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Method and apparatus for immersion of a user into virtual reality

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • A63G-031/16
  • G09B-009/00
출원번호 US-0678706 (1996-07-11)
우선권정보 RU-0113085 (1995-07-14)
발명자 / 주소
  • Latypov Nurakhmed Nurislamovich,RUX
대리인 / 주소
    Pennie & Edmonds LLP
인용정보 피인용 횟수 : 93  인용 특허 : 0

초록

A method for immersion of a user into virtual reality consisting in that a closed shell limiting a real closed space is formed and the shell is arranged on a support means with the possibility of rotation about its center. A user who has the possibility for free movement along the inner surface of t

대표청구항

[ What is claimed is:] [1.] A method for immersion of a user in virtual reality comprising:forming a closed shell having a center and an inner surface,setting up a support means,mounting said shell on said support means for rotation on the support means about said center of rotation,wherein a user h

이 특허를 인용한 특허 (93)

  1. Alsenz, Richard H., Acceleration simulator.
  2. Maizels, Aviad; Shpunt, Alexander; Berliner, Tamir, Adaptive projector.
  3. Milanian Cyrus, Amusement and virtual reality ride.
  4. Gurman, Amiad; Yanir, Tomer; Brand, Michael; Guendelman, Eran, Analysis of three-dimensional scenes.
  5. Gurman, Amiad; Yanir, Tomer; Brand, Michael; Guendelman, Eran, Analysis of three-dimensional scenes with a surface model.
  6. Xiao, Quan, Apparatus and method of simulating a somatosensory experience in space.
  7. Xiao, Quan, Apparatus and method of simulating a somatosensory experience in space.
  8. Carrell, Matthew, Apparatus for simulating motion in a virtual environment.
  9. Ishii, Shinya; Segawa, Hiroyuki; Hiraki, Norikazu; Abe, Yuichi; Imaizumi, Ryoichi; Nakamura, Kenichiro, Apparatus, method, and program for processing information.
  10. Galor, Micha, Asymmetric mapping for tactile and non-tactile user interfaces.
  11. Galor, Micha; Pokrass, Jonathan; Hoffnung, Amir; Or, Ofir, Combining explicit select gestures and timeclick in a non-tactile three dimensional user interface.
  12. Neustaedter, Carman G.; Gobeyn, Kevin M.; Fedorovskaya, Elena A., Configuring a virtual world user-interface.
  13. Noro, Hideo; Okuno, Yasuhiro, Control apparatus and method for games and others.
  14. Gurman, Amiad, Depth mapping with enhanced resolution.
  15. Faughn Jim A., Electromagnetic locomotion platform for translation and total immersion of humans into virtual environments.
  16. Wells, William R.; Griswold, Chauncey W.; Wilder, Richard L.; Mattice, Harold E., Electronic gaming machine with enclosed seating unit.
  17. Roelofs Gregory Robert, Exoskeletal platform for controlling multi-directional avatar kinetics in a virtual environment.
  18. Gurman, Amiad; Yanir, Tomer; Sali, Erez, Extraction of skeletons from 3D maps.
  19. Gilliam, Phillip, Fitness development system having an exercise chamber with an inclined floor.
  20. Berme, Necip; Barnes, Scott Zerkle; Nashner, Lewis Michael, Force and/or motion measurement system and a method for training a subject using the same.
  21. Berme, Necip; Barnes, Scott Zerkle; Nashner, Lewis Michael, Force and/or motion measurement system and a method of testing a subject.
  22. Berme, Necip; Barnes, Scott Zerkle; Nashner, Lewis Michael, Force and/or motion measurement system and a method of testing a subject using the same.
  23. Berme, Necip; Barnes, Scott Zerkle, Force measurement system.
  24. Berme, Necip; Oravec, David James; Gokoglu, Aysun, Force measurement system.
  25. Berme, Necip; Barnes, Scott Zerkle; Nashner, Lewis Michael, Force measurement system and a method of testing a subject.
  26. Berme, Necip; Barnes, Scott Zerkle; Nashner, Lewis Michael, Force measurement system having a displaceable force measurement assembly.
  27. Tanaka Shigenobu,JPX, Game machine for moving object.
