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Homei Miyashita
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2020 – today
- 2023
- [c58]Yosuke Oba, Homei Miyashita:
Effect of a Cursor Warping Left and Right of the Notch. CHI Extended Abstracts 2023: 95:1-95:8 - [c57]Nobuhito Kasahara, Yosuke Oba, Shota Yamanaka, Wolfgang Stuerzlinger, Homei Miyashita:
Throughput and Effective Parameters in Crossing. CHI Extended Abstracts 2023: 282:1-282:9 - [c56]Shota Yamanaka, Taiki Kinoshita, Yosuke Oba, Ryuto Tomihari, Homei Miyashita:
Varying Subjective Speed-accuracy Biases to Evaluate the Generalizability of Experimental Conclusions on Pointing-facilitation Techniques. CHI 2023: 317:1-317:13 - [c55]Takegi Yoshimoto, Nobuhito Kasahara, Homei Miyashita:
Fabrication of Edible lenticular lens. SIGGRAPH Posters 2023: 46:1-46:2 - [c54]Takegi Yoshimoto, Shuto Murakami, Homei Miyashita:
Edible Lenticular Lens Design System. UIST (Adjunct Volume) 2023: 21:1-21:3 - [c53]Miku Fukaike, Homei Miyashita:
How To Eat Garlic Without Causing Bad Breath: Taste reproduction using a taste sensor and presentation of taste and aroma using a fork device. UIST (Adjunct Volume) 2023: 27:1-27:3 - [c52]Homei Miyashita, Yoshinobu Kaji, Ai Sato:
Electric Salt: Tableware Design for Enhancing Taste of Low-Salt Foods. UIST (Adjunct Volume) 2023: 32:1-32:3 - 2022
- [j7]Yoshinobu Kaji, Ai Sato, Homei Miyashita:
Design of Electrical Stimulation Waveform for Enhancing Saltiness and Experiment on Low-Sodium Dieters. Frontiers Virtual Real. 3 (2022) - [j6]Hiroki Usuba, Shota Yamanaka, Junichi Sato, Homei Miyashita:
Predicting Touch Accuracy for Rectangular Targets by Using One-Dimensional Task Results. Proc. ACM Hum. Comput. Interact. 6(ISS): 525-537 (2022) - [j5]Shota Yamanaka, Hiroki Usuba, Wolfgang Stuerzlinger, Homei Miyashita:
The Effectiveness of Path-Segmentation for Modeling Lasso Times in Width-Varying Paths. Proc. ACM Hum. Comput. Interact. 6(ISS): 640-659 (2022) - [c51]Shota Yamanaka, Hiroki Usuba, Homei Miyashita:
Bivariate Effective Width Method to Improve the Normalization Capability for Subjective Speed-accuracy Biases in Rectangular-target Pointing. CHI 2022: 211:1-211:13 - [c50]Homei Miyashita, Hidenori Aoki:
Ha and Fu: Interface to Breathe on a Smartphone. VRST 2022: 60:1-60:2 - [c49]Homei Miyashita:
TTTV2 (Transform the Taste and Visual Appearance): Tele-eat virtually with a seasoning home appliance that changes the taste and appearance of food or beverages. VRST 2022: 78:1-78:2 - [c48]Homei Miyashita:
TTTV2 makes it possible for people with shellfish allergies to still enjoy the taste of crab virtually. VRST 2022: 79:1-79:2 - [c47]Homei Miyashita:
Virtual eating experience of poisonous mushrooms using TTTV2. VRST 2022: 81:1-81:2 - 2021
- [j4]Hiroki Usuba, Shota Yamanaka, Homei Miyashita:
Modeling Movement Times and Success Rates for Acquisition of One-dimensional Targets with Uncertain Touchable Sizes. Proc. ACM Hum. Comput. Interact. 5(ISS): 487:1-487:15 (2021) - [c46]Homei Miyashita:
TTTV (Taste the TV): Taste Presentation Display for "Licking the Screen" using a Rolling Transparent Sheet and a Mixture of Liquid Sprays. UIST (Adjunct Volume) 2021: 37-40 - 2020
- [c45]Homei Miyashita:
Norimaki Synthesizer: Taste Display Using Ion Electrophoresis in Five Gels. CHI Extended Abstracts 2020: 1-6 - [c44]Shota Yamanaka, Hiroki Usuba, Haruki Takahashi, Homei Miyashita:
Peephole Steering: Speed Limitation Models for Steering Performance in Restricted View Sizes. Graphics Interface 2020: 461-469 - [c43]Hiroki Usuba, Shota Yamanaka, Homei Miyashita:
