Takayuki Hoshi

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T. Hoshi

Pixie Dust Technologies, Inc.
4F, Sumitomo Fudosan Suido-bashi Nishi-guchi Bldg., 2-20-5, Kanda-misaki-cho, Chiyoda-ku, Tokyo, Japan
ZIP code: 101-0061
E-mail:
star(at)hoshistar81.jp
star(at)pixiedusttech.com
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Ph.D. (Information Science and Technology)
  • The University of Tokyo, Graduate School of Information Science and Technology, Department of Information Physics and Computing, Shinoda Lab. (Apr. 2003 - Mar. 2009)
  • Kumamoto University, Graduate School of Science and Technology, Department of Intelligent Mechanical Systems, Torigoe Lab. (Apr. 2009 - Mar. 2011)
  • Nagoya Institute of Technology, Center for Innovative Young Researchers (Apr. 2011 - Mar. 2016)
  • The University of Tokyo, Graduate School of Information Science and Technology, Department of Information Physics and Computing (Apr. 2016 - May 2016)
  • The University of Tokyo, Research Center for Advanced Science and Technology, Information Somatics Lab. (June 2016 - Sept. 2017)
  • Pixie Dust Technologies, Inc. (Oct. 2017 - )


    • Member of SICE, VRSJ, JSME, IPSJ, ASJ

    * ICAT-EGVE 2014 Demos Co-chair (2014)
    * Asia Haptics 2016 Local arrangement chair (2016)


    Brief History

    Mar.2003 : B.E. received from Dept. of Mathematical Engineering & Information Physics, Faculty of Engineering, the University of Tokyo
    Mar.2005 : M.E. received from Dept. of Information Physics & Computing, Graduate School of Information Science & Technology, the University of Tokyo
    Apr.2007 : Research Fellow of the Japan Society for the Promotion of Science (- Mar. 2009)
    Mar.2008 : Ph.D. received from Dept. of Information Physics & Computing, Graduate School of Information Science & Technology, the University of Tokyo
    Apr.2009 : Assistant Professor of Dept. of Intelligent Mechanical Systems, Graduate School of Science & Technology, Kumamoto University
    Apr.2011 : Assistant Professor of Center for Innovative Young Researchers, Nagoya Institute of Technology
    Apr.2016 : Assistant Professor of Dept. of Information Physics & Computing, Graduate School of Information Science & Technology, the University of Tokyo
    June2016 : Assistant Professor of Research Center for Advanced Science and Technology, the University of Tokyo
    Oct.2017 : CTO, Pixie Dust Technologies, Inc.
    Aug.2018 : CRO, Pixie Dust Technologies, Inc.

    Research


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    Publication

    Journal

    1. Nao Wakabayashi, Atsushi Sakai, Hiroya Takada, Takayuki Hoshi, Hitomi Sano, Shizuko Ichinose, Hidenori Suzuki, Rei Ogawa: Noncontact Phased-Array Ultrasound Facilitates Acute Wound Healing in Mice,
      Plastic and Reconstructive Surgery, 2019. [PRS Online First]
    2. Trung Quang Pham, Takumi Kawaue, Takayuki Hoshi, Yoshihiro Tanaka, Tataki Miyata, and Akihito Sano: Role of Extrinsic Mechanical Force in the Development of the RA-I Tactile Mechanoreceptor,
      Scientific Reports, vol. 8, article no. 11085, 2018. [nature.com]
    3. Ryota Kondo, Maki Sugimoto, Kouta Minamizawa, Takayuki Hoshi, Masahiko Inami, and Michiteru Kitazaki: Illusory Body Ownership of an Invisible Body Interpolated between Virtual Hands and Feet via Visual-motor Synchronicity,
      Scientific Reports, vol. 8, article no. 7541, 2018. [nature.com]
    4. Yuki Uno, Hao Qiu, Toru Sai, Shunta Iguchi, Yota Mizutani, Takayuki Hoshi, Yoshihiro Kawahara, Yasuaki Kakehi, and Makoto Takamiya: Luciola: A Millimeter-Scale Light-Emitting Particle Moving in Mid-Air Based On Acoustic Levitation and Wireless Powering,
      Proc. ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies (ACM IMWUT), vol. 1, article no. 166, 2017. [ACM Digital Library]
    5. Trung Quang Pham, Takayuki Hoshi, Yoshihiro Tanaka, and Akihito Sano: Effect of 3D Microstructure of Dermal Papillae on SED Concentration at a Mechanoreceptor Location,
      PLOS ONE, vol. 12, no. 12, e0189293, 2017. [PLOS ONE]
    6. Trung Quang Pham, Takayuki Hoshi, Yoshihiro Tanaka, and Akihito Sano: An FE Simulation Study on Population Response of RA-I Mechanoreceptor to Different Widths of Square Indenter,
      SICE Journal of Control, Measurement, and System Integration, vol. 10, no, 5, pp. 426-432, 2017. [J-STAGE]
    7. Trung Quang Pham, Takayuki Hoshi, Yoshihiro Tanaka, Akihito Sano, Takumi Kawaue, and Takaki Miyata: Two-Photon Imaging of DiO-Labelled Meissner Corpuscle in Living Mouse's Fingertip,
      IEEE Transactions on Haptics, vol. 9, no, 4, pp. 483-491, 2016. [IEEE Computer Society Digital Library]
    8. Yoichi Ochiai*, Kota Kumagai*, Takayuki Hoshi, Jun Rekimoto, Satoshi Hasegawa, and Yoshio Hayasaki: Fairy Lights in Femtoseconds: Aerial and Volumetric Graphics Rendered by Focused Femtosecond Laser Combined with Computational Holographic Fields,
      ACM Transactions on Graphics, vol. 35, article no. 17, 2016. (*Joint first authors) [PrePrint in arXiv.org] [ACM Digital Library]
    9. Hiroshi Shimizu, Takayuki Hoshi, Kenji Nakamura, and Jai-Eok Park: Development of a Non-contact Ultrasonic Pollination Device,
      Environmental Control in Biology, vol. 53, no. 2, pp. 85-88, 2015. [J-STAGE]
    10. Kazuya Kikunaga, Takayuki Hoshi, Hiroshi Yamashita, Masahiro Egashira, and Kazuhiro Nonaka: Development of a Technique for Measuring Static Electricity Distribution Using Focused Ultrasound Waves and an Induced Electric Field,
      Journal of Electrostatics, vol. 73, pp. 6-11, 2015. [ScienceDirect]
    11. Yoichi Ochiai, Takayuki Hoshi, and Jun Rekimoto: Pixie Dust: Graphics Generated by Levitated and Animated Objects in Computational Acoustic-Potential Field,
      ACM Transactions on Graphics, vol. 33, article no. 85, 2014. [ACM Digital Library]
    12. Yoichi Ochiai, Alexis Oyama, Takayuki Hoshi, and Jun Rekimoto: The Colloidal Metamorphosis: Time Division Multiplexing of the Reflectance State,
      IEEE Computer Graphics and Applications, vol. 34, no. 4, pp. 42-51, 2014. [CS Digital Library]
    13. Takayuki Hoshi, Yoichi Ochiai, and Jun Rekimoto: Three-Dimensional Noncontact Manipulation by Opposite Ultrasonic Phased Arrays,
      Japanese Journal of Applied Physics, vol. 53, 07KE07, 2014. [IOP]
    14. Yoichi Ochiai, Takayuki Hoshi, and Jun Rekimoto: Three-Dimensional Mid-Air Acoustic Manipulation by Ultrasonic Phased Arrays,
      PLOS ONE, vol. 9, no. 5, e97590, 2014. [PrePrint in arXiv.org] [PLOS ONE]
    15. Kazuya Kikunaga, Takayuki Hoshi, Hiroshi Yamashita, Yoshitaka Fujii, and Kazuhiro Nonaka: Measuring Technique for Static Electricity Using Focused Sound,
      Journal of Electrostatics, vol. 71, no. 3, pp. 554-557, 2012. [ScienceDirect]
    16. Takayuki Hoshi, Masafumi Takahashi, Takayuki Iwamoto, and Hiroyuki Shinoda: Noncontact Tactile Display Based on Radiation Pressure of Airborne Ultrasound,
      IEEE Transactions on Haptics, vol. 3, no. 3, pp. 155-165, 2010. [IEEE Computer Society Digital Library]

