Virtual reality And NotYURU ZHANG
List of bibliographic references
Number of relevant bibliographic references: 120.Ident. | Authors (with country if any) | Title |
---|---|---|
000443 | Franziska Roesner [États-Unis] ; Tadayoshi Kohno [États-Unis] ; David Molnar [États-Unis] | Security and Privacy for Augmented Reality Systems |
000672 | Miguel A. Otaduy [Espagne] ; Carlos Garre [Italie] ; Ming C. Lin [États-Unis] | Representations and Algorithms for Force-Feedback Display |
000683 | YING JIN [République populaire de Chine, Canada] ; JUNFU [États-Unis] ; YUANWEI JING [République populaire de Chine] | Fault-tolerant control of a class of switched systems with strong structural uncertainties with application to haptic display systems |
000684 | Maria Kozhevnikov [Singapour, États-Unis] ; David W. Schloerb [États-Unis] ; Olesya Blazhenkova [États-Unis] ; Samuel Koo [États-Unis] ; Nadeem Karimbux [États-Unis] ; R. Bruce Donoff [États-Unis] ; Jairo Salcedo [États-Unis] | Egocentric versus Allocentric Spatial Ability in Dentistry and Haptic Virtual Reality Training |
000B41 | Ganesh Sankaranarayanan [États-Unis] ; James D. Adair [États-Unis] ; Tansel Halic [États-Unis] ; Mark A. Gromski [États-Unis] ; ZHONGHUA LU [États-Unis] ; Woojin Ahn [États-Unis] ; Daniel B. Jones [États-Unis] ; Suvranu De [États-Unis] | Validation of a novel laparoscopic adjustable gastric band simulator |
000B46 | N. Pernalete [États-Unis] ; F. Tang [États-Unis] ; S. M. Chang [États-Unis] ; F. Y. Cheng [États-Unis] ; P. Vetter [États-Unis] ; M. Stegemann [États-Unis] ; J. Grantner [États-Unis] | Support Algorithms for Eye-Hand Coordination Robotic Therapy |
000B56 | R. Aaron Robison [États-Unis] ; Charles Y. Liu [États-Unis] ; Michael L. J. Apuzzo [États-Unis] | Man, Mind, and Machine: The Past and Future of Virtual Reality Simulation in Neurologic Surgery |
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 |
000B59 | Jonathan R. Thompson [États-Unis] ; Anthony C. Leonard [États-Unis] ; Charles R. Doarn [États-Unis] ; Matt J. Roesch [États-Unis] ; Timothy J. Broderick [États-Unis] | Limited value of haptics in virtual reality laparoscopic cholecystectomy training |
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 |
000B70 | Greg R. Luecke [États-Unis] | Haptic Interactions Using Virtual Manipulator Coupling With Applications to Underactuated Systems |
000B75 | Abhishek Gupta [Inde] ; Marcia K. O'Malley [États-Unis] | Disturbance-Observer-Based Force Estimation for Haptic Feedback |
000B86 | Paul G. Griffiths [États-Unis] ; R. Brent Gillespie [États-Unis] ; Jim S. Freudenberg [États-Unis] | A Fundamental Linear Systems Conflict Between Performance and Passivity in Haptic Rendering |
000E02 | M. Susan Hallbeck [États-Unis] ; Tim Bosch [Pays-Bas] ; Gu J. W. Van Rhijn [Pays-Bas] ; Frank Krause [Pays-Bas] ; Michiel P. De Looze [Pays-Bas] ; Peter Vink [Pays-Bas] | A tool for early workstation design for small and medium enterprises evaluated in five cases |
000E18 | Amandine Afonso [France] ; Alan Blum [France] ; Brian F. G. Katz [France] ; Philippe Tarroux [France] ; Grégoire Borst [États-Unis] ; Michel Denis [France] | Structural properties of spatial representations in blind people: Scanning images constructed from haptic exploration or from locomotion in a 3-D audio virtual environment |
