Origami-Inspired Haptics: A Literature Review

Ken Iiyoshi; Jong Hyun Lee; Ahmed S. Dalaq; Shadi Khazaaleh; Mohammed F. Daqaq; Georgios Korres; Mohamad Eid

doi:10.1109/ACCESS.2024.3371480

Origami-Inspired Haptics: A Literature Review

Ken Iiyoshi^*
, Jong Hyun Lee
, Ahmed S. Dalaq
, Shadi Khazaaleh
, Mohammed F. Daqaq
, Georgios Korres
, Mohamad Eid^*

^*Corresponding author for this work

Department of Bioengineering

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Origami, the art of paper folding, addresses traditionally conflicting requirements for designing both powerful and low-cost haptic interfaces. As of today, there are no comprehensive reviews that cover origami-inspired haptic actuation, sensing, design processes, and fabrication. To fill this void, this paper summarizes existing origami-inspired haptic technologies in terms of workspace, degrees of freedom (DoF), power consumption, control methods, sensing, and actuation. The paper also presents an iterative design process for pattern generation and origami-inspired haptic characterization. Using this design process, we demonstrate a case study that involves the design, development, and evaluation of a novel syringe haptic interface for dental simulation. Our main findings suggest that origami-inspired haptics need more mathematically optimized and versatile design, as well as novel materials that offer a room for embedded sensing and actuation.

Original language	English
Pages (from-to)	33309-33327
Number of pages	19
Journal	IEEE Access
Volume	12
DOIs	https://doi.org/10.1109/ACCESS.2024.3371480
State	Published - 2024

Bibliographical note

Publisher Copyright:
© 2013 IEEE.

Keywords

E-skin
Origami
actuation
design workflow
haptics
kirigami
rehabilitation
sensing
tactile display
wearables

ASJC Scopus subject areas

General Computer Science
General Materials Science
General Engineering

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10.1109/ACCESS.2024.3371480

Cite this

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title = "Origami-Inspired Haptics: A Literature Review",

abstract = "Origami, the art of paper folding, addresses traditionally conflicting requirements for designing both powerful and low-cost haptic interfaces. As of today, there are no comprehensive reviews that cover origami-inspired haptic actuation, sensing, design processes, and fabrication. To fill this void, this paper summarizes existing origami-inspired haptic technologies in terms of workspace, degrees of freedom (DoF), power consumption, control methods, sensing, and actuation. The paper also presents an iterative design process for pattern generation and origami-inspired haptic characterization. Using this design process, we demonstrate a case study that involves the design, development, and evaluation of a novel syringe haptic interface for dental simulation. Our main findings suggest that origami-inspired haptics need more mathematically optimized and versatile design, as well as novel materials that offer a room for embedded sensing and actuation.",

keywords = "E-skin, Origami, actuation, design workflow, haptics, kirigami, rehabilitation, sensing, tactile display, wearables",

author = "Ken Iiyoshi and Lee, \{Jong Hyun\} and Dalaq, \{Ahmed S.\} and Shadi Khazaaleh and Daqaq, \{Mohammed F.\} and Georgios Korres and Mohamad Eid",

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year = "2024",

doi = "10.1109/ACCESS.2024.3371480",

language = "English",

volume = "12",

pages = "33309--33327",

journal = "IEEE Access",

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AU - Iiyoshi, Ken

AU - Lee, Jong Hyun

AU - Dalaq, Ahmed S.

AU - Khazaaleh, Shadi

AU - Daqaq, Mohammed F.

AU - Korres, Georgios

AU - Eid, Mohamad

PY - 2024

Y1 - 2024

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AB - Origami, the art of paper folding, addresses traditionally conflicting requirements for designing both powerful and low-cost haptic interfaces. As of today, there are no comprehensive reviews that cover origami-inspired haptic actuation, sensing, design processes, and fabrication. To fill this void, this paper summarizes existing origami-inspired haptic technologies in terms of workspace, degrees of freedom (DoF), power consumption, control methods, sensing, and actuation. The paper also presents an iterative design process for pattern generation and origami-inspired haptic characterization. Using this design process, we demonstrate a case study that involves the design, development, and evaluation of a novel syringe haptic interface for dental simulation. Our main findings suggest that origami-inspired haptics need more mathematically optimized and versatile design, as well as novel materials that offer a room for embedded sensing and actuation.

KW - E-skin

KW - Origami

KW - actuation

KW - design workflow

KW - haptics

KW - kirigami

KW - rehabilitation

KW - sensing

KW - tactile display

KW - wearables

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JF - IEEE Access

ER -

Origami-Inspired Haptics: A Literature Review

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

Access to Document

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Cite this