    Book

    1. Takayuki Hoshi and Hiroyuki Shinoda: Airborne Ultrasound Tactile Display, Hiroyuki Kajimoto, Satoshi Saga, and Masahi Konyo (Eds.), Pervasive Haptics -Science, Design, and Application-, Springer Japan, pp. 121-138, 2016.

    Conference

    1. Chihiro Urairi, Takayuki Hoshi, Izumi Ohta: A New Insect Pest Control Device Using Non-contact Force Generated by Ultrasonic Transducers,
      Proc. 6th Annual Meeting of the Society for Bioacoustics, P11, Tsukuba (Japan), 20-22 Nov. 2019. [Poster]
    2. Hao Qiu, Yuki Uno, Toru Sai, Shunta Iguchi, Yota Mizutani, Takayuki Hoshi, Yoshihiro Kawahara, Yasuaki Kakehi, Makoto Takamiya: Luciola: A Light-Emitting Particle Moving in Mid-Air based on Ultrasonic Levitation and Wireless Powering,
      Proc. ACM SIGGRAPH Asia 2018, Emerging Technologies, article no. 7, Tokyo (Japan), 4-7 Dec. 2018. [Demo] [ACM Digital Library]
    3. Yosuke Ueno, Takayuki Hoshi, Atsushi Hiyama, and Masahiko Inami: Virtual Experiments of Augmentation of Transparent Cockpit,
      Proc. 24th International Display Workshops, pp. 1445-1448, Sendai (Japan), 6-8 Dec. 2017.
    4. Yoichi Ochiai, Tatsuya Minagawa, Takayuki Hoshi, Daitetsu Sato, Kazuki Takazawa, Amy Koike, Satoshi Hashizume, Ippei Suzuki, Atsushi Shinoda, and Kazuyoshi Kubokawa: LeviFab: Stabilization and Manipulation of Digitally Fabricated Objects for Superconductive Levitation,
      Proc. ACM SIGGRAPH 2017, Studio, article no. 5, Los Angeles, California (USA), 30 Jury - 3 Aug. 2017. [Demo] [ACM Digital Library]
    5. Yoichi Ochiai, Tatsuya Minagawa, Takayuki Hoshi, Daitetsu Sato, Satoshi Hashizume, Kazuki Takazawa, Amy Koike, Ippei Suzuki, Atsushi Shinoda, and Kazuyoshi Kubokawa: LeviFab: Stabilization and Manipulation of Digitally Fabricated Objects for Superconductive Levitation,
      Proc. ACM SIGGRAPH 2017, Posters, article no. 7, Los Angeles, California (USA), 30 Jury - 3 Aug. 2017. [Poster] [ACM Digital Library]
    6. Satoshi Hashizume, Amy Koike, Takayuki Hoshi, and Yoichi Ochiai: Sonovortex: Rendering Multi-resolution Aerial Haptics by Aerodynamic Vortex and Focused Ultrasound,
      Proc. ACM SIGGRAPH 2017, Posters, article no. 57, Los Angeles, California (USA), 30 Jury - 3 Aug. 2017. [Poster] [ACM Digital Library]
    7. Yoichi Ochiai*, Takayuki Hoshi*, and Ippei Suzuki: Holographic Whisper: Rendering Audible Sound Spots in Three-Dimensional Space by Focusing Ultrasonic Waves,
      Proc. ACM CHI 2017, pp. 4314-4325, Denver, Colorado (USA), 6-11 May 2017. (*Joint first authors) [ACM Digital Library]
    8. Shigo Ko, Yuta Itoh, Yuta Sugiura, Takayuki Hoshi, and Maki Sugimoto: Spatial Calibration of Airborne Ultrasound Tactile Display and Projector-Camera System Using Fur Material,
      Proc. ACM TEI 2017, Work in Progress, pp. 583-588, Yokohama (Japan), 20-23 Mar. 2017. [Poster] [ACM Digital Library]
    9. Yuta Sugiura, Koki Toda, Takashi Kikuchi, Takayuki Hoshi, Youichi Kamiyama, Takeo Igarashi, and Masahiko Inami: Grassffiti: Drawing Method to Produce Large-scale Pictures on Conventional Grass Fields,
      Proc. ACM TEI 2017, Work in Progress, pp. 413-417, Yokohama (Japan), 20-23 Mar. 2017. [Poster] [ACM Digital Library]
    10. Ryota Kondo, Maki Sugimoto, Kouta Minamizawa, Takayuki Hoshi, Masahiko Inami, and Michiteru Kitazaki: The Illusory Body Ownership: Remapping of the Right Finger to the Left Arm by Vision-action Contingency of Different Body Parts,
      IEEE Symposium on 3D User Interfaces, Los Angeles, Califolnia (USA), 18-19 Mar. 2017. [Poster]
    11. Yuki Kubo, Hirobumi Tomita, Shuta Nakame, Takayuki Hoshi, and Yoichi Ochiai: Bubble Cloud: Projection of an Image onto a Bubble Cluster,
      Proc. 13th International Conference on Advances in Computer Entertainment Technology (ACE 2016), article no. 41, Osaka (Japan), 9-12 Nov. 2016. [ACM Digital Library]
    12. Pham Quang Trung, Takayuki Hoshi, Yoshihiro Tanaka, and Akihito Sano: A Finite Element Model of 3D Microstructure of Dermal Papillae: Concentration of Strain Energy Density at Mechanoreceptor Locations,
      Proc. SICE Annual Conference 2016, pp. 1320-1322, Tsukuba (Japan), 20-23 Sept. 2016.
    13. Yuki Kubo, Hirobumi Tomita, Shuta Nakame, Takayuki Hoshi, and Yoichi Ochiai: Bubble Clouds: 3D Form Display Composed of Soap Bubble Cluster,
      Proc. 16th International Conference on Entertainment Computing (ICEC '17), pp. 14-23, Tsukuba (Japan), 18-21 Sept. 2017. [Springer Link]
    14. Yoichi Ochiai*, Kota Kumagai*, Takayuki Hoshi, Satoshi Hasegawa, and Yoshio Hayasaki: Cross-Field Aerial Haptics: Rendering Haptic Feedback in Air with Light and Acoustic Fields,
      Proc. ACM CHI 2016, pp. 3238-3247, San Jose, Califolnia (USA), 7-12 May 2016. (*Joint first authors) [ACM Digital Library]
    15. Takayuki Hoshi: Gradual Phase Shift to Suppress Noise from Airborne Ultrasound Tactile Display,
      ACM CHI 2016 Workshop on Mid-Air Haptics and Displays: Systems for Un-instrumented Mid-Air Interactions, Session 2: Provide Visual and Haptic Feedback, San Jose, Califolnia (USA), 7-12 May 2016.
    16. Takayuki Hoshi: Variation of Tactile Feelings of Focused Ultrasound: Modulation Frequency and Hand Movement,
