Abstract is missing.
- Perceptual space and adjective rating of sinusoidal vibrations perceived via mobile deviceInwook Hwang, Seungmoon Choi. 1-8 [doi]
- Haptic exploration of spheres: Techniques and initial experimentsBlake Hannaford, Jesse Dosher, S. Venkatachalam. 9-15 [doi]
- Psychophysical detection of inclusions with the bare finger amidst softness differentialsLeigh A. Baumgart, Gregory J. Gerling, Ellen J. Bass. 17-20 [doi]
- Human vs. robotic tactile sensing: Detecting lumps in soft tissueJames C. Gwilliam, Zachary A. Pezzementi, Erica Jantho, Allison M. Okamura, Steven Hsiao. 21-28 [doi]
- Redundant coding of simulated tactile key clicks with audio signalsHsiang-Yu Chen, Jaeyoung Park, Hong Z. Tan, Steve Dai. 29-34 [doi]
- Perceptual representations of parametrically-defined and natural objects comparing vision and hapticsNina Gaissert, Christian Wallraven. 35-42 [doi]
- Effects of kinesthetic information on working memory for 2D sequential selection taskGabjong Han, Jaebong Lee, In Lee, Seokhee Jeon, Seungmoon Choi. 43-46 [doi]
- Discrimination of consonant articulation location by tactile stimulation of the forearmElaine Y. Wong, Ali Israr, Marcia K. O'Malley. 47-54 [doi]
- Haptic illusion of elasticity by tactile suppression during motor activityTaku Hachisu, Sayaka Oshima, Yuki Hashimoto, Hiroyuki Kajimoto. 55-58 [doi]
- Evaluating populations of tactile sensors for curvature discriminationIsabelle I. Rivest, Gregory J. Gerling. 59-62 [doi]
- Haptic figure-ground differentation via a haptic glanceDianne T. V. Pawluk, Ryo Kitada, Aneta Abramowicz, Cheryl L. Hamilton, Susan J. Lederman. 63-66 [doi]
- Initial study for creating linearly moving vibrotactile sensation on mobile deviceJongman Seo, Seungmoon Choi. 67-70 [doi]
- Haptic characteristics of some activities of daily livingBrittany Redmond, Rachel Aina, Tejaswi Gorti, Blake Hannaford. 71-76 [doi]
- Skin nonlinearities and their effect on user perception for rotational skin stretchPete B. Shull, Karlin Bark, Mark R. Cutkosky. 77-82 [doi]
- Finding a feature on a 3D object through single-digit haptic explorationKristina Huynh, Cara E. Stepp, Lee W. White, J. Edward Colgate, Yoky Matsuoka. 83-89 [doi]
- Surface waves and spatial localization in vibrotactile displaysLynette A. Jones, David Held, Ian W. Hunter. 91-94 [doi]
- Perceptual thresholds for single vs. Multi-Finger Haptic interactionHawkeye H. I. King, Regina Donlin, Blake Hannaford. 95-99 [doi]
- A basic study on tactile displays using velvet hand illusionYuji Kawabe, Abdullah Chami, Masahiro Ohka, Tetsu Miyaoka. 101-104 [doi]
- A new fabric-based softness displayMatteo Bianchi 0002, Alessandro Serio, Enzo Pasquale Scilingo, Antonio Bicchi. 105-112 [doi]
- 3D force prediction using fingernail imaging with automated calibrationThomas Grieve, Lucas Lincoln, Yu Sun 0004, John M. Hollerbach, Stephen A. Mascaro. 113-120 [doi]
- Design of electrotactile stimulation to represent distribution of force vectorsKatsunari Sato, Susumu Tachi. 121-128 [doi]
- Design of a novel finger haptic interface for contact and orientation displayMassimiliano Solazzi, Antonio Frisoli, Massimo Bergamasco. 129-132 [doi]
- Design of a vibrotactile display via a rigid surfaceYon Visell, Jeremy R. Cooperstock. 133-140 [doi]
- High frequency acceleration feedback significantly increases the realism of haptically rendered textured surfacesWilliam McMahan, Joseph M. Romano, Amal M. Abdul Rahuman, Katherine J. Kuchenbecker. 141-148 [doi]
- Emulating human attention-getting practices with wearable hapticsMatthew A. Baumann, Karon E. MacLean, Thomas W. Hazelton, Ashley McKay. 149-156 [doi]
- Enhancing rate-hardness of energy-bounding algorithm by considering Coulomb friction of haptic interfaceJaeha Kim, Changhoon Seo, Jeha Ryu, Jong-Phil Kim. 157-160 [doi]
- Unconditional stability analysis of dual-user teleoperation systemsBehzad Khademian, Keyvan Hashtrudi-Zaad. 161-166 [doi]
- An iterative approach to optimizing multi-user networked haptic simulationsSina Niakosari, Shahin Sirouspour. 167-174 [doi]
- Measuring and incorporating slip in data-driven haptic renderingRaphael Höver, Matthias Harders. 175-182 [doi]