000E20 | Hani R. Malone [États-Unis] ; Omar N. Syed [États-Unis] ; Michael S. Downes [États-Unis] ; Anthony L. D'Ambrosio [États-Unis] ; Donald O. Quest [États-Unis] ; Michael G. Kaiser | Simulation in Neurosurgery: A Review of Computer-Based Simulation Environments and Their Surgical Applications |
000E22 | Doruk Senkal [États-Unis] ; Hakan Gurocak [États-Unis] | Serpentine flux path for high torque MRF brakes in haptics applications |
000E30 | SHIYONG LIN [États-Unis] ; Roger J. Narayan [États-Unis] ; Yuan-Shin Lee [États-Unis] | Hybrid client-server architecture and control techniques for collaborative product development using haptic interfaces |
000E35 | Bradley R. Sturz [États-Unis] ; Kent D. Bodily [États-Unis] | Encoding of variability of landmark-based spatial information |
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 |
001049 | Doruk Senkal [États-Unis] ; Hakan Gurocak [États-Unis] | Spherical Brake with MR Fluid as Multi Degree of Freedom Actuator for Haptics |
001060 | Marcia K. O'Malley [États-Unis] ; Kevin S. Sevcik [États-Unis] ; Emilie Kopp [États-Unis] | Improved Haptic Fidelity Via Reduced Sampling Period With an FPGA-Based Real-Time Hardware Platform |
001066 | K. S. Hale [États-Unis] ; K. M. Stanney [États-Unis] ; L. Malone [États-Unis] | Enhancing virtual environment spatial awareness training and transfer through tactile and vestibular cues |
001218 | Chang S. Nam [États-Unis] ; Joseph Shu [Canada] ; Donghun Chung [Corée du Sud] | The roles of sensory modalities in collaborative virtual environments (CVEs) : Intergration of human factors in networked computing |
001219 | Victor M. Spitzer [États-Unis] ; Michael J. Ackerman [États-Unis] | The Visible Humans at the University of Colorado 15 years later |
001222 | Yoshihiro Tabuchi [Japon] ; Norihiro Abe [Japon] ; Hirokazu Taki [Japon] ; SHOUJIE HE [États-Unis] | Synchronization between audiovisual and haptic feeling for constructing edutainment systems |
001224 | Richard A. Foulds [États-Unis] ; David M. Saxe [États-Unis] ; Arthur W. Iii Joyce [États-Unis] ; Sergei Adamovich [États-Unis] | Sensory-motor enhancement in a virtual therapeutic environment |
001240 | Kanav Kahol [États-Unis] ; Mario J. Leyba [États-Unis] ; Mary Deka [États-Unis] ; Vikram Deka [États-Unis] ; Stephanie Mayes [États-Unis] ; Marshall Smith [États-Unis] ; John J. Ferrara [États-Unis] ; Sethuraman Panchanathan [États-Unis] | Effect of fatigue on psychomotor and cognitive skills |
001241 | Alessandro Formaglio [Italie] ; Domenico Prattichizzo [Italie] ; Federico Barbagli [États-Unis] ; Antonio Giannitrapani [Italie] | Dynamic Performance of Mobile Haptic Interfaces |
001243 | Abhishek Seth [États-Unis] ; Hai-Jun Su [États-Unis] ; Judy M. Vance [États-Unis] | Development of a Dual-Handed Haptic Assembly System : SHARP |
001247 | WEIHANG ZHU [États-Unis] | A Methodology for Building Up an Infrastructure of Haptically Enhanced Computer-Aided Design Systems |
001248 | Paul G. Griffiths [États-Unis] ; R. Brent Gillespie [États-Unis] ; Jim S. Freudenberg [États-Unis] | A Fundamental Tradeoff Between Performance and Sensitivity Within Haptic Rendering |
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 |
001404 | Hong Z. Tan [États-Unis] | Haptic interfaces for virtual environments : Perceived instability and force constancy in haptic sensing of virtual surfaces |