      Proc. ACM SIGGRAPH Asia 2015, Workshop on Haptic Media and Contents Design, article no. 18, Kobe (Japan), 2 Nov. 2015. [Demo] [ACM Digital Library]
    17. Pham Quang Trung, Takayuki Hoshi, Yoshihiro Tanaka, and Akihito Sano: Investigation on Tactile Sensor based on Tissue Engineering,
      Proc. Vietnamese-Japanese Students' Scientific Exchange Meeting (VJSE 2015), Kyoto (Japan), 31 Oct. 2015.
    18. Kazuya Kikunaga and Takayuki Hoshi: Measuring Electrostatic Charge by Ultrasound Impulse Excitation,
      Proc. IEEE Industry Applications Society (IAS) Annual Meeting 2015, 2015-EPC-0511, Dallas, Texas (USA), 18-22 Oct. 2015.
    19. Yoichi Ochiai, Kota Kumagai, Takayuki Hoshi, Jun Rekimoto, Satoshi Hasegawa, and Yoshio Hayasaki: Fairy Lights in Femtoseconds: Aerial and Volumetric Graphics Rendered by Focused Femtosecond Laser Combined with Computational Holographic Fields,
      Proc. ACM SIGGRAPH 2015, Emerging Technologies, article no. 10, Los Angeles, California (USA), 9-13 Aug. 2015. [Demo] [ACM Digital Library]
      [Emerging Technologies Preview Trailer] [Emerging Technologies Contributor]
    20. Yoichi Ochiai, Kota Kumagai, Takayuki Hoshi, Jun Rekimoto, Satoshi Hasegawa, and Yoshio Hayasaki: Fairy Lights in Femtoseconds: Aerial and Volumetric Graphics Rendered by Focused Femtosecond Laser Combined with Computational Holographic Fields,
      Proc. ACM SIGGRAPH 2015, Emerging Technologies Talks, article no. 10, Los Angeles, California (USA), 9-13 Aug. 2015.
    21. Yoichi Ochiai, Kota Kumagai, Takayuki Hoshi, Jun Rekimoto, Satoshi Hasegawa, and Yoshio Hayasaki: Fairy Lights in Femtoseconds: Aerial and Volumetric Graphics Rendered by Focused Femtosecond Laser Combined with Computational Holographic Fields,
      Proc. ACM SIGGRAPH 2015, Posters (Research), Los Angeles, California (USA), 9-13 Aug. 2015. [Poster]
    22. Masaya Takasaki, Daisuke Yamaguchi, Yoichi Ochiai, Takayuki Hoshi, and Takeshi Mizuno: Between Smoothness and Stickiness,
      Proc. IEEE World Haptics Conference, D-46, Chicago, Illinois (USA), 22-26 June 2015. [Demo] [Demonstrations Previews]
    23. Trung Pham Quang, Takayuki Hoshi, Yoshihiro Tanaka, and Akihito Sano: Study on Three-dimensional Configuration of Dermal Papillae: Effects on Meissner Corpuscles,
      Proc. IEEE World Haptics Conference, Work-In-Progress, WIP-25, Chicago, Illinois (USA), 22-26 June 2015. [Poster]
    24. Hiroshi Shimizu, Kenji Nakamura, Takayuki Hoshi, Hiroshi Nakamura, Juro Miyashita, and Katsuaki Ohdoi: Development of a Non-contact Ultrasonic Pollination System,
      Proc. XXXVI CIOSTA & CIGR Section V Conference 2015, paper ID 43, Saint-Petersburg (Russia), 26-28 May 2015.
    25. Yoichi Ochiai, Takayuki Hoshi, Kota Kumagai, Jun Rekimoto, Satoshi Hasegawa, and Yoshio Hayasaki: Fairy Lights,
      17th International Conferences and Exhibition of Virtual Technologies and Uses (Laval Virtual 2015), Laval Virtual Awards, Laval (France), 8-12 Apr. 2015.
      [Industrial design & Simulation (One of 10 Awards) / 18 Mar. 2015]
    26. Takayuki Hoshi: Noncontact Tactile Display Using Airborne Ultrasound,
      Proc. 21st International Display Workshops, pp. 1529-1533, Niigata (Japan), invited, 3-5 Dec. 2014.
    27. Daisuke Yamaguchi, Yoichi Ochiai, Takayuki Hoshi, Jun Rekimoto, Masaya Takasaki: Driving System of Diminished Haptics: Transformation of Real World Textures,
      Proc. AsiaHaptics 2014, B-18, Tsukuba (Japan), 18-20 Nov. 2014. [Demo] [Partial Preview]
    28. Michinari Kono, Takayuki Hoshi, and Yasuaki Kakehi: lapillus bug: Creature-like Behaving Particles Based on Interactive Mid-Air Acoustic Manipulation,
      Proc. 11th Advances in Computer Entertainment Technology Conference (ACE 2014), article no. 34, Madeira (Portugal), 11-14 Nov. 2014. [ACM Digital Library]
    29. Gary M.Y. Hung, Nigel W. John, Chris Hancock, and Takayuki Hoshi: Using Airborne Ultrasound as a Tactile Interface within Medical Training Simulators,
      Proc. 6th International Symposium on Biomedical Simulation (ISBMS 2014), pp. 30-39, Strasbourg (France), 16-17 Oct. 2014.
    30. Yuta Sugiura, Koki Toda, Takayuki Hoshi, Youichi Kamiyama, Masahiko Inami, and Takeo Igarashi: Graffiti Fur: Turning Your Carpet into a Computer Display,
      Proc. 27th ACM User Interface Software and Technology Symposium (ACM UIST 2014), pp. 149-156, Hawaii (USA), 5-8 Oct. 2014. [Technical Program Preview]
      [Best Talk Award (1/74) / 8 Oct. 2014]
    31. Takayuki Hoshi, Yoichi Ochiai, and Jun Rekimoto: Three-dimensional Non-contact Manipulation Based on Standing-wave Acoustic Levitation,
      Proc. 1st International Conference on Ultrasonic-Based Applications: From Analysis to Synthesis (ULTRASONICS 2014), p. 111, Lisbon (Portugal), invited, 15-17 Sept. 2014.
    32. Pham Quang Trung, Takayuki Hoshi, Yoshihiro Tanaka, and Akihito Sano: Investigation of Spatial Structure Surrounding Meissner Corpuscle by Using Compact Finite-Element Methods,
      Proc. Vietnamese-Japanese Students' Scientific Exchange Meeting (VJSE 2014), Kobe (Japan), 13 Sept. 2014.
    33. Yuta Sugiura, Koki Toda, Takayuki Hoshi, Masahiko Inami, and Takeo Igarashi: Graffiti Fur: Turning Your Carpet into a Computer Display,