  28. Bychkov, Eyal; Brezner, Oren; Galor, Micha; Or, Ofir; Pokrass, Jonathan; Hoffnung, Amir; Berliner, Tamir, Gaze detection in a 3D mapping environment.
  29. Bychkov, Eyal; Brezner, Oren; Galor, Micha; Or, Ofir; Pokrass, Jonathan; Hoffnung, Amir; Berliner, Tamir, Gaze-based display control.
  30. Bychkov, Eyal; Brezner, Oren; Galor, Micha; Or, Ofir; Pokrass, Jonathan; Eshel, Amir, Gaze-enhanced virtual touchscreen.
  31. Berenson, Adi; Galor, Micha; Pokrass, Jonathan; Shani, Ran; Shein, Daniel; Weissenstern, Eran; Frey, Martin; Hoffnung, Amir; Metuki, Nili, Gesture-based interface with enhanced features.
  32. Gurman, Amiad; Yanir, Tomer; Brand, Michael; Guendelman, Eran, Identifying components of a humanoid form in three-dimensional scenes.
  33. Perkins, Cheryl A., Immersive visualization center for creating and designing a “total design simulation” and for improved relationship management and market research.
  34. Dundon,Michael, Interactive body suit and interactive limb covers.
  35. Neff,John D.; Verona,Matthew T.; Roane,Jerry M., Interactive computer simulation enhanced exercise machine.
  36. Neff,John D.; Verona,Matthew T.; Roane,Jerry M., Interactive computer simulation enhanced exercise machine.
  37. Maizels, Aviad; Shpunt, Alexander; Berliner, Tamir, Interactive reality augmentation for natural interaction.
  38. Randy T. Sprout ; Susan M. Sprout, Interactive virtual reality performance theater entertainment system.
  39. Litvak, Shai; Brailovsky, Leonid; Yanir, Tomer, Learning-based estimation of hand and finger pose.
  40. Litvak, Shai, Learning-based pose estimation from depth maps.
  41. Goetgeluk, Jan, Locomotion system and apparatus.
  42. Goetgeluk, Jan, Locomotion system and apparatus.
  43. Hildreth, Evan, Manipulation of virtual objects using enhanced interactive system.
  44. Pertti Puolakanaho FI; Erkki Loponen FI; Pekka Rytky FI, Measuring device and method of controlling same.
  45. Hachiya,Kazuhiko; Kitamura,Michio; Koki,Takashi; Otaki,Namie, Method and apparatus for automatic sending of e-mail and automatic sending control program supplying medium.
  46. Macri, Vincent J.; Zilber, Paul J, Method and apparatus for tutorial, self and assisted instruction directed to simulated preparation, training and competitive play and entertainment.
  47. Latypov Nurakhmed Nurislamovich,SUX ; Latypov Nurulla Nurislamovich,SUX, Method for tracking and displaying user's spatial position and orientation, a method for representing virtual reality for a user, and systems of embodiment of such methods.
  48. Harvey, William D.; McHugh, Jason G.; Paiz, Fernando J.; Ventrella, Jeffrey J., Method, system and computer program product for the delivery of a chat message in a 3D multi-user environment.
  49. Kim, Gerard Jounghyun; Yang, Ungyeon; Ahn, Euijae, Methods and apparatus of displaying and evaluating motion data in a motion game apparatus.
  50. Berliner, Tamir; Hendel, Ziv; Shpunt, Alexander; Danowitz, Jeffrey; Rais, Dmitri; Mor, Oren; Shpigelmacher, Michael, Modeling of humanoid forms from depth maps.
  51. McSorley, Tyrone G., Neuromuscular training apparatus and method of use.
  52. Goetgeluk, Jan, Omnidirectional locomotion platform.
  53. Goetgeluk, Jan, Omnidirectional locomotion platform.
  54. Goetgeluk, Jan, Omnidirectional locomotion platform.
  55. Epstein, Neil B., Omnidirectional moving surface.
  56. Jay C. Yuan, Pinball simulator game system.
  57. Bychkov, Eyal; Brezner, Oren; Galor, Micha; Or, Ofir; Pokrass, Jonathan; Hoffnung, Amir; Berliner, Tamir, Pointing-based display interaction.
  58. Phillips Scott Andrew,AUX, Positioning device.
  59. Macri Vincent J. ; Zilber Paul, Processing system method to provide users with user controllable image for use in interactive simulated physical movements.
  60. Fukushima Shogo,JPX ; Suzuki Kenshi,JPX, Relax refresh system.
