https://orcid.org/0000-0003-0300-8748
References
- Aghajani Pedram S, Klatzky R, Berkelman P. 2017. Torque contribution to haptic rendering of virtual textures. IEEE Trans Haptics. 10:567–579. doi:10.1109/TOH.2017.2679000.
- Bau O, Poupyrev I, Israr A, Harrison C. 2010. TeslaTouch: electrovibration for touch surfaces. In: Proceedings of UIST 2010. New York, NY; p. 283–292.
- Bensmaïa S, Hollins M, Yau J. 2005. Vibrotactile intensity and frequency information in the pacinian system: a psychophysical model. Percept Psychophys. 67:828–841. doi:10.3758/BF03193536.
- Bergmann Tiest W. 2010. Tactual perception of material properties. Vision Res. 50:2775–2782. doi:10.1016/j.visres.2010.10.005.
- Bergmann Tiest WM, Kappers AM. 2006. Analysis of haptic perception of materials by multidimensional scaling and physical measurements of roughness and compressibility. Acta Psychol (Amst). 121:1–20. doi:10.1016/j.actpsy.2005.04.005.
- Bodas P, Friesen RF, Nayak A, Tan HZ, Klatzky RL. 2019. Roughness rendering by sinusoidal friction modulation: perceived intensity and gradient discrimination. In: Proceedings of IEEE World Haptics Conference. Tokyo, Japan; p. 443–448.
- Callier T, Saal HP, Davis-Berg EC, Bensmaia SJ. 2015. Kinematics of unconstrained tactile texture exploration. J Neurophysiol. 113:3013–3020. doi:10.1152/jn.00703.2014.
- Culbertson H, Unwin J, Kuchenbecker K. 2014. Modeling and rendering realistic textures from unconstrained tool-surface interactions. IEEE Trans Haptics. 7:381–393. doi:10.1109/TOH.2014.2316797.
- Greenspan JD, Bolanowski SJ. 1996. The psychophysics of tactile perception and its peripheral physiological basis. In: Kruger L, editor. Pain and touch: a volume in handbook of perception and cognition. New York: Elsevier; p. 25–103.
- Hollins M, Bensmaïa S, Karlof K, Young F. 2000. Individual differences in perceptual space for tactile textures: evidence from multidimensional scaling. Percept Psychophys. 62:1534–1544. doi:10.3758/BF03212154.
- Hollins M, Faldowski R, Rao S, Young F. 1993. Perceptual dimensions of tactile surface texture: A multidimensional scaling analysis. Percept Psychophys. 54:697–705. doi:10.3758/BF03211795.
- Jones LA. 1989. Matching forces: constant errors and differential thresholds. Perception. 18:681–687. doi:10.1068/p180681.
- Jones LA, Hunter IW. 1990. A perceptual analysis of stiffness. Exp Brain Res. 79:150–156. doi:10.1007/BF00228884.
- Kaernbach C. 2001. Adaptive threshold estimation with unforced-choice tasks. Atten Percept Psychophys. 63:1377–1388. doi:10.3758/BF03194549.
- Khera A, Lee R, Marcovici A, Yu Z, Klatzky RL, Siegel M, Shroff SG, Stetten G. 2016. One-dimensional haptic rendering using audio speaker with displacement determined by inductance. Machines. 4(1):9. doi:10.3390/machines4010009.
- Klatzky RL, Pawluk D, Peer A. 2013. Haptic perception of material properties and implications for application. Proc IEEE. 101:2081–2092.
- Landin N, Romano JM, McMahan W, Kuchenbecker KJ. 2010. Dimensional reduction of high-frequency accelerations for haptic rendering. In: Astrid M. L. Kappers, Jan B. F. van Erp, editors Haptics: generating and perceiving tangible sensations (EuroHaptics). New York: Springer; p. 79–86.
- Lee R, Marcovici A, Khera A, Yu Z, Klatzky RL, Siegel M, Shroff SG, Stetten G. 2016. One-dimensional haptic rendering device based on an audio loudspeaker. In: Work in progress and demonstration, IEEE Haptics Symposium. April. Philadelphia, PA.
- Loomis J. 1992. Distal attribution and presence. Presence Teleoperators Virtual Environ. 1:113–119. doi:10.1162/pres.1992.1.1.113.
- Mahns DA, Perkins NM, Sahai V, Robinson L, Rowe MJ. 2006. Vibrotactile frequency discrimination in human hairy skin. J Neurophysiol. 95:1442–1450. doi:10.1152/jn.00483.2005.
- Meyer DJ, Peshkin MA, Colgate JE. 2013. Fingertip friction modulation due to electrostatic attraction. In: Proceedings of IEEE World Haptics Conference 2013. Daejeon, Korea; p. 43–48.
- Meyer DJ, Wiertlewski M, Peshkin M, Colgate JE. 2014. Dynamics of ultrasonic and electrostatic friction modulation for rendering texture on haptic surfaces. In: Proceedings of IEEE Haptics Symposium. p. 63–67.
- Pang XD, Tan HZ, Durlach NI. 1991. Manual discrimination of force using active finger motion. Atten Percept Psychophys. 49:531–540. doi:10.3758/BF03212187.
- Park G, Kuchenbecker KJ. 2019. Objective and subjective assessment of algorithms for reducing three-axis vibrations to one-axis vibrations. In: Proceedings of IEEE World Haptics Conference.Houston, Texas; p. 467–472.
- Strohmeier P, Hornbæk K. 2017. Generating haptic textures with a vibrotactile actuator. In: Proceedings of the 2017 CHI Conference on Human Factors in Computing Systems. Denver, CO; p. 4994–5005.
- Tan HZ, Durlach NI, Beauregard GL, Srinivasan MA. 1995. Manual discrimination of compliance using active pinch grasp: the roles of force and work cues. Percept Psychophys. 57:495–510. doi:10.3758/BF03213075.
- Tanaka Y, Bergmann Tiest WM, Kappers AML, Sano A. 2014. Contact force and scanning velocity during active roughness perception. PLoS ONE. 9(3):e93363. doi:10.1371/journal.pone.0093363.
- Unger B, Klatzky RL, Hollis R. 2013. The physical basis of perceived roughness in virtual sinusoidal textures. IEEE Trans Haptics. 6:496–505. doi:10.1109/TOH.2013.35.
- Vardar Y, Güçlü B, Basdogan C. 2017. Effect of waveform on tactile perception by electrovibration displayed on touch screens. IEEE Trans Haptics. 10:488–499. doi:10.1109/TOH.2017.2704603.
- Weber AI, Saal HP, Lieber JD, Cheng J-W, Manfredi LR, Dammann JF III, Bensmaia SJ. 2013. Spatial and temporal codes mediate the tactile perception of natural textures. Proc Natl Acad Sci. 110:17107–17112. doi:10.1073/pnas.1305509110.
- Winfield L, Glassmire J, Colgate JE, Peshkin M. 2007. T-PaD: tactile pattern display through variable friction reduction. In: Proceedings of World Haptics Conference 2007. Tsukuba, Japan; p. 421–426.