      Proc. ACM SIGGRAPH 2014, Emerging Technologies, article no. 9, Vancouver (Canada), 10-14 Aug. 2014. [Demo] [ACM Digital Library] [Emerging Technologies Media Tour]
    34. Yoichi Ochiai, Takayuki Hoshi, and Jun Rekimoto: Pixie Dust: Graphics Generated by Levitated and Animated Objects in Computational Acoustic-Potential Field,
      Proc. ACM SIGGRAPH 2014, Emerging Technologies, article no. 21, Vancouver (Canada), 10-14 Aug. 2014. [Demo] [ACM Digital Library]
      [Emerging Technologies Preview Trailer] [Emerging Technologies Contributor] [Emerging Technologies Media Tour]
    35. Yoichi Ochiai, Takayuki Hoshi, and Jun Rekimoto: Pixie Dust: Graphics Generated by Levitated and Animated Objects in Computational Acoustic-Potential Field,
      Proc. ACM SIGGRAPH 2014, Posters, article no. 83, Vancouver (Canada), 10-14 Aug. 2014. [Poster] [ACM Digital Library]
      [Invited to the First Round of the Student Research Competition (25 student posters)]
    36. Yoichi Ochiai, Takayuki Hoshi, and Jun Rekimoto: Pixie Dust: Graphics Generated by Levitated and Animated Objects in Computational Acoustic-Potential Field,
      Proc. ACM SIGGRAPH 2014, Technical Papers, article no. 85, Vancouver (Canada), 10-14 Aug. 2014. [Technical Papers Preview Trailer] [ACM Digital Library]
    37. Yoichi Ochiai, Takayuki Hoshi, Jun Rekimoto, and Masaya Takasaki: Diminished Haptics: Towards Digital Transformation of Real World Textures,
      Proc. Eurohaptics 2014, Poster 53 / Demo 4, Versailles (France), 24-27 June 2014. [Poster & Demo]
      [Best Demonstration Award Honorable Mention (2nd/30) / 26 June 2014] [IEEE ToH / News from the Field]
    38. Yoichi Ochiai, Takayuki Hoshi, and Jun Rekimoto: Pixie Dust,
      16th International Conferences and Exhibition of Virtual Technologies and Uses (Laval Virtual 2014), Laval Virtual Awards, Laval (France), 9-13 Apr. 2014.
      [Interface & Multipurpose Equipment (One of 10 Awards) / 28 Mar. 2014]
      [Grand Prix du Jury (1/10) / 10 Apr. 2014]
    39. Yoichi Ochiai, Takayuki Hoshi, and Jun Rekimoto: Three-Dimensional Mid-Air Acoustic Manipulation,
      16th International Conferences and Exhibition of Virtual Technologies and Uses (Laval Virtual 2014), ReVolution, Laval (France), 9-13 Apr. 2014. [Demo]
      [Invited Pproject (One of 4 Projects)/ 6 Mar. 2014]
    40. Michinari Kono, Yasuaki Kakehi, and Takayuki Hoshi: lapillus bug,
      Proc. ACM SIGGRAPH Asia 2013, Art Gallery, Hong Kong (China), 19-22 Nov. 2013. [Demo] [Movie]
    41. Yoichi Ochiai, Alexis Oyama, Takayuki Hoshi, and Jun Rekimoto: Theory and Application of the Colloidal Display: Programmable Bubble Screen for Computer Entertainment,
      Proc. 10th International Conference on Advances in Computer Entertainment Technology (ACE 2013), pp. 198-214, Twente (Netherlands), 12-15 Nov. 2013.
      [Springer Diamond Award for best research (1/77) / 15 Nov. 2013]
    42. Pham Quang Trung, Takayuki Hoshi, Yoshihiro Tanaka, and Akihito Sano: Proposal of Tactile Sensor Development Based on Tissue Engineering,
      Proc. IEEE/RSJ International Conference on Intelligent Robots and Systems 2013 (IROS 2013), pp. 2030-2034, Tokyo (Japan), 3-8 Nov. 2013.
    43. Yoichi Ochiai, Alexis Oyama, Takayuki Hoshi, and Jun Rekimoto: Poppable Display: A Display Which Enables People to Interact with Popping, Breaking, and Tearing,
      Proc. 2013 IEEE 2nd Global Conference on Consumer Electronics (GCCE 2013), pp. 124-128, Makuhari (Japan), 1-4 Oct. 2013.
    44. Kei Nakatsuma, Takayuki Hoshi, and Ippei Torigoe: Haptic-Emoticon: A Framework for Creating and Sharing Haptic Contents,
      Proc. SICE Annual Conference 2013, pp. 218-222, Nagoya (Japan), 14-17 Sept. 2013.
    45. Takayuki Hoshi: Compact Device for Markerless Hand Tracking and Noncontact Tactile Feedback,
      Proc. SICE Annual Conference 2013, pp. 277-278, Nagoya (Japan), 14-17 Sept. 2013.
    46. Kei Nakatsuma, Takayuki Hoshi, and Ippei Torigoe: Haptic-Emoticon: A Platform for Creating and Sharing Haptic Contents,
      Proc. ACM SIGGRAPH 2013, Posters, Anaheim, California (USA), 21-25 July 2013. [Poster] [Movie]
    47. Yoichi Ochiai, Alexis Oyama, Takayuki Hoshi, and Jun Rekimoto: Reflective, Deformable, Colloidal Display: A Waterfall-Based Colloidal Membrane Using Focused Ultrasonic Waves,
      Proc. ACM SIGGRAPH 2013, Posters, Anaheim, California (USA), 21-25 July 2013. [Poster] [Movie]
      [Student Research Competition Semi-Finalist (15 student posters) / 23 July 2013]
    48. Gary M.Y. Hung, Nigel W. John, Chris Hancock, Derek A. Gould, and Takayuki Hoshi: UltraPulse - Simulating Arterial Pulse with Focused Airborne Ultrasound,
      Proc. 35th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC'13), pp. 2511-2514, Osaka (Japan), 3-7 July 2013.
    49. Kazuya Kikunaga, Takayuki Hoshi, Hiroshi Yamashita, Yoshitaka Fujii, and Kazuhiro Nonaka: Measuring Technique for Static Electricity Using Focused Sound,
      Journal of Electrostatics (12th International Conference on Electrostatics (Electrostatics 2013)), vol. 71, no. 3, pp. 554-557, Budapest (Hungary), 17-19 Apr. 2013.
      [Young Scientist Award (4 scientists below 35 years) / 19 Apr. 2013]
    50. Yoichi Ochiai, Alexis Oyama, Takayuki Hoshi, and Jun Rekimoto: Colloidal Display,