001411 | Brad M. Howard [États-Unis] ; Judy M. Vance [États-Unis] | Desktop haptic virtual assembly using physically based modelling |
001413 | QI LUO [États-Unis] ; JING XIAO [États-Unis] | Contact and deformation modeling for interactive environments |
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 |
001518 | Yoshihiro Takamura [Japon] ; Norihiro Abe [Japon] ; Kazuaki Tanaka [Japon] ; Hirokazu Taki [Japon] ; Shoujie He [États-Unis] | A Virtual Billiard Game with Visual, Auditory and Haptic Sensation |
001519 | Matt Newcomb [États-Unis] ; Chris Harding [États-Unis] | A Multi-Modal Interface for Road Planning Tasks Using Vision, Haptics and Sound |
001520 | Robert W. Lindeman [États-Unis] ; Yasuyuki Yanagida [Japon] ; Haruo Noma [Japon] ; Kenichi Hosaka [Japon] | Wearable vibrotactile systems for virtual contact and information display |
001525 | James Minogue [États-Unis] ; M. Gail Jones [États-Unis] ; Bethany Broadwell [États-Unis] ; Tom Oppewall [États-Unis] | The impact of haptic augmentation on middle school students' conceptions of the animal cell |
001526 | Sung-Gaun Kim [Corée du Sud] ; Metin Sitti [États-Unis] | Task-based and stable telenanomanipulation in a nanoscale virtual environment : Nanoscale automation and assembly |
001530 | Marcia K. O'Malley [États-Unis] ; Abhishek Gupta [États-Unis] ; Matthew Gen [États-Unis] ; YANFANG LI [États-Unis] | Shared control in haptic systems for performance enhancement and training |
001539 | S. Belloni [Italie] ; A. Formaglio [Italie] ; G. Menegaz [Italie] ; H. Z. Tan [États-Unis] ; D. Prattichizzo [Italie] ; M. Barni [Italie] | Is haptic watermarking worth it ? |
001540 | Bradley C. Schricker [États-Unis] ; Christopher Antalek [États-Unis] | Increasing combat realism : The effectiveness of stun belt use on soldiers for the enhancement of live training and testing exercises |
001548 | W. Akl [Égypte] ; A. Baz [États-Unis] | Efficient virtual reality design of quiet underwater shells |
001551 | William S. Harwin [Royaume-Uni] ; James L. Patton [États-Unis] ; V. Reggie Edgerton [États-Unis] | Challenges and opportunities for robot-mediated neurorehabilitation |
001618 | Kanav Kahol [États-Unis] ; Priyamvada Tripathi [États-Unis] ; Troy Mcdaniel [États-Unis] ; Sethuraman Panchanathan [États-Unis] | Modeling Context in Haptic Perception, Rendering and Visualization |
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 |
001653 | Michael Meehan [États-Unis] ; Sharif Razzaque [États-Unis] ; Brent Insko [États-Unis] ; Mary Whitton [États-Unis] ; Frederick P. Jr Brooks [États-Unis] | Review of four studies on the use of physiological reaction as a measure of presence in stressful virtual environments |
001664 | Jake J. Abbott [États-Unis] ; Allison M. Okamura [États-Unis] | Effects of position quantization and sampling rate on virtual-wall passivity |
001734 | Ki-Uk Kyung [Corée du Sud] ; Heejin Choi [États-Unis] ; Dong-Soo Kwon [Corée du Sud] ; Seung-Woo Son [Corée du Sud] | Interactive Mouse Systems Providing Haptic Feedback During the Exploration in Virtual Environment |
001768 | Mark A. Spicer [États-Unis] ; Martin Van Velsen [États-Unis] ; John P. Caffrey [États-Unis] ; Michael L. J. Apuzzo [États-Unis] ; Patrick J. Kelly ; Peter Mcl Black ; Edward C. Benzel ; John R. Jr Adler | Virtual reality neurosurgery: A simulator blueprint. Commentary |
001769 | Christoph W. Borst [États-Unis] | Tracker calibration using tetrahedral mesh and tricubic spline models of warp |
