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Hiroyuki Kajimoto: [Publications] [Author Rank by year] [Co-authors] [Prefers] [Cites] [Cited by]

Publications of Author

  1. Kevin Vlack, Terukazu Mizota, Naoki Kawakami, Kazuto Kamiyama, Hiroyuki Kajimoto, Susumu Tachi
    GelForce: a vision-based traction field computer interface. [Citation Graph (0, 0)][DBLP]
    CHI Extended Abstracts, 2005, pp:1154-1155 [Conf]
  2. Hiroyuki Kajimoto, Masahiko Inami, Naoki Kawakami, Susumu Tachi
    SmartTouch - Augmentation of Skin Sensation with Electrocutaneous Display. [Citation Graph (0, 0)][DBLP]
    HAPTICS, 2003, pp:40-46 [Conf]
  3. Hiroyuki Kajimoto, Naoki Kawakami, Susumu Tachi
    Optimal Design Method for Selective Nerve Stimulation and Its Application to Electrocutaneous Display. [Citation Graph (0, 0)][DBLP]
    Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems, 2002, pp:303-310 [Conf]
  4. Masashi Nakatani, Hiroyuki Kajimoto, Dairoku Sekiguchi, Naoki Kawakami, Susumu Tachi
    3D Form Display with Shape Memory Alloy. [Citation Graph (0, 0)][DBLP]
    ICAT, 2003, pp:- [Conf]
  5. Hiroyuki Kajimoto, Naoki Kawakami, Taro Maeda, Susumu Tachi
    Electrocutaneous Display as an Interface to a Virtual Tactile World. [Citation Graph (0, 0)][DBLP]
    VR, 2001, pp:289-290 [Conf]
  6. Hiroyuki Kajimoto, Naoki Kawakami, Susumu Tachi, Masahiko Inami
    SmartTouch: Electric Skin to Touch the Untouchable. [Citation Graph (0, 0)][DBLP]
    IEEE Computer Graphics and Applications, 2004, v:24, n:1, pp:36-43 [Journal]
  7. Kazuto Kamiyama, Kevin Vlack, Terukazu Mizota, Hiroyuki Kajimoto, Naoki Kawakami, Susumu Tachi
    Vision-Based Sensor for Real-Time Measuring of Surface Traction Fields. [Citation Graph (0, 0)][DBLP]
    IEEE Computer Graphics and Applications, 2005, v:25, n:1, pp:68-75 [Journal]
  8. Riichiro Tadakuma, Yoshiaki Asahara, Hiroyuki Kajimoto, Naoki Kawakami, Susumu Tachi
    Development of Anthropomorphic Multi-D.O.F. Master-Slave Arm for Mutual Telexistence. [Citation Graph (0, 0)][DBLP]
    IEEE Trans. Vis. Comput. Graph., 2005, v:11, n:6, pp:626-636 [Journal]
  9. Katsunari Sato, Hiroyuki Kajimoto, Naoki Kawakami, Susumu Tachi
    Improvement of Shape Distinction by Kinesthetic-Tactile Integration. [Citation Graph (0, 0)][DBLP]
    WHC, 2007, pp:391-396 [Conf]
  10. Kouta Minamizawa, Hiroyuki Kajimoto, Naoki Kawakami, Susumu Tachi
    A Wearable Haptic Display to Present the Gravity Sensation - Preliminary Observations and Device Design. [Citation Graph (0, 0)][DBLP]
    WHC, 2007, pp:133-138 [Conf]
  11. Dzmitry Tsetserukou, Riichiro Tadakuma, Hiroyuki Kajimoto, Naoki Kawakami
    Development of a Whole-Sensitive Teleoperated Robot Arm using Torque Sensing Technique. [Citation Graph (0, 0)][DBLP]
    WHC, 2007, pp:476-481 [Conf]
  12. Shinobu Kuroki, Hiroyuki Kajimoto, Hideaki Nii, Naoki Kawakami, Susumu Tachi
    Proposal for tactile sense presentation that combines electrical and mechanical stimulus. [Citation Graph (0, 0)][DBLP]
    WHC, 2007, pp:121-126 [Conf]
  13. Kazuto Kamiyama, Hiroyuki Kajimoto, Naoki Kawakami, Susumu Tachi
    Evaluation of a Vision-based Tactile Sensor. [Citation Graph (0, 0)][DBLP]
    ICRA, 2004, pp:1542-1547 [Conf]
  14. Shuhei Nakagawara, Hiroyuki Kajimoto, Naoki Kawakami, Susumu Tachi, Ichiro Kawabuchi
    An Encounter-Type Multi-Fingered Master Hand Using Circuitous Joints. [Citation Graph (0, 0)][DBLP]
    ICRA, 2005, pp:2667-2672 [Conf]
  15. Masashi Nakatani, Hiroyuki Kajimoto, Kevin Vlack, Dairoku Sekiguchi, Naoki Kawakami, Susumu Tachi
    Control Method for a 3D Form Display with Coil-type Shape Memory Alloy. [Citation Graph (0, 0)][DBLP]
    ICRA, 2005, pp:1332-1337 [Conf]

