M P Ottensmeyer [États-Unis] ; E. Ben-Ur ; J K Salisbury | Input and output for surgical simulation: devices to measure tissue properties in vivo and a haptic interface for laparoscopy simulators. |
001C34 | V G Popescu [États-Unis] ; G C Burdea ; M. Bouzit ; V R Hentz | A virtual-reality-based telerehabilitation system with force feedback. |
001D59 | E. A. Wickelgren [États-Unis] ; D. S. Mcconnell [États-Unis] ; G. P. Bingham [États-Unis] | Reaching measures of monocular distance perception : Forward versus side-to-side head movements and haptic feedback |
001D82 | O S Bholat [États-Unis] ; R S Haluck ; R H Kutz ; P J Gorman ; T M Krummel | Defining the role of haptic feedback in minimally invasive surgery. |
001E86 | R. J. Adams [États-Unis] ; B. Hannaford | Stable haptic interaction with virtual environments |
001E87 | E. Chen [États-Unis] | Six Degree-of-Freedom Haptic System for desktop virtual prototyping applications |
001E95 | G. C. Burdea [États-Unis] | Haptic feedback for virtual reality |
001E98 | J. Rosen [États-Unis] ; B. Hannaford [États-Unis] ; M. P. Macfarlane [États-Unis] ; M. N. Sinanan [États-Unis] | Force controlled and teleoperated endoscopic grasper for minimally invasive surgery : Experimental performance evaluation |
001E99 | C. Pfeiffer [États-Unis] ; C. Mavroidis [États-Unis] ; Y. Bar-Cohen [États-Unis] ; B. Dolgin [États-Unis] | Electrorheological fluid based force feedback device |
001F04 | T. Maneewarn [États-Unis] ; B. Hannaford [États-Unis] | Augmented haptics of manipulator kinematic condition |
001F09 | M. Bro-Nielsen [États-Unis] ; D. Helfrick ; B. Glass ; X. Zeng ; H. Connacher | VR simulation of abdominal trauma surgery. |
001F17 | C. Basdogan [États-Unis] ; C H Ho ; M A Srinivasan ; S D Small ; S L Dawson | Force interactions in laparoscopic simulations: haptic rendering of soft tissues. |
001F18 | L. Hiemenz [États-Unis] ; D. Stredney ; P. Schmalbrock | Development of the force-feedback model for an epidural needle insertion simulator. |
001F19 | B. Hannaford [États-Unis] ; J. Trujillo ; M. Sinanan ; M. Moreyra ; J. Rosen ; J. Brown ; R. Leuschke ; M. Macfarlane | Computerized endoscopic surgical grasper. |
002001 | David T. Rudman [États-Unis] ; Don Stredney [États-Unis] ; Dennis Sessanna [États-Unis] ; Roni Yagel [États-Unis] ; Roger Crawfis [États-Unis] ; David Heskamp [États-Unis] ; Charles V. Edmond [États-Unis] ; Gregory J. Wiet [États-Unis] | Functional endoscopic sinus surgery training simulator |
002076 | Pietro Buttolo [États-Unis] ; Roberto Oboe [Italie] ; Blake Hannaford [États-Unis] | Architectures for shared haptic virtual environments |
002110 | A. V. Ephanov [États-Unis] ; Y. Hurmuzlu [États-Unis] | Implementation of sensory feedback and trajectory tracking in active telemanipulation systems |
002119 | D. P. Haanpaa [États-Unis] ; G. P. Roston | Advanced haptic system for improving man-machine interfaces |
002182 | L. B. Rosenberg [États-Unis] ; S. Brave [États-Unis] | The use of force feedback to enhance graphical user interfaces |
002190 | Janet M. Weisenberger [États-Unis] | Tactile perception with haptic displays |
002673 | Jacob C. Jurmain [États-Unis] ; Andrew J. Blancero ; James A. Geiling ; Andrew Bennett ; Chris Jones ; Jeff Berkley ; Marc Vollenweider ; Margaret Minsky ; Jon C. Bowersox ; Joseph M. Rosen | HazBot: Development of a telemanipulator robot with haptics for emergency response. |
002678 | Ming Lin [États-Unis] ; Kenneth Salisbury | Haptic rendering--beyond visual computing. |
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