001770 | S. Choi [États-Unis] ; H. Z. Tan | Toward realistic haptic rendering of surface textures |
001775 | Kerry L. Holland [États-Unis] ; Robert L. Ii Williams [États-Unis] ; Robert R. Jr Conatser [États-Unis] ; John N. Howell [États-Unis] ; Dennis L. Cade [États-Unis] | The implementation and evaluation of a virtual haptic back |
001783 | Jee-Hwan Ryu [Corée du Sud] ; YOON SANG KIM [Corée du Sud] ; Blake Hannaford [États-Unis] | Sampled- and continuous-time passivity and stability of virtual environments |
001785 | 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 |
001787 | Chris Scharver [États-Unis] ; Ray Evenhouse [États-Unis] ; Andrew Johnson [États-Unis] ; Jason Leigh [États-Unis] | Pre-surgical cranial implant design using the PARIS |
001789 | Sandra Hala Dandach [États-Unis] ; Soura Dasgupta [États-Unis] | Optimal design of stable haptic interfaces |
001798 | O. Khatib [États-Unis] ; O. Brock ; K. S. Chang ; D. Ruspini ; L. Sentis ; S. Viji | Human-centered robotics and interactive haptic simulation |
001800 | C. Basdogan [États-Unis] ; S. De ; J. Kim ; M. Muniyandi ; H. Kim ; M. A. Srinivasan | Haptics in minimally invasive surgical simulation and training |
001801 | K. Salisbury [États-Unis] ; F. Conti ; F. Barbagli | Haptic rendering: Introductory concepts |
001804 | WUSHENG CHOU [République populaire de Chine] ; TIANMIAO WANG [République populaire de Chine] ; JING XIAO [États-Unis] | Haptic interaction with vitual environment using an arm type exoskeleton device |
001807 | Robert L. Blanding [États-Unis] ; George M. Turkiyyah [États-Unis] | Flexible bones for the haptic prototyping of deformable objects |
001808 | Norali Pernalete [États-Unis] ; Ramakrishna Gottipati [États-Unis] ; Samyuktha Mikkilineni [États-Unis] ; Sandra Edwards [États-Unis] ; Erin Mccann [États-Unis] ; WENTAO YU [États-Unis] ; Rajiv V. Dubey [États-Unis] | Eye-hand coordination assessment using a robotic haptic interface |
001813 | Seungmoon Choi [États-Unis] ; Hong Z. Tan [États-Unis] | Effect of update rate on perceived instability of virtual haptic texture |
001883 | Mark A. Spicer [États-Unis] ; Michael L. J. Apuzzo [États-Unis] ; Patrick J. Kelly ; Edward C. Benzel ; John R. Jr Adler | Virtual reality surgery: Neurosurgery and the contemporary landscape. Commentary |
001885 | YIYU CAI [Singapour] ; CHEEKONG CHUI [Singapour] ; XIUZI YE [République populaire de Chine] ; James H. Anderson [États-Unis] ; YAOPING WANG [Singapour] | Using VR technology for training of minimally invasive vascular surgery |
001891 | M. Sitti [États-Unis] ; B. Aruk ; H. Shintani ; H. Hashimoto | Scaled teleoperation system for nano-scale interaction and manipulation |
001901 | Wendy J. Plesniak [États-Unis] ; Ravikanth S. Pappu [États-Unis] ; Stephen A. Benton [États-Unis] | Haptic holography: A primitive computational plastic |
001902 | Joseph E. Atkins [États-Unis] ; Robert A. Jacobs [États-Unis] ; David C. Knill [États-Unis] | Experience-dependent visual cue recalibration based on discrepancies between visual and haptic percepts |
001904 | L. Davis [États-Unis] ; J. Rolland ; F. Hamza Lup ; Y. Ha ; J. Norfleet ; B. Pettitt ; C. Imielinska | Enabling a continuum of virtual environment experiences |
001907 | H. Subramanium [États-Unis] ; T. Kesavadas | Development and pilot testing for virtual manufacturing tools with intelligent attributes |