A Model for Pointing at Targets with Different Clickable and Visual Widths and with Distractors. OZCHI 2020: 1-10 - [c42]Shota Yamanaka, Hiroki Usuba, Haruki Takahashi, Homei Miyashita:
Servo-Gaussian Model to Predict Success Rates in Manual Tracking: Path Steering and Pursuit of 1D Moving Target. UIST 2020: 844-857 - [c41]Homei Miyashita:
Taste Display that Reproduces Tastes Measured by a Taste Sensor. UIST 2020: 1085-1093
2010 – 2019
- 2019
- [c40]Saraha Ueno, Kazuma Aoyama, Hiromi Nakamura, Homei Miyashita:
Controlling Temporal Change of a Beverage's Taste Using Electrical Stimulation. CHI Extended Abstracts 2019 - [c39]Kaito Yamada, Hiroki Usuba, Homei Miyashita:
Modeling Drone Pointing Movement with Fitts' Law. CHI Extended Abstracts 2019 - [c38]Kaito Yamada, Hiroki Usuba, Homei Miyashita:
Modeling Drone Crossing Movement with Fitts' Law. HCI (LBP) 2019: 422-432 - [c37]Hiroki Usuba, Shota Yamanaka, Homei Miyashita:
Touch Pointing Performance for Uncertain Touchable Sizes of 1D Targets. MobileHCI 2019: 20:1-20:8 - [c36]Mayumi Nakanishi, Hiroki Usuba, Homei Miyashita:
Effects of Delboeuf Illusion on Pointing Performance. OZCHI 2019: 476-479 - [c35]Shota Yamanaka, Homei Miyashita:
Modeling Pen Steering Performance in a Single Constant-width Curved Path. ISS 2019: 65-76 - [c34]Shota Yamanaka, Hiroaki Shimono, Homei Miyashita:
Towards More Practical Spacing for Smartphone Touch GUI Objects Accompanied by Distractors. ISS 2019: 157-169 - [c33]Hiroki Usuba, Shota Yamanaka, Homei Miyashita:
Comparing Lassoing Criteria and Modeling Straight-line and One-loop Lassoing Motions Considering Criteria. ISS 2019: 181-191 - 2018
- [c32]Kunihiro Kato, Hiroki Ishizuka, Hiroyuki Kajimoto, Homei Miyashita:
Double-sided Printed Tactile Display with Electro Stimuli and Electrostatic Forces and its Assessment. CHI 2018: 450 - [c31]Shota Yamanaka, Wolfgang Stuerzlinger, Homei Miyashita:
Steering through Successive Objects. CHI 2018: 603 - [c30]Hiroki Usuba, Shota Yamanaka, Homei Miyashita:
User performance by the difference between motor and visual widths for small target pointing. NordiCHI 2018: 161-169 - [c29]Hiroki Usuba, Shota Yamanaka, Homei Miyashita:
Pointing to targets with difference between motor and visual widths. OZCHI 2018: 374-383 - [c28]Naoshi Ooba, Kazuma Aoyama, Hiromi Nakamura, Homei Miyashita:
Unlimited Electric Gum: A Piezo-based Electric Taste Apparatus Activated by Chewing. UIST (Adjunct Volume) 2018: 157-159 - 2017
- [c27]Mayuka Doi, Homei Miyashita:
Koto Learning Support Method Considering Articulations. ACE 2017: 368-383 - [c26]Shota Yamanaka, Wolfgang Stuerzlinger, Homei Miyashita:
Steering Through Sequential Linear Path Segments. CHI 2017: 232-243 - [c25]Jeeeun Kim, Haruki Takahashi, Homei Miyashita, Michelle Annett, Tom Yeh:
Machines as Co-Designers: A Fiction on the Future of Human-Fabrication Machine Interaction. CHI Extended Abstracts 2017: 790-805 - [c24]Haruki Takahashi, Homei Miyashita:
Expressive Fused Deposition Modeling by Controlling Extruder Height and Extrusion Amount. CHI 2017: 5065-5074 - [c23]Kunihiro Kato, Homei Miyashita, Hiroyuki Kajimoto, Hiroki Ishizuka:
Tactile Element with Double-sided Inkjet Printing to Generate Electrostatic Forces and Electrostimuli. UIST (Adjunct Volume) 2017: 31-33 - 2016
- [c22]Shota Yamanaka, Homei Miyashita:
Modeling the Steering Time Difference between Narrowing and Widening Tunnels. CHI 2016: 1846-1856 - [c21]Shota Yamanaka, Homei Miyashita:
Scale Effects in the Steering Time Difference between Narrowing and Widening Linear Tunnels. NordiCHI 2016: 12 - [c20]Kunihiro Kato, Homei Miyashita:
3D Printed Physical Interfaces that can Extend Touch Devices. UIST (Adjunct Volume) 2016: 47-49 - [c19]Haruki Takahashi, Homei Miyashita:
