Like A Second Skin

Nittala, Aditya Shekhar; Kruttwig, Klaus; Lee, Jaeyeon; Bennewitz, Roland; Arzt, Eduard; Steimle, Jürgen

doi:10.1145/3290605.3300610

Cited by 32 publications

(15 citation statements)

References 76 publications

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“…[11] This calls for μm or mm thick actuators, made of soft materials, covering large areas. [24] A broad range of actuation technologies has been developed to provide haptic feedback in wearable format. Polymer and textilebased technologies are particularly promising as they are flexible and can be integrated into clothing.…”

Section: Introductionmentioning

confidence: 99%

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Hydraulically Amplified Electrostatic Taxels (HAXELs) for Full Body Haptics

Leroy

Shea

2023

Adv Materials Technologies

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The ability to mechanically stimulate touch receptors over the entire body is a key feature for fully immersive and highly realistic virtual reality experience. Haptic stickers, flexible arrays of HAXELs (hydraulically amplified TAXels), that enable cutaneous haptics over nearly all parts of the body, are reported. HAXELs are zipping electrostatic actuators that combine stretchable elastomers and high permittivity flexible films to generate both high strains and high forces, from DC to 200 Hz. A fabrication process that enables scaling HAXELs from 2 to 15 mm in diameter is presented, allowing to tailor the actuators to different body parts and to wearables such as wrist‐watches. The different sizes of HAXELs generate blocked forces from 100 to 800 mN, with DC displacements from 100 to 850 µm, well above sensation thresholds. Haptics tests of Haptic Stickers, 5 × 5 arrays of 10 mm diameter devices, on palms, back of the hand, neck, arm, and back of a dozen volunteers, are done with users reporting high pattern recognition success on many body locations. The Haptic Stickers uniquely offer a thin and lightweight form‐factor, which does not limit the freedom of motion of the user, compatible with untethered scenarios.

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Section: Introductionmentioning

confidence: 99%

“…[ 11 ] This calls for µm or mm thick actuators, made of soft materials, covering large areas. [ 24 ]…”

Section: Introductionmentioning

confidence: 99%

Hydraulically Amplified Electrostatic Taxels (HAXELs) for Full Body Haptics

Leroy

Shea

2023

Adv Materials Technologies

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“…Existing approaches involve applying actuators on the fngerpads, such as thin electrodes [6,11] or soft actuators [3]. While some of these are also driven by the goal of minimal interference with the user's tactile sensation, adding these thin patches decreases one's ability to perform discriminate textured surfaces because these patches impair the tactile acuity of our fngerpads [9].…”

Section: Introductionmentioning

confidence: 99%

Demonstrating Touch&Fold: A Foldable Haptic Actuator for Rendering Touch in Mixed Reality

Nith

Fonseca

et al. 2021

Extended Abstracts of the 2021 CHI Conference on Human Factors in Computing Systems

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Figure 1: We engineered a foldable haptic device worn on the user's fngernail that renders touch in mixed reality (MR) without preventing users from also touching real objects. Here, a user follows MR instructions to repair their bicycle. (a) When the user touches the virtual tire, a cover slides down from our nail-device and pushes against their fngerpad to create the contact & pressure with this virtual object. To further increase realism, the cover also includes a linear resonant actuator that renders virtual textures using vibrations. This allows, for instance, to feel the roughness of the virtual mountain tire. Then, (b) when the user turns to interact with real objects, the cover folds back, leaving their fngerpads free to feel the texture of their real tire or operate physical tools.

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“…This is largely due to the absence of equally reliable, responsive and expressive actuation mechanisms at a small scale and in a flexible formfactor compared with that of rigid mechanisms. Indeed, despite the technical barriers, developing on-skin haptic interfaces is seen to play an important role in the foreseeable age of smart devices [28].…”

Section: Introductionmentioning

confidence: 99%

HapBead: On-Skin Microfluidic Haptic Interface using Tunable Bead

Han

Bansal

Shi

et al. 2020

Proceedings of the 2020 CHI Conference on Human Factors in Computing Systems

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On-skin haptic interfaces using soft elastomers which are thin and flexible have significantly improved in recent years. Many are focused on vibrotactile feedback that requires complicated parameter tuning. Another approach is based on mechanical forces created via piezoelectric devices and other methods for non-vibratory haptic sensations like stretching, twisting. These are often bulky with electronic components and associated drivers are complicated with limited control of timing and precision. This paper proposes HapBead, a new on-skin haptic interface that is capable of rendering vibration like tactile feedback using microfluidics. HapBead leverages a microfluidic channel to precisely and agilely oscillate a small bead via liquid flow, which then generates various motion patterns in channel that creates highly tunable haptic sensations on skin. We developed a proof-of-concept design to implement thin, flexible and easily affordable HapBead platform, and verified its haptic rendering capabilities via attaching it to users' fingertips. A study was carried out and confirmed that participants could accurately tell six different haptic patterns rendered by HapBead. HapBead enables new wearable display applications with multiple integrated functionalities such as on-skin haptic doodles, mixed reality haptics and visual-haptic displays.

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Like A Second Skin

Cited by 32 publications

References 76 publications

Hydraulically Amplified Electrostatic Taxels (HAXELs) for Full Body Haptics

Hydraulically Amplified Electrostatic Taxels (HAXELs) for Full Body Haptics

Demonstrating Touch&Fold: A Foldable Haptic Actuator for Rendering Touch in Mixed Reality

HapBead: On-Skin Microfluidic Haptic Interface using Tunable Bead

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