- Force and contact location shading thresholds for smoothly rendering polygonal modelsAndrew J. Doxon, David E. Johnson, Hong Z. Tan, William R. Provancher. 183-190 [doi]
- Expressive haptic rendering with cartoon-inspired effectsBrian T. Gleeson, David E. Johnson. 191-194 [doi]
- Using force sensors and neural models to encode tactile stimuli as spike-based responsesElmer K. Kim, Gregory J. Gerling, Scott A. Wellnitz, Ellen A. Lumpkin. 195-198 [doi]
- Characterization and simulation of tactile sensorsZachary A. Pezzementi, Erica Jantho, Lucas Estrade, Gregory D. Hager. 199-205 [doi]
- Dynamic switching control of haptic transmission direction in remote control systemTatsuya Watanabe, Yutaka Ishibashi, Norishige Fukushima, Shinji Sugawara. 207-213 [doi]
- Virtual object manipulation system with substitutive display of tangential force and slip by control of vibrotactile phantom sensationTatsuya Ooka, Kinya Fujita. 215-218 [doi]
- Comparison of three designs for haptic button edges on touchscreensToni Pakkanen, Roope Raisamo, Jukka Raisamo, Katri Salminen, Veikko Surakka. 219-225 [doi]
- A finger attachment to generate tactile feedback and make 3D gesture detectable by touch panel sensorItsuo Kumazawa. 227-234 [doi]
- Interaction control for a brake actuated manipulatorBrian Dellon, Yoky Matsuoka. 235-242 [doi]
- Haptic interaction with volumetric datasets using surface-based haptic librariesSilvio H. R. Rizzi, Cristian Luciano, Pat P. Banerjee. 243-250 [doi]
- A preliminary experimental study on haptic teleoperation of mobile robot with variable force feedback gainIldar Farkhatdinov, Jee-Hwan Ryu, Jinung An. 251-256 [doi]
- Simplified design of haptic display by extending one-point kinesthetic feedback to multipoint tactile feedbackKouta Minamizawa, Domenico Prattichizzo, Susumu Tachi. 257-260 [doi]
- HITPROTO: a tool for the rapid prototyping of haptic interactions for haptic data visualizationSabrina A. Panëels, Jonathan C. Roberts, Peter J. Rodgers. 261-268 [doi]
- The quickhaptics microAPI: Enabling haptic mashupsDavid Chen, Venkat Gourishankar, Curt Rawley, Georges Grinstein. 269-272 [doi]
- Stiffness modulation for Haptic Augmented Reality: Extension to 3D interactionSeokhee Jeon, Seungmoon Choi. 273-280 [doi]
- Design and evaluation of a vibrotactile seat to improve spatial awareness while drivingJohn Morrell, Kamil Wasilewski. 281-288 [doi]
- Towards real-time haptic exploration using a mobile robot as mediatorChung Hyuk Park, Ayanna M. Howard. 289-292 [doi]
- Stability analysis of haptic interfaces for different types of sampled signals and virtual environment implementationsAmir Haddadi, Keyvan Hashtrudi-Zaad. 293-299 [doi]
- Cooperative teleoperation control with projective force mappingsPawel Malysz, Shahin Sirouspour. 301-308 [doi]
- Dilatant fluid based tactile display -Basic conceptSatoshi Saga, Koichiro Deguchi. 309-312 [doi]
- Tactile mouse using friction controlMasaya Takasaki, Hiroyuki Kotani, Ryo Tamon, Takeshi Mizuno. 313-316 [doi]
- Friction measurements on a Large Area TPaDNicholas D. Marchuk, J. Edward Colgate, Michael A. Peshkin. 317-320 [doi]
- Establishing multimodal telepresence sessions using the Session Initiation Protocol (SIP) and advanced haptic codecsHawkeye H. I. King, Blake Hannaford, Julius Kammerl, Eckehard G. Steinbach. 321-325 [doi]
- Modeling pneumatic bubble displacements with membrane theoryLouis B. Kratchman, Jian Wen, Marc Michener, R. Brent Gillespie. 327-334 [doi]
- Effects of haptic guidance and disturbance on motor learning: Potential advantage of haptic disturbanceJaebong Lee, Seungmoon Choi. 335-342 [doi]
- Progressive haptic and visual guidance for training in a virtual dynamic taskJoel C. Huegel, Marcia K. O'Malley. 343-350 [doi]
- A vibrotactile feedback approach to posture guidanceYing Zheng, John B. Morrell. 351-358 [doi]
- Torso-based tactile feedback system for patients with balance disordersSteven W. Wu, Richard Fan, Christopher Wottawa, Eileen Fowler, James W. Bisley, Warren S. Grundfest, Martin O. Culjat. 359-362 [doi]
