The following publications are possibly variants of this publication:
- Toward quality texture display: vibrotactile stimuli to modify material roughness sensationsS. Asano, S. Okamoto, Y. Matsuura, Y. Yamada. ar, 28(16):1079-1089, 2014. [doi]
- High-Quality Texture Display: The Use of Vibrotactile and Variable-Friction Stimuli in ConjunctionKen Ito, Shogo Okamoto, Hatem Elfekey, Yoji Yamada. asiahaptics 2018: 125-130 [doi]
- Virtual roughness textures via a surface tactile texture display using vibrotactile and electrostatic friction stimuli: Improved realismKazuya Otake, Hikaru Hasegawa, Shogo Okamoto, Yoji Yamada. hsi 2020: 147-152 [doi]
- Tactile Texture Display with Vibrotactile and Electrostatic Friction Stimuli Mixed at Appropriate Ratio Presents Better Roughness TexturesKen Ito, Shogo Okamoto, Yoji Yamada, Hiroyuki Kajimoto. tap, 16(4), 2019. [doi]
- Virtual tactile texture using electrostatic friction display for natural materials: The role of low and high frequency textural stimuliKazuya Otake, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada. ro-man 2021: 392-397 [doi]
- A texture display using vibrotactile and electrostatic friction stimuli surpasses one based on either type of stimulusKen Ito, Shogo Okamoto, Hatem Elfekey, Hiroyuki Kajimto, Yoji Yamada. SMC 2017: 2343-2348 [doi]
- Tactile Texture Display Combining Vibrotactile and Electrostatic-friction Stimuli: Substantial Effects on Realism and Moderate Effects on Behavioral ResponsesKazuya Otake, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada. tap, 19(4), 2022. [doi]