      15th International Conference and Exhibition on Virtual Reality and Converging Technologies (Laval Virtual 2013), ReVolution, Laval (France), 20-24 Mar. 2013. [Demo] [Movie]
      [Laval Virtual Awards 2013 Nominee]
    51. Takayuki Hoshi: Compact Ultrasound Device for Noncontact Interaction,
      Proc. Advances in Computer Entertainment Conference 2012 (ACE 2012), pp. 502-505, Kathmandu (Nepal), 3-5 Nov. 2012. [Demo] [Movie]
    52. Takayuki Hoshi: Development of Portable Device of Airborne Ultrasound Tactile Display,
      Proc. SICE Annual Conference 2012, pp. 290-292, Akita (Japan), 20-23 Aug. 2012.
    53. Takayuki Hoshi: Handwriting Transmission System Using Noncontact Tactile Display,
      Proc. IEEE Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems (IEEE Haptics Symposium 2012), pp. 399-401, Vancouver (Canada), 4-7 Mar. 2012. [Poster & Demo]
      [Best Demo Award Candidate (12/47) / 7 Mar. 2012]
    54. Takayuki Hoshi: Midair Input-Output Interface Consisting of Depth Camera and Noncontact Tactile Display,
      Proc. SICE Annual Conference 2011, pp. 608-609, Waseda (Japan), 13-18 Sept. 2011.
    55. Takayuki Hoshi: Development of Aerial-Input and Aerial-Tactile-Feedback System,
      Proc. 4th Joint Eurohaptics Conference and IEEE Haptics Symposium (IEEE World Haptics 2011), pp. 569-573, Istanbul (Turkey), 22-24 June 2011. [Poster & Demo]
    56. Takayuki Hoshi, Yuta Nishiyama, and Ippei Torigoe: Observations of Airflow Arising from Airborne Ultrasound Tactile Display,
      Proc. SICE Annual Conference 2010, pp. 384-385, Taipei (Taiwan), 18-21 Aug. 2010.
    57. Takayuki Hoshi, Daisu Abe, and Hiroyuki Shinoda: Adding Tactile Reaction to Hologram,
      Proc. 18th IEEE International Symposium on Robot and Human Interactive Communication (IEEE RO-MAN 2009), pp. 7-11, Toyama (Japan), 27 Sept. - 2 Oct. 2009. [Demo]
    58. Takayuki Hoshi, Masafumi Takahashi, Kei Nakatsuma, and Hiroyuki Shinoda: Touchable Holography,
      Proc. ACM SIGGRAPH 2009, Emerging Technologies, article no. 23, New Orleans, Louisiana (USA), 3-7 Aug. 2009. [Demo]
    59. Takayuki Hoshi, Takayuki Iwamoto, and Hiroyuki Shinoda: Non-contact Tactile Sensation Synthesized by Ultrasound Transducers,
      Proc. 3rd Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems (World Haptics 2009), pp. 256-260, Salt Lake City, Utah (USA), 18-20 Mar. 2009. [Poster & Demo]
    60. Takayuki Hoshi and Hiroyuki Shinoda: 3D Shape Measuring Sheet Utilizing Gravitational and Geomagnetic Fields,
      Proc. SICE Annual Conference 2008, pp. 915-920, Chofu (Japan), 20-22 Aug. 2008.
    61. Takayuki Iwamoto, Mari Tatezono, Takayuki Hoshi, and Hiroyuki Shinoda: Airborne Ultrasound Tactile Display,
      Proc. ACM SIGGRAPH 2008, New Tech Demos, article no. 1, Los Angeles, California (USA), 11-15 Aug. 2008. [Demo]
    62. Takayuki Hoshi and Hiroyuki Shinoda: Three-Dimensional Shape Capture Sheet Using Distributed Six-Axis Sensors,
      Proc. 5th International Conference on Networked Sensing Systems (INSS 2008), pp. 156-161, Kanazawa (Japan), 17-19 June 2008.
    63. Takayuki Hoshi and Hiroyuki Shinoda: Gravity-Based 3D Shape Measuring Sheet,
      Proc. SICE Annual Conference 2007, pp. 2126-2131, Takamatsu (Japan), 17-20 Sept. 2007.
      [SICE Annual Conference International Award (2/584) / 20 Sept. 2007]
    64. Takayuki Hoshi, Sayo Ozaki, and Hiroyuki Shinoda: Three-Dimensional Shape Capture Sheet Using Distributed Triaxial Accelerometers,
      Proc. 4th International Conference on Networked Sensing Systems (INSS 2007), pp. 207-212, Braunschweig (Germany), 6-8 June 2007.
    65. Takayuki Hoshi and Hiroyuki Shinoda: Free-Form Tactile Sensor Using 3-Dimensional Shape Capture Sheet,
      Proc. 2nd Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems (World Haptics 2007), pp. 403-408, Tsukuba (Japan), 22-24 Mar. 2007. [Poster]
    66. Takayuki Hoshi and Hiroyuki Shinoda: A Large Area Robot Skin Based on Cell-Bridge System,
      Proc. 5th IEEE Conference on Sensors (IEEE SENSORS 2006), pp. 827-830, Daegu (Korea), 22-25 Oct. 2006.
    67. Takayuki Hoshi, Akimasa Okada, Yasutoshi Makino, and Hiroyuki Shinoda: A Whole Body Artificial Skin Based on Cell-Bridge Networking System,
      Proc. 3rd International Conference on Networked Sensing Systems (INSS 2006), pp. 55-60, Rosemont, Illinois (USA), 31 May - 2 June 2006.
    68. Takayuki Hoshi and Hiroyuki Shinoda: Robot Skin Based on Touch-Area-Sensitive Tactile Element,
      Proc. 2006 IEEE International Conference on Robotics and Automation (ICRA 2006), pp. 3463-3468, Orlando, Florida (USA), 15-19 May 2006.
    69. Takayuki Hoshi and Hiroyuki Shinoda: A Sensitive Skin Based on Touch-Area-Evaluating Tactile Elements,
      Proc. Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems (Haptics Symposium 2006), pp. 89-94, Alexandria, Virginia (USA), 25-26 Mar. 2006.
    70. Takayuki Hoshi and Hiroyuki Shinoda: A Tactile Sensing Element for a Whole Body Robot Skin,
      Proc. 36th International Symposium on Robotics (ISR 2005), TU412, Tokyo (Japan), 29 Nov. - 1 Dec. 2005.
    71. Takayuki Hoshi and Hiroyuki Shinoda: Tactile Sensing Using Nonlinear Elasticity,
      Proc. SICE Annual Conference 2005, pp. 2978-2981, Okayama (Japan), 8-10 Aug. 2005.