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 |
001988 | Mourad Bouzit [États-Unis] ; Grigore Burdea [États-Unis] ; George Popescu [États-Unis] ; Rares Boian [États-Unis] | The Rutgers Master II-New design force-feedback glove |
001991 | John W. Roberts [États-Unis] ; Oliver Slattery [États-Unis] ; Brett Swope [États-Unis] ; Volker Min [États-Unis] ; Tracy Comstock [États-Unis] | Small-scale tactile graphics for virtual reality systems |
001996 | M. Meehan [États-Unis] ; B. Insko ; M. Whitton ; F. P. Brooks Jr | Physiological measures of presence in stressful virtual environments |
001998 | Federico Barbagli [Italie] ; Domenico Prattichizzo [Italie] ; Kenneth Salisbury [États-Unis] | Multirate analysis of haptic interaction stability with deformable objects |
001A11 | R. W. Lindeman [États-Unis] ; J. N. Templeman [États-Unis] ; J. L. Sibert [États-Unis] ; J. R. Cutler [États-Unis] | Handling of virtual contact in immersive virtual environments: Beyond visuals |
001A12 | Satoru Kawai [Japon] ; Valerie A. Summers [États-Unis] ; Christine L. Mackenzie [Canada] ; Chris J. Ivens [Canada] ; Takashi Yamamoto [Japon] | Grasping an augmented object to analyse manipulative force control |
001A22 | A. Wollensak [États-Unis] | Curricular modules: 3D and immersive visualization tools for learning |
001A24 | R. J. Adams [États-Unis] ; B. Hannaford | Control law design for haptic interfaces to virtual reality |
001A36 | C. Harding [États-Unis] ; I. A. Kakadiaris ; J. F. Casey ; R. B. Loftin | A multi-sensory system for the investigation of geoscientific data |
001A57 | Adnan Ansar [États-Unis] ; Denilson Rodrigues ; Jaydev P. Desai [États-Unis] ; Kostas Daniilidis [États-Unis] ; Vijay Kumar [États-Unis] ; Mario F. M. Campos [Brésil] | Visual and haptic collaborative tele-presence |
001A78 | Tamer M. Wasfy [États-Unis] ; Ahmed K. Noor [États-Unis] | Visualization of CFD results in immersive virtual environments |
001B00 | Ahmed K. Noor [États-Unis] ; Tamer M. Wasfy [États-Unis] | Simulation of physical experiments in immersive virtual environments |
001B36 | Diego Ruspini [États-Unis] ; Oussama Khatib [États-Unis] | Haptic display for human interaction with virtual dynamic environments |
001B54 | Yoky Matsuoka [États-Unis] ; Bill Townsend [États-Unis] | Design of life-size haptic environments |
001B76 | Ming C. Leu [États-Unis] ; Bilal Y. Maiteh [États-Unis] ; Denis Blackmore [États-Unis] ; Lianhua Fu [États-Unis] | CREATION OF FREEFORM SOLID MODELS IN VIRTUAL REALITY |
001B92 | Yoseph Bar-Cohen [États-Unis] ; Constantinos Mavroidis [États-Unis] ; Mourad Bouzit [États-Unis] ; Benjamin Dolgin [États-Unis] ; Deborah L. Harm [États-Unis] ; George E. Kopchok [États-Unis] ; Rodney White [États-Unis] | Virtual reality robotic telesurgery simulations using MEMICA haptic system |
001B93 | 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 |
001B96 | Allison M. Okamura [États-Unis] ; Mark R. Cutkosky [États-Unis] ; Jack Tigh Dennerlein [États-Unis] | Reality-based models for vibration feedback in virtual environments |
001B98 | M. W. Asghar [États-Unis] ; K. E. Barner | Nonlinear multiresolution techniques with applications to scientific visualization in a haptic environment |
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 |
001D04 | Frank Biocca [États-Unis] | New media technology and youth: trends in the evolution of new media |
