Design and characterization of a biologically inspired quasi-passive prosthetic ankle-foot

Mooney, Luke M.; Lai, c.; Rouse, Elliott J.

doi:10.1109/embc.2014.6943913

Cited by 9 publications

(14 citation statements)

References 14 publications

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“…Another minimally powered foot prosthesis has been designed by Mooney et al [27]. The device uses a pneumatic piston as well as a bending spring in an attempt to closely mimic the stiffness of the biological ankle.…”

Section: Untethered Ankle Devicesmentioning

confidence: 99%

Development and testing of a passive ankle exoskeleton

Pardoel

Doumit

2019

Biocybernetics and Biomedical Engineering

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Aging is accompanied by a deterioration of physical abilities. For some this limits their mobility and thus their quality of life. Exoskeletons are a class of walking assist device that help reduce the effort required to walk. Currently, powered exoskeletons suffer from short battery life and thus limited usefulness. This thesis presents the design, fabrication, and testing of a novel unpowered ankle exoskeleton to assist normal walking over long distances. The design incorporates a Pneumatic Artificial Muscle (PAM) inflated and used as a passive air spring. To predict the behaviour of the PAM in this distinct application, a distinct dynamic model was developed to include the biaxial stress in the bladder as well as a polytropic gas assumption. Experimental testing was used to validate the model and indicated that the addition of the bladder stress enhanced the performance of the force prediction at low pressure but had negligible impact on the model at higher pressures. The experimental testing also showed that the temperature of the gas inside the PAM varies very slightly during passive elongation cycles, thus, validating an isothermal assumption. Once fabricated, the exoskeleton was tested in human walking trials. I would also like to thank Laurent Levesque as well as my other lab mates for sharing their knowledge and helping to address unexpected problems as they arose.

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Section: Untethered Ankle Devicesmentioning

confidence: 99%

Development and testing of a passive ankle exoskeleton

Pardoel

Doumit

2019

Biocybernetics and Biomedical Engineering

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“…In the same vein as Brackx et al 5 Mooney and his team found that the existing prosthetic ankles at their time were incapable of providing the amputee with "biologically realistic" ankle torque and angles. 7 They developed a quasi-passive ankle with pneumatic components. They compared their ankle with a passive ESR prosthetic foot.…”

Section: Survey Passive Lower Limb Prosthesesmentioning

confidence: 99%

“…All the test data was compared to the prosthesis that the test subjects used daily. Nickel et al 7 outlined user experience while wearing the prosthesis. The experimental data is shown in Figure 3 that compares kinematic and kinetic data from their prototype and the subject's prosthesis.…”

Section: Survey Passive Lower Limb Prosthesesmentioning

confidence: 99%

“…Unlike the articles before where the ankles were passive, Mooney et al developed a quasi-passive prosthetic ankle using a pneumatic piston-cylinder assembly. 7 This assembly seemed bulky and not useful for daily use. The fluctuation in internal pressure of the cylinder would cause a difference in the ankle's output.…”

Section: Passive Lower Limb Prosthesesmentioning

confidence: 99%

“…Their use of hydraulic components in the system is just like. 7 The hydraulic system makes the ankle difficult to maintain. They explained their use of the hydraulic system well in their article.…”

Section: Passive Lower Limb Prosthesesmentioning

confidence: 99%

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Volitional control of an active prosthetic ankle: a survey

Redkar¹,

G²

2018

IRATJ

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In this work, state of the art in the field of intent recognition, its application to prostheses and subsequent volitional control algorithms are reviewed. In this paper, competitive landscape is also studied with the aim to learn from the successes and failures of the researchers who have been working in this area. This research hopes to further advance the technology for volitional control of prostheses/wearable robots that will enable much integrated human robot collaboration/interaction specifically focused on passive and active prostheses. The overarching aim of this work is to develop a prosthetic ankle that is as close to a human ankle as possible.

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The economic value of augmentative exoskeletons and their assistance

et al. 2023

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For augmentative exoskeletons that assist able-bodied users, a clear metric of success remains an open question. Here we leverage the Vickrey second-price auction to quantify the economic value added by lower-limb exoskeletons and their assistance. We posited that if exoskeletons provided helpful assistance during a difficult task, this value could be quantified through a lowering of participant auction bids to continue walking. The bidding results were compared across different conditions to determine the economic value of the exoskeleton, bearing in mind also the cost of wearing the added mass of the exoskeleton. Results show that the total value of the exoskeleton and assistance was modest. While most participants found the assistance itself valuable, this value was mostly offset by the extra mass added of wearing the exoskeleton. Our approach provides insight into how exoskeleton wearers may value different aspects of user experience. These results suggest economic value may be a powerful tool in the design and control of exoskeletons that maximize user benefit.

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Design and characterization of a biologically inspired quasi-passive prosthetic ankle-foot

Cited by 9 publications

References 14 publications

Development and testing of a passive ankle exoskeleton

Development and testing of a passive ankle exoskeleton

Volitional control of an active prosthetic ankle: a survey

The economic value of augmentative exoskeletons and their assistance

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