    Talk

    1. Takayuki Hoshi: Three-dimensional Mid-air Acoustic Manipulation Using Ultrasonic Phased Arrays, NITech Symposium on Acoustic Waves Research, Nagoya (Japan), 16 Dec. 2014.
    2. Takayuki Hoshi: Applications of Focused Ultrasound, NITech International Symposium on Technologies for "Unreachable" Things, Nagoya (Japan), 11 Dec. 2014.
    3. Takayuki Hoshi: Principles and Applications of Airborne Ultrasound Tactile Display, Seminar at Cardiff University, Cardiff, Wales (UK), 21 July 2011.
    4. Takayuki Hoshi: Principles and Applications of Airborne Ultrasound Tactile Display, Seminar at Bangor University, Bangor, Wales (UK), 20 July 2011.

    Demontration / Exhibition / Awards

    1. Yoichi Ochiai: Pixie Dust, Fairy Lights in Femtoseconds, and Holographic Whisper, Image and Matter - Cyber Arts and Science Towards Digital Nature, Kuala Lumpur (Malaysia), 11 Dec. 2016 - 14 Jan. 2017.
    2. Pixie Dust Technologies, Inc.: Holographic Whisper, Digital Content EXPO, Miraikan, 27-30 Oct. 2016.
      [Innovative Technologies 2016 (20/80) / 2 Sept. 2016]
    3. Yoichi Ochiai and Takayuki Hoshi: Holographic Whisper, Artist Lab Yoichi Ochiai, Ars Electronica Festival 2016, Linz (Austria), 8-12 Sept. 2016.
    4. Yoichi Ochiai, Kota Kumagai, Takayuki Hoshi, Jun Rekimoto, Satoshi Hasegawa, and Yoshio Hayasaki: Fairy Lights in Femtoseconds, Ars Electronica Festival 2016, Linz (Austria), 8-12 Sept. 2016.
      [Prix Ars Electronica / Interactive Art + / Honorary Mentions (61/3,159) / 10 May 2016]
      [STARTS (Science+Technology+Arts) Prize / Honorary Mentions (12/30) / 23 June 2016] WEB
    5. Yasuaki Kakehi, Michinari Kono, and Takayuki Hoshi: EARTH LAB / Lapillus Bug, Red October Chocolate Factory, Moscow (Russia), 22 June - 25 Sept. 2016.
    6. Yoichi Ochiai, Kota Kumagai (Takayuki Hoshi, Satoshi Hasegawa, Yoshio Hayasaki): Fairy Lights in Femtoseconds, 2015 Asia Digital Art Award FUKUOKA Exhibition, Fukuoka Asian Art Museum, 28 Feb. - 1 Mar. 2016.
      [Interactive Art Awards for Excellence (next to Grand Prize) / 27 Nov. 2015]
    7. Yoichi Ochiai: From Pixels towards Pixies: Vision of Post Multimedia Interactions / Pixie Dust Technologies, The 2015 World Technology Summit and Awards, New York (USA), 19-20 Nov. 2015.
      [World Technology Award Winner / IT Hardware (1/20) / 20 Nov. 2015]
    8. Michinari Kono, Takayuki Hoshi, and Yasuaki Kakehi: Materia prima / Lapillus Bug, LABoral Centro de Arte y Creacion Industrial, Madrid (Spain), 14 Nov. 2015 - 8 May 2016.
    9. Digital Nature Group, University of Tsukuba / Hayasaki & Hasegawa Laboratory, Utsunomiya University / Hoshi Laboratory, Nagoya Institute of Technology: Fairy Lights in Femtoseconds, Digital Content EXPO, Miraikan, 22-25 Oct. 2015.
      [Innovative Technologies 2015 (20/69) / 10 Sept. 2015]
    10. Nagoya Institute of Technology Star Laboratory: Airborne Ultrasound Focusing Device, CEATEC JAPAN, 4N65-52, Makuhari (Japan), 7-10 Oct. 2015.
    11. Yoichi Ochiai: Anti-Gravity Soundscape, Ars Electronica Center Annual Exhibition, Linz (Austria), Oct. 2015 - Sept. 2016.
    12. University of Tsukuba Digital Nature Group: Colloidal Media Compositions / Anti-Gravity Soundscape, Ars Electronica Festival 2015 Knowledge Capital, Linz (Austria), 3-7 Sept. 2015.
    13. Yoichi Ochiai and Takayuki Hoshi: Pixie Dust, SLUSH ASIA, Tokyo (Japan), 24 Apr. 2015.
    14. Yoichi Ochiai and Takayuki Hoshi: Pixie Dust, South by Southwest (SXSW) Trade Show, Austin, Texas (USA), 15-18 Mar. 2015.
    15. Laboratoire revolutionnaire et romantique, The University of Tokyo / Hoshi laboratory, Nagoya Institute of Technology: Pixie Dust, Digital Content EXPO, Miraikan, 23-26 Oct. 2014.
      [Innovative Technologies 2014 (20/53) / 6 Sept. 2014]
      [Innovative Technologies 2014 Special Prize (Culture) (5/20) / 23 Oct. 2014]
    16. Michinari Kono, Takayuki Hoshi, and Yasuaki Kakehi: Lapillus Bug, Ars Electronica Center Annual Exhibition, Linz (Austria), Sept. 2014 - Oct. 2015.
    17. Michinari Kono, Takayuki Hoshi, and Yasuaki Kakehi: Lapillus Bug, Ars Electronica Festival 2014 Future Innovator Summit, Linz (Austria), 4-8 Sept. 2014.
    18. Takayuki Hoshi: Compact Ultrasound Device for Noncontact Interaction, Exhibition and Workshop on Future of Media Art and Computer Entertainment, Kathmandu (Nepal), 2-3 Nov. 2012.
    19. Kevin C. Kahn: Crossing the Chasm between Humans and Machines / Haptic Rendering with Ultrasound Phased Array (Invited Demonstrator: Takayuki Hoshi),
      Intel Developer Forum Taiwan 2008 (IDF Taiwan 2008), Research and Development Keynote, Taipei (Taiwan), 20-21 Oct. 2008. [Webcast (26:07 - 29:37)]