  16. A novel wearable device to present localized sensation of wind. [Citation Graph (, )][DBLP]


  17. Novel tactile display for emotional tactile experience. [Citation Graph (, )][DBLP]


  18. Tabletop interface using a table's circular vibration and controllable friction. [Citation Graph (, )][DBLP]


  19. A novel interface to present emotional tactile sensation to a palm using air pressure. [Citation Graph (, )][DBLP]


  20. A study on a flight display using retro-reflective projection technology and a propeller. [Citation Graph (, )][DBLP]


  21. Laugh enhancer using laugh track synchronized with the user's laugh motion. [Citation Graph (, )][DBLP]


  22. Straw-Like User Interface (II): A New Method of Presenting Auditory Sensations for a More Natural Experience. [Citation Graph (, )][DBLP]


  23. Simultaneous Presentation of Tactile and Auditory Motion on the Abdomen to Realize the Experience of "Being Cut by a Sword". [Citation Graph (, )][DBLP]


  24. Proposal of the Stretch Detection Hypothesis of the Meissner Corpuscle. [Citation Graph (, )][DBLP]


  25. Measurement of the detection thresholds of hair on human hairy skin using direct vibrotactile stimulation. [Citation Graph (, )][DBLP]


  26. Basic Properties of Phantom Sensation for Practical Haptic Applications. [Citation Graph (, )][DBLP]


  27. Presentation of Positional Information by Heat Phantom Sensation. [Citation Graph (, )][DBLP]


  28. Tactile Perception of a Water Surface: Contributions of Surface Tension and Skin Hair. [Citation Graph (, )][DBLP]


  29. Electro-tactile Display with Real-Time Impedance Feedback. [Citation Graph (, )][DBLP]


  30. The Peripheral Display for Augmented Reality of Self-motion. [Citation Graph (, )][DBLP]


  31. Pervasive Sensor System for Evidence-based Nursing Care Support. [Citation Graph (, )][DBLP]


  32. Emotional touch: a novel interface to display "emotional" tactile information to a palm. [Citation Graph (, )][DBLP]


  33. /ed (slashed): gut feelings when being cut and pierced. [Citation Graph (, )][DBLP]


  34. Ants in the Pants. [Citation Graph (, )][DBLP]


  35. Tactile sensation with high-density pin-matrix. [Citation Graph (, )][DBLP]


  36. Intelligent Variable Joint Impedance Control and Development of a New Whole-Sensitive Anthropomorphic Robot Arm. [Citation Graph (, )][DBLP]


  37. Electrotactile Display for Integration with Kinesthetic Display. [Citation Graph (, )][DBLP]


  38. Towards Safe Human-Robot Interaction: Joint Impedance Control of a New Teleoperated Robot Arm. [Citation Graph (, )][DBLP]


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