001D60 | C. H. Ho [États-Unis] ; C. Basdogan ; M. A. Srinivasan | Ray-based haptic rendering: Force and torque interactions between a line probe and 3D objects in virtual environments |
001D61 | D. A. Lawrence [États-Unis] ; L. Y. Pao ; A. M. Dougherty ; M. A. Salada ; Y. Pavlou | Rate-hardness: a new performance metric for haptic interfaces |
001D65 | B. E. Miller [États-Unis] ; J. E. Colgate ; R. A. Freeman | Guaranteed stability of haptic systems with nonlinear virtual environments |
001D67 | S. C. Venema [États-Unis] ; B. Hannaford | Experiments in fingertip perception of surface discontinuities |
001E83 | D. Shaffer [États-Unis] ; D. Meglan [États-Unis] ; M. Ferrell [États-Unis] ; S. Dawson [États-Unis] | Virtual rounds : Simulation-based education in procedural medicine |
001E84 | G. Sr Burdea [États-Unis] ; G. Patounakis [États-Unis] ; V. Popescu [États-Unis] ; R. E. Weiss [États-Unis] | Virtual reality-based training for the diagnosis of prostate cancer |
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 |
001E90 | G. C. Burdea [États-Unis] | Invited review: the synergy between virtual reality and robotics |
001E95 | G. C. Burdea [États-Unis] | Haptic feedback for virtual reality |
001F00 | J. B. Pelz [États-Unis] ; M. M. Hayhoe [États-Unis] ; D. H. Ballard [États-Unis] ; A. Shrivastava [États-Unis] ; J. D. Bayliss [États-Unis] ; M. Von Der Heyde [États-Unis] | Development of a virtual laboratory for the study of complex human behavior |
001F86 | Carolina Cruz-Neira [États-Unis] | Making virtual reality useful: A report on immersive applications at Iowa State University |
002026 | T. Massie [États-Unis] | Tangible goal for 3D modeling |
002028 | D. J. Blezek [États-Unis] ; R. A. Robb [États-Unis] ; J. J. Camp [États-Unis] ; L. A. Nauss [États-Unis] ; D. P. Martin [États-Unis] | Simulation of spinal nerve blocks for training anesthesiology residents |
002030 | P. Young [États-Unis] ; T. Chen [États-Unis] ; D. Anderson [États-Unis] ; JIANG YU [États-Unis] ; S. Nagata [Japon] | LEGOWORLD : A multi-sensory environment for virtual prototyping |
002039 | R. M. Satava [États-Unis] ; S. B. Jones [États-Unis] | Current and future applications of virtual reality for medicine |
002060 | Rakesh Gupta [États-Unis] ; Daniel Whitney [Royaume-Uni] ; David Zeltzer [Royaume-Uni] | Prototyping and design for assembly analysis using multimodal virtual environments |
002069 | Mandayam A. Srinivasan [États-Unis] ; Cagatay Basdogan [États-Unis] | Haptics in virtual environments: Taxonomy, research status, and challenges |
002076 | Pietro Buttolo [États-Unis] ; Roberto Oboe [Italie] ; Blake Hannaford [États-Unis] | Architectures for shared haptic virtual environments |
002107 | S. Vedula [États-Unis] ; D. Baraff [États-Unis] | Physically realistic haptic interaction with dynamic virtual worlds |
002119 | D. P. Haanpaa [États-Unis] ; G. P. Roston | Advanced haptic system for improving man-machine interfaces |
002161 | Stephen E. Lamm [États-Unis] ; Daniel A. Reed [États-Unis] ; Will H. Scullin [États-Unis] | Real-time geographic visualization of World Wide Web traffic |
002184 | G. R. Luecke [États-Unis] ; J. C. Edwards [États-Unis] ; B. Miller [États-Unis] | Force interactive virtual reality using local joint error control |
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