Thickness Control Technique for Printing Tactile Sheets with Fused Deposition Modeling. UIST (Adjunct Volume) 2016: 51-53 - [c18]Saraha Ueno, Kunihiro Kato, Homei Miyashita:
A Tangible Interface to Realize Touch Operations on the Face of a Physical Object. UIST (Adjunct Volume) 2016: 81-83 - [c17]Yoh Akiyama, Homei Miyashita:
Fitter: A System for Easily Printing Objects that Fit Real Objects. UIST (Adjunct Volume) 2016: 129-131 - 2015
- [c16]Kunihiro Kato, Homei Miyashita:
ExtensionSticker: A Proposal for a Striped Pattern Sticker to Extend Touch Interfaces and its Assessment. CHI 2015: 1851-1854 - [c15]Kunihiro Kato, Homei Miyashita:
Creating a Mobile Head-mounted Display with Proprietary Controllers for Interactive Virtual Reality Content. UIST (Adjunct Volume) 2015: 35-36 - 2014
- [j3]Koray Tahiroglu, Valtteri Wikström, Simon Overstall, Thomas Svedström, Johan Kildal, Teemu Tuomas Ahmaniemi, Kiel Long, John Vines, Hiromi Nakamura, Homei Miyashita, EunJin Kim, Romy Achituv:
Demo hour. Interactions 21(1): 10-13 (2014) - [c14]Yoh Akiyama, Homei Miyashita:
Electronic kit with no current flow that uses projection mapping. CHI Extended Abstracts 2014: 155-156 - [c13]Yoh Akiyama, Homei Miyashita:
Projectron mapping: the exercise and extension of augmented workspaces for learning electronic modeling through projection mapping. UIST (Adjunct Volume) 2014: 57-58 - [c12]Kunihiro Kato, Homei Miyashita:
Extension sticker: a method for transferring external touch input using a striped pattern sticker. UIST (Adjunct Volume) 2014: 59-60 - [c11]Shota Yamanaka, Homei Miyashita:
Vibkinesis: notification by direct tap and 'dying message' using vibronic movement controllable smartphones. UIST 2014: 535-540 - 2013
- [c10]Hiromi Nakamura, Homei Miyashita:
Enhancing saltiness with cathodal current. CHI Extended Abstracts 2013: 3111-3114 - [c9]Shota Yamanaka, Homei Miyashita:
Switchback Cursor: Mouse Cursor Operation for Overlapped Windowing. INTERACT (1) 2013: 746-753 - [c8]Hiromi Nakamura, Homei Miyashita:
Controlling saltiness without salt: evaluation of taste change by applying and releasing cathodal current. CEA@ACM Multimedia 2013: 9-14 - [c7]Shota Yamanaka, Homei Miyashita:
The nudging technique: input method without fine-grained pointing by pushing a segment. UIST (Adjunct Volume) 2013: 3-4 - 2012
- [j2]Monika Hoinkis, Roger Ibars, Hiromi Nakamura, Homei Miyashita, Kurtis Heimerl, Brian Gawalt, Kuang Chen, Tapan S. Parikh, Björn Hartmann:
Demo hour. Interactions 19(6): 6-7 (2012) - [c6]Hiromi Nakamura, Homei Miyashita:
Development and evaluation of interactive system for synchronizing electric taste and visual content. CHI 2012: 517-520 - 2011
- [c5]Mieko Nakamura, Homei Miyashita:
Catchy account: a system for acquiring a realistic sense of expenditures. AH 2011: 29 - [c4]Hiromi Nakamura, Homei Miyashita:
Augmented gustation using electricity. AH 2011: 34 - [c3]Hiromi Nakamura, Homei Miyashita:
Communication by change in taste. CHI Extended Abstracts 2011: 1999-2004 - 2010
- [c2]Hiromi Nakamura, Homei Miyashita:
Control of augmented reality information volume by glabellar fader. AH 2010: 20
2000 – 2009
- 2004
- [j1]Homei Miyashita:
Development and utilization of Asobiuta karaoke for elementary music education on the internet. Comput. Entertain. 2(1): 15 (2004) - [c1]Homei Miyashita, Kazushi Nishimoto:
Thermoscore: A New-type Musical Score with Temperature Sensation. NIME 2004: 104-107
Coauthor Index
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last updated on 2024-04-25 01:18 CEST by the dblp team
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