BEGIN:VCALENDAR VERSION:2.0 PRODID:Linklings LLC BEGIN:VTIMEZONE TZID:Australia/Melbourne X-LIC-LOCATION:Australia/Melbourne BEGIN:DAYLIGHT TZOFFSETFROM:+1000 TZOFFSETTO:+1100 TZNAME:AEDT DTSTART:19721003T020000 RRULE:FREQ=YEARLY;BYMONTH=4;BYDAY=1SU END:DAYLIGHT BEGIN:STANDARD DTSTART:19721003T020000 TZOFFSETFROM:+1100 TZOFFSETTO:+1000 TZNAME:AEST RRULE:FREQ=YEARLY;BYMONTH=10;BYDAY=1SU END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20240214T070311Z LOCATION:Exhibition Hall 1\, Talk Stage\, Level 2 (Exhibition Centre) DTSTART;TZID=Australia/Melbourne:20231214T130000 DTEND;TZID=Australia/Melbourne:20231214T153000 UID:siggraphasia_SIGGRAPH Asia 2023_sess327@linklings.com SUMMARY:Emerging Technologies Talks 1: Haptics & Touch DESCRIPTION:Emerging Technologies\n\nThis year’s Emerging Technologies the me is the “IN(TER)VENTION.”\n\nDeveloping functional and experiential prot otypes is a crucial step towards novel technological innovations. As such, the Emerging Technologies program plays a vital role within SIGGRAPH and SIGGRAPH Asia in driving the development of research communities and to ma ke a great impact on the public.\n\nThe main form of presentation is a dem onstration that promises to provide you with an awe-inspiring experience! The best demonstration will also be selected and honored with the “Best De mo Award”.\n\nCome and listen to their talks on stage!\n\nWearSway: Wearab le Device to Reproduce Tactile Stimuli of Strong Wind through Swaying Clot hes\n\nWearSway is a compact and lightweight wearable haptic device that s imulates the swaying of clothes in the wind to reproduce the sensation of a strong wind without large fans. The device utilizes motors to vibrate st rings connected to the clothing, thereby creating the effect of clothes sw aying.\n\n\nKenichi Ito, Juro Hosoi, Kei Takanohashi, Yuki Ban, and Shin'i chi Warisawa (The University of Tokyo)\n---------------------\nMultichanne l Haptic Communication Platform with Wearable Sensing and Display\n\nWe wi ll propose a platform that allows easy development of multi-channel vibrot actile content by leveraging existing workflows. This was achieved with sm all load and 4-channel vibrotactile device attached to the fingertip. Pre- recorded sensations and real-time multi-channel haptic content will be de. ..\n\n\nHarunobu Taguchi (Keio University Graduate School of Media Design) ; Youichi Kamiyama (Keio University Graduate School of Media Design, Cidre Interaction Design Inc.); Kenta Kan (DALIFILMS Inc.); Yulan Ju (Keio Univ ersity Graduate School of Media Design); Arata Horie (Keio University Grad uate School of Media Design, commissure Inc.); Yoshihiro Tanaka (Nagoya In stitute of Technology); Hironori Ishikawa (NTT DOCOMO, INC.; Keio Universi ty Graduate School of Media Design); and Kouta Minamizawa (Keio University Graduate School of Media Design)\n---------------------\nAn Interactive S howcase of Touch'n'Draw: Rapid 3D Sketching with Fluent Bimanual Coordinat ion\n\nWe present Touch'n'Draw, a novel 3D sketching system that enables q uickly and easily creating instant auxiliary lines and instant sketch surf aces for drawing desired 3D curves with fluent bimanual touch and pen inte ractions. We will produce concept sketches of sci-fi aircraft using our sy stem to sho...\n\n\nTaegyu Jin, Seung-Jun Lee, Joon Hyub Lee, and Seok-Hyu ng Bae (Korea Advanced Institute of Science and Technology (KAIST))\n----- ----------------\nFurAir: Non-contact Presentation of Soft Fur Texture by Psuedo-haptics and Mid-air Ultrasound Haptic Feedback\n\nWe propose a non -contact method to present the tactile sensation of soft fur texture using ultrasound haptic feedback and pseudo-haptics. By responsively adjusting haptic and visual feedback according to user interaction and fur condition , our approach effectively simulates a realistic fur stroking ...