    Media

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    2. Hideki Kato: Japanese scientists invent floating 'firefly' light, Reuters, 23 Feb. 2018.
    3. Pixie Dust Technologies and Tsukuba University Digital Nature Laboratory presents their latest research achievement at CHI 2017 "Focus speaker based on ultrasonic phased-array technology" / Holographic Whisper, ValuePress!, 8 May 2017.
    4. Alberto Motta: Grassffiti, il tosaerba che, anziche falciare il prato, disegna, WIRED.IT, 23 Dec. 2016.
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    7. Echchadi Youness: Holographic speaker that emits sounds at particular 3D point, Sci2, 8 Nov. 2016.
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    9. Pixie Dust Technologies demonstrated a new product at DIGITAL CONTENT EXPO 2016 (27-30 Oct.) "Focus speaker based on ultrasonic phased-array technology" / Holographic Whisper, ValuePress!, 2 Nov. 2016.
    10. MAX: En la onda Black Mirror: llegan parlantes que pueden susurrarte al oido y en 3-D, POUSTA, 1 Nov. 2016.
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    35. Hologramas que se pueden tocar , ABC.es, 2 July 2015.
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    46. Nancy Owano: Images in the air: Researchers turn to femtosecond lasers, Phys.org, 30 June 2015.
    47. Don Melanson: Researchers' 'Fairy Lights' Promise Floating, Touchable Laser Displays, Tech Times, 29 June 2015.
    48. Kyle Hill: The Future of Holograms are 3D Plasma Displays You can Touch, Nerdist, 29 June 2015.
    49. Vaughn Highfield: Scientists develop incredible holograms you can touch, alphr, 29 June 2015.
    50. Victoria Woollaston: The 3D holograms you can TOUCH: High-speed lasers create images that respond to strokes without burning the skin, Mail Online, 29 June 2015.
    51. John Biggs: Researchers Use Femtosecond Lasers To Display Touchable Images In The Air, TechCrunch, 29 June 2015.
    52. Fairy Lights Holographic Display, Stereoscopy News, 29 June 2015.
    53. Sushma Subramanian: Top five neat things I saw this week / Diminished Haptics, The Fifth Sense, June 2015.
    54. Mark Bruce: Functional artificial neuron, Free-air holograms, Digital microfluidics, Nuclear spin computing, Ultra-high-res 3D prints / 4. Free-Air Holograms from Femtosecond Lasers, SciTech Digest A Top 10 selection of scientific and technological advances each week, 28 June 2015.
    55. Mike Murphy: Scientists have created 3D holograms that you can touch, Quarts, 27 June 2015.
    56. Michael Byrne: Plasma-Based Midair Displays Are a Beautiful Techno-Future, Motherboard, 27 June 2015.
    57. Jason Dorrier: This Touchable Midair 3D Laser Display Is Pretty Magical, SingularityHUB, 26 June 2015.
    58. Touch This Hologram..Wow, Shocking Science, 26 June 2015.
    59. Android: A superfast laser wants us to feel how it is to play a hologram, Cnn Hit New, 26 June 2015.
    60. Dave Gershgorn: Superfast Lasers Create a Hologram You Can Touch, Popular Science, 26 June 2015.
    61. Evan Ackerman: Femtosecond Lasers Create 3-D Midair Plasma Displays You Can Touch, IEEE Spectrum, 26 June 2015.
    62. Johnny: Japanese Researchers Create Interactive Aerial Holograms Using Femtosecond Lasers, Spoon & Tamago, 25 June 2015.
    63. Felix Knoke: Interaktives Hologramm schwebt in der Luft, Engadget DE, 24 June 2015.
    64. Levitacion sonora, El Hormiguero 3.0 (Antena 3), 9 June 2015. [Full]
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    66. Video of the Month - 3D Mid-Air Acoustic Manipulation, E-Tabs News, 26 Mar. 2015.
    67. J.T. Quigley: Todai to Texas: These Japanese hardware startups wowed the crowd at SXSW (part 1) / Pixie Dust, TECHINASIA, 24 Mar. 2015.
    68. Adam Balkin: Technologies Showcased on South By Southwest Expo Floor / Pixie Dust Technologies, Time Warner Cable News NY1, 18 Mar. 2015.
    69. USA: Check out the latest hi-tech gadgets to hit SXSW, Ruptly TV, 17 Mar. 2015. [YouTube]
    70. Our team taking a first look at levitating particle technology and it's application for healthcare, Ogilvy CommonHealth Worldwide, 17 Mar. 2015.
    71. Rex St John: 5 Amazing IoT Demos from SXSW 2015 / #3 Ultrasound Levitation, Interl Software & Services, 15 Mar. 2015.
    72. Kieron Monks: Can levitating appliances take off?, CNN, 29 Aug. 2014.
    73. Yuta Sugiura, dibujar sobre alfombras, Folio, 27 Aug. 2014.
    74. David Cohn: Wowing Them in Vancouver at SIGGRAPH 2014, Desktop Engineering, 26 Aug. 2014.
    75. Francois Castro Lara: Graffiti Fur : une machine qui permet de reproduire un dessin sur un tapis, Creapills, 25 Aug. 2014.
    76. Pinar: DIY Carpet Paintings Use Technology To Bring Art To Your Floors Without A Mess, Distractify, 23 Aug. 2014.
    77. Realiteti virtual do te behet edhe me i mahnitshem me keto teknologji, PCWorld, 23 Aug. 2014.
    78. Michael Cruickshank: Turn Your Carpet Into A Work Of Art, versus, 22 Aug. 2014.
    79. Drew Prindle: Graffiti Fur is a carpet printer that brushes giant pictures onto your rug, Digital Trends, 21 Aug. 2014.
    80. Alvy: Autenticos <> que levitan como formas 3D, Microsiervos, 21 Aug. 2014.
    81. Graffiti Fur zaubert Kunstwerke auf den Teppich, Ausgefallene-Ideen, 20 Aug. 2014.
    82. Graffiti Fur - Des etudiants inventent un gadget pour dessiner sur les tapis et moquettes, UFUNK, 20 Aug. 2014.
    83. Andrew Liszewski: This Clever Carpet "Printer" Brushes Pictures Onto Your Rugs, GIZMODO, 15 Aug. 2014.
    84. Matt Kieltyka: SIGGRAPH brings tomorrow's technology to Vancouver today / Pixie Dust, Metro News, 11 Aug. 2014.
    85. SIGGRAPH 2014 RELEASES EMERGING TECHNOLOGIES PREVIEW, The Official SIGGRAPH 2014 Blog, 30 July 2014.
    86. Julien Happich: EUROHAPTICS 2014 / Augmented reality gets physical with haptics / Diminished Haptics, EETimes europe, July/Aug. 2014.
    87. Nobi Oda: "Digital-age Alchemist" Yoichi Ochiai Overwrites the World, IGNITiON, 7 July 2014.
    88. Pixie Dust, iXBT.com, 7 July 2014.
    89. Chris Davies: This incredible floating display belongs in a sci-fi movie, Slash Gear, 3 July 2014.
