A pediatric robotic thumb exoskeleton for at-home rehabilitation: The Isolated Orthosis for Thumb Actuation (IOTA)

Aubin, Patrick M.; Sallum, Hani; Walsh, Conor J.; Stirling, Leia; Correia, Annette

doi:10.1109/icorr.2013.6650500

Cited by 69 publications

(78 citation statements)

References 21 publications

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“…The total weight of the device is approximately 170g, which is much smaller than the typical design requirement of 450g for any device on the hand [27]. Additionally, as the actuators work under air pressure, inflation of the actuators does not add significant amount of extra weight to the hand.…”

Section: A Design Considerationsmentioning

confidence: 98%

A fabric-regulated soft robotic glove with user intent detection using EMG and RFID for hand assistive application

Yap

Ang

Lim

et al. 2016

2016 IEEE International Conference on Robotics and Automation (ICRA)

103

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This paper presents a soft robotic glove designed to assist individuals with functional grasp pathologies in performing activities of daily living. The glove utilizes soft fabric-regulated pneumatic actuators that are low-profile and require lower pressure than previously developed actuators. They are able to support fingers and thumb motions during hand closure. Upon pressurization, the actuators are able to generate sufficient force to assist in hand closing and grasping during different manipulation tasks. In this work, experiments were conducted to evaluate the performances of the actuators as well as the glove in terms of its kinetic and kinematic assistance on a healthy participant. Additionally, surface electromyography and radio-frequency identification techniques were adopted to detect user intent to activate or deactivate the glove. Lastly, we present preliminary results of a healthy participant performing different manipulation tasks with the soft robotic glove controlled by surface electromyography and radio-frequency identification techniques.

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Section: A Design Considerationsmentioning

confidence: 98%

A fabric-regulated soft robotic glove with user intent detection using EMG and RFID for hand assistive application

Yap

Ang

Lim

et al. 2016

2016 IEEE International Conference on Robotics and Automation (ICRA)

103

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“…Regarding the weight, it is hard to find comparison in the state of the art, some numbers are given in Table I. As general indication, Aubin et al determined that a device deployed on the hand should not exceed 0.5 kg [43], which is compatible with the weight of the wearable modules of HX. Next development of the design will also consider optimization of structural material distribution.…”

Section: Discussionmentioning

confidence: 99%

A Powered Finger–Thumb Wearable Hand Exoskeleton With Self-Aligning Joint Axes

Cempini

Cortese

Vitiello

2015

IEEE/ASME Trans. Mechatron.

156

104

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In recent years, the robotic research area has become extremely prolific in terms of wearable active exoskeletons for human body motion assistance, with the presentation of many novel devices, for upper limbs, lower limbs, and the hand. The hand shows a complex morphology, a high intersubject variability, and offers limited space for physical interaction with a robot: as a result, hand exoskeletons usually are heavy, cumbersome, and poorly usable. This paper introduces a novel device designed on the basis of human kinematic compatibility, wearability, and portability criteria. This hand exoskeleton, briefly HX, embeds several features as underactuated joints, passive degrees of freedom ensuring adaptability and compliance toward the hand anthropometric variability, and an ad hoc design of self-alignment mechanisms to absorb human/robot joint axes misplacement, and proposes a novel mechanism for the thumb opposition. The HX kinematic design and actuation are discussed together with theoretical and experimental data validating its adaptability performances. Results suggest that HX matches the self-alignment design goal and is then suited for close human-robot interaction.

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“…Alternatively, an exoskeleton can align mechanical and finger joints through adjusted mechanical connections and links [15], [22], [27]- [30], [32], [33], [37], [40], [45], [52], [57], [60], [62], [63], [67], [73], [77], [84], [87]. The user wears the device before operation and a technician fixes a sliderscrew system for fitting.…”

Section: Strategies For Adjusting To Different Hand Sizesmentioning

confidence: 99%

“…Dorsal devices consist of mechanical or transmission components placed on top of the finger phalanges (Figure 8(c)) [15], [22], [23], [25]- [35], [37]- [41], [44]- [62], [64], [66]- [76], [78]- [84], [87]. Doing so, the collision between multiple finger components can be minimized while user's palm is free for future interactions with real objects.…”

Section: Mechanism Placementmentioning

confidence: 99%

See 1 more Smart Citation

Design Requirements of Generic Hand Exoskeletons and Survey of Hand Exoskeletons for Rehabilitation, Assistive, or Haptic Use

Saraç

Solazzi

Frisoli

2019

IEEE Trans. Haptics

110

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Most current hand exoskeletons have been designed specifically for rehabilitation, assistive or haptic applications to simplify the design requirements. Clinical studies on post-stroke rehabilitation have shown that adapting assistive or haptic applications into physical therapy sessions significantly improves the motor learning and treatment process. The recent technology can lead to the creation of generic hand exoskeletons that are application-agnostic. In this paper, our motivation is to create guidelines and best practices for generic exoskeletons by reviewing the literature of current devices. First, we describe each application and briefly explain their design requirements, and then list the design selections to achieve these requirements. Then, we detail each selection by investigating the existing exoskeletons based on their design choices, and by highlighting their impact on application types. With the motivation of creating efficient generic exoskeletons in the future, we finally summarize the best practices in the literature.Index Terms-hand exoskeletons, rehabilitation hand exoskeletons, assistive hand exoskeletons, haptic hand exoskeletons

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A pediatric robotic thumb exoskeleton for at-home rehabilitation: The Isolated Orthosis for Thumb Actuation (IOTA)

Cited by 69 publications

References 21 publications

A fabric-regulated soft robotic glove with user intent detection using EMG and RFID for hand assistive application

A fabric-regulated soft robotic glove with user intent detection using EMG and RFID for hand assistive application

A Powered Finger–Thumb Wearable Hand Exoskeleton With Self-Aligning Joint Axes

Design Requirements of Generic Hand Exoskeletons and Survey of Hand Exoskeletons for Rehabilitation, Assistive, or Haptic Use

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