- BlindAid: Virtual environment system for self-reliant trip planning and orientation and mobility trainingDavid W. Schloerb, Orly Lahav, Joseph G. Desloge, Mandayam A. Srinivasan. 363-370 [doi]
- Haptic negotiation and role exchange for collaboration in virtual environmentsSalih Ozgur Oguz, Ayse Küçükyilmaz, Tevfik Metin Sezgin, Cagatay Basdogan. 371-378 [doi]
- Fiber-optic intubation simulator with force feedbackAnkur R. Baheti, Yuri Millo, Jaydev P. Desai. 379-385 [doi]
- Haptic noise cancellation: Restoring force perception in robotically-assisted beating heart surgeryShelten G. Yuen, Karl-Alexander Dubec, Robert D. Howe. 387-392 [doi]
- Gait rehabilitation system for stair climbing and descendingHiroaki Yano, Shintaro Tamefusa, Naoki Tanaka, Hideyuki Saitou, Hiroo Iwata. 393-400 [doi]
- Gait Rehabilitation therapy using robot generated force fields applied at the pelvisMaciej Pietrusinski, Iahn Cajigas, Yuhannes Mizikacioglu, Mary Goldsmith, Paolo Bonato, Constantinos Mavroidis. 401-407 [doi]
- Haptic gait retraining for knee osteoarthritis treatmentPete B. Shull, Kristen L. Lurie, Mihye Shin, Thor F. Besier, Mark R. Cutkosky. 409-416 [doi]
- ReFlex, a haptic wrist interface for motor learning and rehabilitationDominique Chapuis, Remco Benthem de Grave, Olivier Lambercy, Roger Gassert. 417-424 [doi]
- An initial study of visuohaptic simulation of point-charge interactionsJaeyoung Park, Kwangtaek Kim, Hong Z. Tan, Ron Reifenberger, Gary R. Bertoline, Tallulah Hoberman, Deborah Bennett. 425-430 [doi]
- Design, fabrication, and testing of a piezoresistive hardness sensor in Minimally Invasive SurgeryMasoud Kalantari, Mohammadreza Ramezanifard, Roozbeh Ahmadi, Javad Dargahi, József Kövecses. 431-437 [doi]
- New experimental method based biological soft tissue modelingBummo Ahn, Jung Kim. 439-444 [doi]
- Physically-based analytical modelling of deformable haptic environmentsKevin C. Walker, David W. L. Wang. 445-452 [doi]
- Co-presentation of force cues for skill transfer via shared-control systemsDane Powell, Marcia K. O'Malley. 453-456 [doi]
- Haptic guides in cooperative virtual environments: Design and human performance evaluationSehat Ullah, Paul Richard, Samir Otmane, Mickael Naud, Malik Mallem. 457-462 [doi]
- IN-HAPTICS: Interactive navigation using hapticsRichard D. Walker, Sean B. Andersson, Calin Belta, Pierre E. Dupont. 463-466 [doi]
- Exploring the underlying structure of haptic-based handwritten signatures using visual data mining techniquesNizar Sakr, Fawaz A. Alsulaiman, Julio J. Valdés, Abdulmotaleb El-Saddik, Nicolas D. Georganas. 467-474 [doi]
- Haptic system for hand rehabilitation integrating an interactive game with an advanced robotic deviceMark Sivak, Ozer Unluhisarcikli, Brian Weinberg, Anat Mirelman, Paolo Bonato, Constantinos Mavroidis. 475-481 [doi]
- Haptic system design for MRI-guided needle based prostate brachytherapyHao Su, Weijian Shang, Gregory A. Cole, Kevin Harrington, Gregory S. Fischer. 483-488 [doi]
- Active Handrest for precision manipulation and ergonomic supportMark A. Fehlberg, Brian T. Gleeson, Levi C. Leishman, William R. Provancher. 489-496 [doi]
- Design of a haptic simulator for osteosynthesis screw insertionAnn Majewicz, Jason Glasser, Rosemary Bauer, Stephen M. Belkoff, Simon C. Mears, Allison M. Okamura. 497-500 [doi]
- A two-grid iterative approach for real time haptics mediated interactive simulation of deformable objectsVenkata Sreekanth Arikatla, Suvranu De. 501-508 [doi]
- NUVABAT: Northeastern university virtual ankle and balance trainerYe Ding, Mark Sivak, Brian Weinberg, Constantinos Mavroidis, Maureen K. Holden. 509-514 [doi]
- Towards physics-based interactive simulation of electrocautery procedures using PhysXZhonghua Lu, Ganesh Sankaranarayanan, Dhanannjay Deo, Dingfang Chen, Suvranu De. 515-518 [doi]
- Spatially distributed tactile feedback for kinesthetic motion guidancePulkit Kapur, Mallory Jensen, Laurel J. Buxbaum, Steven A. Jax, Katherine J. Kuchenbecker. 519-526 [doi]
- A higher order polynomial reproducing radial basis function neural network (HOPR-RBFN) for real-time interactive simulations of nonlinear deformable bodies with haptic feedbackDhanannjay Deo, Suvranu De. 527-530 [doi]