\n\n\nJur o Hosoi, Du Jin, Yuki Ban, and Shin'ichi Warisawa (The University of Tokyo )\n---------------------\nDazzleVR: Enhancement of Brightness by Presentin g Afterimage and Dazzle Reflex Sensation in Virtual Reality\n\nThe present ation of brightness is essential in virtual reality. In this paper, we pro pose a system that can induce the sensation of dazzle by presenting a real istic afterimage and a pseudo dazzle reflex sensation with visuo-haptic fe edback. Our system is expected to present realistic VR environments...\n\n \nJuro Hosoi, Takahiro Ito, Yuki Ban, and Shin'ichi Warisawa (The Universi ty of Tokyo)\n---------------------\nHapReel: A Racket-shaped Haptic Displ ay Controller for Presenting Vibrotactile and Force Feedback through Finge rtip Deformation\n\nThe HapReel device, a compact, tactile feedback system , recreates nuanced sensations of torque and impact experienced in racket sports through the use of two small motors and rotary elements. This innov ation enables a highly immersive VR racket sports experience, enriching th e digital sporting lands...\n\n\nDaichi Inoue, Kazuki Nishimoto, Takuto Na kamura, Koki Fukuda, and Takuji Narumi (University of Tokyo)\n------------ ---------\nAiRound: a touchable mid-air image viewable from 360 degrees\n\ nAiRound is an optical system that displays touchable mid-air images from 360-degree. It overcomes the limitations of mid-air images, observation ra nge, light source visibility, and stray light generation. Our crucial tech nique is rotating retroreflective transmissive optical elements combined w ith v...\n\n\nYutaro Yano and Naoya Koizumi (The University of Electro-Com munications)\n---------------------\nSoftVibe: Enhancing On-Body Haptic Fe edback in VR using Rapid-Prototyping Toolkit with Modularized Flexible Vib rotactile Device\n\nWe present SoftVibe, a toolkit to support the usage of flexible electronics for creating vibrotactile feedback in VR. The toolki t consists of a software interface designed for parameterized editing with a set of flexible control and vibrotactile modules.\n\n\nPingchuan Ke, Xi ngyu Yang, and Kening Zhu (School of Creative Media, City University of Ho ng Kong)\n---------------------\nAirPolygon: Transparent, Film-based and F lexible 3D Display with Air-control\n\nThis demo proposes AirPolygon, a so ft, bendable, and transparent pneumatic control film. AirPolygon distingui shes itself with its ease of fabrication, high transparency for direct LCD attachment, and lightweight, deflatable design for portability.\n\n\nYuki Akachi and Junichi Yamaoka (Keio University)\n---------------------\nFIRE : Mid-Air Thermo-Tactile Display\n\nThis demonstration uses an ultrasound haptic display-based mid-air thermo-tactile feedback system. Our method in volves directing heated airflow toward the focused pressure point produced by the ultrasound display in order to concurrently provide thermal and ta ctile cues in mid-air. We present this s...\n\n\nYatharth Singhal, Haokun Wang, and Jin Ryong Kim (University of Texas at Dallas)\n----------------- ----\nHangerBody: a Haptic Device Using Haptic Illusion for Multiple Parts of Body\n\nThe hanger reflex is a phenomenon in which a strong sense of r otational force is perceived when one wares a wire hanger on his/her head. We propose the HangerBody system, which applies the hanger reflex to mult iple parts of body simultaneously in order to expand the range of applicat ions.\n\n\nTakuto Nakamura and Hideaki Kuzuoka (The University of Tokyo)\n ---------------------\nWaylet: Self-Contained Haptic Device for Park-Scale Interactions\n\nWaylet is a self-contained haptic device that can provide translational and rotational pseudo-forces by asymmetric vibration for pa rk-scale interactions. We demonstrate an intuitive haptic navigation syste m in a park-scale mixed-reality environment and haptic rendering to show t he feasibility of our...\n\n\nTomosuke Maeda (Toyota Central R&D Labs., In c.); Junnosuke Yamamoto (Keio University Graduate School of Media Design); Takayoshi Yoshimura and Hiroyuki Sakai (Toyota Central R&D Labs., Inc.); and Kouta Minamizawa (Keio University Graduate School of Media Design)\n\n Registration Category: Full Access, Business & Innovation Symposium Access , Exhibit & Experience Access, Enhanced Access, Trade Exhibitor, Experienc e Hall Exhibitor END:VEVENT END:VCALENDAR