    90. SIGGRAPH 2014 TECHNICAL PAPERS PREVIEW, The Official SIGGRAPH 2014 Blog, 2 July 2014.
    91. SIGGRAPH 2014 Technical Papers Preview, Business Wire, 2 July 2014.
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    93. Pixie Dust, HOBOCTU, 4 June 2014.
    94. Levitating particles could make up future TV screens, Business Standard, 1 June 2014.
    95. Zeynel A. Ozturk: Tozu piksel olarak kullanan teknoloji!, Chip Online, 30 May 2014.
    96. Elizabeth Kreft: Seeing Is Believing: Researchers Use Sound to Create Floating Particles, The Blaze, 30 May 2014.
    97. Kyle VanHemert: A Crazy Levitating Display, Made With Particles and Projectors, Wired, 30 May 2014.
    98. Levitating particles could make up TV screens of the future, Science Alert, 30 May 2014.
    99. Pixie Dust, Daily Tech Info, 30 May 2014.
    100. Dario Mastromattei: Polvere di pixel in grado di creare immagini nell'aria, TECNOYOUTH, 29 May 2014.
    101. Hanghullamok segitsegevel hoz letre terbeli kepet a Pixie Dust kijelz, PC FORUM, 29 May 2014.
    102. Andrew Liszewski: Esta tecnologia inacreditavel de tela usa particulas flutuantes como pixels, GIZMODO BRASIL, 28 May 2014.
    103. ccoppola: La polvere di pixel che forma immagini e animazioni, nell'aria, GIZMODO DIGITAL LIFESTYLE, 28 May 2014.
    104. Boris Houssou: Et si nos pixels communs etaient remplaces par des minuscules particules en levitation?, La Nouvelle Tribune, 27 May 2014.
    105. Octavio Lopez: Pixie Dust Display es el futuro de las pantallas con hologramas, conectica, 27 May 2014.
    106. Carlos Zahumenszky: Los pixeles de esta pantalla 3D son particulas que flotan en el aire, GIZMODO en Espanol, 27 May 2014.
    107. Andrew Liszewski: Unbelievable Display Technology Uses Levitating Particles as Pixels, GIZMODO, 27 May 2014.
    108. Jim Thacker: Videos: the best of Siggraph 2014's technical papers / Pixie Dust, cgchannel.com, 27 May 2014.
    109. Marc Abrahams: On the up and up: levitating particles & a frog, with sound & magnets, Impossible Research (Official Blog of Ig Nobel Prizes), 24 Apr. 2014.
    110. VIDEO. Levitation par ultrasons, Sciences et Avenir, 16 Apr. 2014.
    111. Video - Nouveau du 15/04/2014, Telematin (France2), 15 Apr. 2014.
    112. Eliane Hong: [Laval Virtual] Les ondes acoustiques comme moyen de levitation d'objets en trois dimensions, L'Atelier, 14 Apr. 2014.
    113. Laval virtual : les innovations a la portee des curieux, Cote Laval, 13 Apr. 2014.
    114. Laval Virtual ouvre ses portes au public ce samedi / Magique, ouest france, _LVL10, 12-13 Apr. 2014.
    115. Aux rencontres de Laval Virtual, le virtuel n'a jamais ete aussi reel, Notre temps, 10 Apr. 2014.
    116. Jacques Cheminat: Laval Virtual 2014 : La realite virtuelle se democratise, les usages se developpent, Le Monde Informatique, 10 Apr. 2014.
    117. Laval Virtual 2014 | Japanese Fantasy en Pays de la Loire, Region Pays de la Loire, 10 Apr. 2014. [YouTube]
    118. Laval Virtual 2014 : 16eme edition, LaMayenneTV, 9 Apr. 2014. [YouTube]
    119. Laval Virtual : robots humains et levitation ! / Une experience de levitation, Cote Laval, 7 Apr. 2014.
    120. Andrew Grant: Levitating objects with sound, Science News, 18 Feb. 2014.
    121. Rob Muir: Engineers float new concept for acoustic levitation, Reuters, 31 Jan. 2014. [YouTube]
    122. Jon M. Chang: Levitation Doesn't Require Magic, Just Special Speakers, ABC News, 7 Jan. 2014.
    123. Philip Ross: Scientists Use Sound Waves To Suspend And Manipulate Objects In Midair, How Does 'Acoustic Levitation' Work?, International Business Times, 6 Jan. 2014.
    124. Dan Vergano: Scientists Move Levitating Objects Through Space for the First Time, National Geographic, 6 Jan. 2014.
    125. Kevin Van der Auwera: Video: geluidsgolven laten objecten in drie dimensies bewegen, datanews, 6 Jan. 2014.
    126. Rhett Allain: How Do You Levitate Things With Sound?, Wired, 6 Jan. 2014.
    127. Ryan Grenoble: 'Acoustic Levitation' VIDEO Makes Us Yearn For A Speaker Setup Like This, The Huffington Post, 5 June 2014.
    128. Deborah Netburn: Watch! Small objects levitate, dance on sound waves you can't hear, Los Angeles Times, 4 Jan. 2014.
    129. Matthieu Mondoloni: Des scientifiques japonais font voler des objets grace au son, france info, 3 Jan. 2014.
    130. Evan Ackerman: Video of the Day: Acoustic levitation, DVICE, 3 June 2014.
    131. James Vincent: Watch this: Japanese scientists levitate and move objects around using just soundwaves, The Independent, 3 Jan. 2014.
    132. Japan: Scientists levitate objects with acoustic Magneto powers, Ruptly TV, 3 Jan. 2014.
    133. James Beattie: Acoustic Levitation: The Uplifting Power of Sound, CNSNews, 3 June 2014.
    134. Sound wave 3Dvolution: Japanese scientists move objects using acoustic levitation, RT, 3 Jan. 2014.
    135. Ralphie Aversa: Japanese Scientists Levitate Objects with Sound, Yahoo! News, 3 Jan. 2014.
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    137. Carlos Cardoso: Wingardium Leviosa - A Magia da Levitacao, via ciencia, MeioBit, 2 June 2014.
    138. Sarah Griffiths: Could hoverboards be closer than we think? Researchers develop way to levitate objects in 3D space using sound, Mail Online, 2 Jan. 2014.
    139. Richard Gray: Acoustic levitation: how sound can get physical, The Telegraph, 2, Jan. 2014.
    140. Kyle VanHemert: Whoa: Watch Scientists Use Sound Waves to Make Things Levitate, Wired, 2 Jan. 2014.
    141. Jon Fingas: Watch an ultrasonic array move objects in 3D space, engadget, 2 Jan. 2014.
    142. Jesus Diaz: Jedi scientists make things fly around in space using sound waves, SPLOID, 1 Jan. 2014.
    143. Christopher Jobson: One Step Closer to Hover Boards: Three-Dimensional Mid-Air Acoustic Manipulation, COLOSSAL, 1 Jan. 2014.
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    154. Technology / Ultrasound to Give Feel to Games, BBC News, 2 Sept. 2008.

    Takayuki Hoshi: star(at)hoshistar81.jp