  61. Eshet, Yaron, Robust detection and classification of body parts in a depth map.
  62. DiNunzio Joseph P. ; Morris Thomas K. ; Elliott Steven A. ; Garlington Joseph O. ; Fernandez Raul S. ; Bryan Susan M. ; Rice Kevin R. ; Redmann William G. ; Salter Kenneth D., Roller coaster simulator.
  63. Galor, Micha; Pokrass, Jonathan; Hoffnung, Amir; Or, Ofir, Sessionless pointing user interface.
  64. Berme, Necip, System and method for fall and/or concussion prediction.
  65. Reveley, Simon Paul, System for providing a virtual reality experience.
  66. Galor, Micha; Gelbourt, Idan; Or, Ofir; Pokrass, Jonathan; Hoffnung, Amir, Three dimensional user interface cursor control.
  67. Galor, Micha; Pokrass, Jonathan; Hoffnung, Amir, Three dimensional user interface session control.
  68. Magal, Oz; Guendelman, Eran; Golman, Sergio; Hendel, Ziv; Maizels, Aviad; Berliner, Tamir; Pokras, Jonathan, Three-dimensional user interface.
  69. Galor, Micha; Pokrass, Jonathan; Hoffnung, Amir, Three-dimensional user interface session control.
  70. Litvak, Shai; Yanir, Tomer; Guendelman, Eran, Tracking body parts by combined color image and depth processing.
  71. Gurman, Amiad; Tropp, Oren, Upper-body skeleton extraction from depth maps.
  72. Ohshima,Toshikazu, User interface apparatus, user interface method, game apparatus, and program storage medium.
  73. Galor, Micha; Or, Ofir; Litvak, Shai; Sali, Erez, Virtual keyboard for a non-tactile three dimensional user interface.
  74. Martin, Kipling, Virtual reality enhancement device.
  75. Butterfield Anthony, Virtual reality equipment.
  76. Van Curen, Greg; So, Minchul; Farina, III, Samuel, Virtual reality system allowing immersion in virtual space to consist with actual movement in actual space.
  77. Van Curen, Greg; So, Minchul; Farina, III, Samuel; So, Ho-Sung, Virtual reality system enabling compatibility of sense of immersion in virtual space and movement in real space, and battle training system using same.
  78. Couvillion, Jr., Warren C.; Lopez, Roger R.; Ling, Jian, Virtual reality system locomotion interface utilizing a pressure-sensing mat.
  79. Couvillion, Jr., Warren Carl; Lopez, Roger Rene; Ling, Jian, Virtual reality system locomotion interface utilizing a pressure-sensing mat.
  80. Couvillion, Jr.,Warren C.; Lopez,Roger R.; Ling,Jian, Virtual reality system locomotion interface utilizing a pressure-sensing mat.
  81. Couvillion, Jr.,Warren Carl; Lopez,Roger Rene; Ling,Jian, Virtual reality system locomotion interface utilizing a pressure-sensing mat.
  82. Couvillion, Jr.,Warren Carl; Lopez,Roger Rene; Ling,Jian, Virtual reality system locomotion interface utilizing a pressure-sensing mat.
  83. Couvillion, Jr., Warren Carl; Lopez, Roger Rene; Ling, Jian, Virtual reality system locomotion interface utilizing a pressure-sensing mat attached to movable base structure.
  84. Galor, Micha, Visual feedback for tactile and non-tactile user interfaces.
  85. Williams,Julian David, Walk simulation apparatus for exercise and virtual reality.
  86. Alhashim, Mahmoud A., Waterproof virtual reality goggle and sensor system.
  87. Wells, William R.; Griswold, Chauncey W., Wide screen gaming apparatus.
  88. Wells, William; Griswold, Chan, Wide screen gaming apparatus.
  89. Wells, William; Griswold, Chan, Wide screen gaming apparatus.
  90. Wells, William; Griswold, Chan, Wide screen gaming apparatus.
  91. Wells, William; Griswold, Chan, Wide screen gaming apparatus.
  92. Berenson, Adi; Cohen, Dana; Galor, Micha; Pokrass, Jonathan; Shani, Ran; Shein, Daniel; Tal, Orlee; Yaari, Arnon; Weissenstern, Eran; Frey, Martin; Hoffnung, Amir; Metuki, Nili; Hauer, Marcus, Zoom-based gesture user interface.
  93. Frey, Martin; Hauer, Marcus; Buzzini, Dario; Schaefer, Philipp; Berenson, Adi; Galor, Micha; Metuki, Nili; Shpunt, Alexander, Zoom-based gesture user interface.
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