Optical Enhancement of Exoskeleton-Based Estimation of Glenohumeral Angles

Cortés, Camilo; Unzueta, Luis; Reyes-Guzmán, Ana de los; Ruiz-Salguero, Oscar; Flórez, Jesús

doi:10.1155/2016/5058171

Cited by 6 publications

(2 citation statements)

References 26 publications

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“…The concept of powered or semi-powered exoskeletons has received great attention (e.g. [74][75][76][77][78][79][80]) in medical applications for patients who have lost use of limbs through acute trauma or paralysis and may undergo robot-assisted rehabilitation [81,82], and in military applications such as the development of exosuits to make traversing tough terrain more feasible and industrial applications to reduce the risk of upper body injury sustained through extension movements or lifting heavy objects [83]. This field is a further illustration of where terrestrial-driven progression of technology, primarily to assist patients with disabilities may have applications for space exploration and colonisation and NASA has described the application of X1 [84], originally developed for patients with paraplegia.…”

Section: Emergency Evacuation Protocol and Processes Clinical Waste M...mentioning

confidence: 99%

A Crowd-Sourcing Project to Understand, Prevent and Manage Incidences of Injury and Wounding to Astronauts and Off-Earth Colonists

Cahill¹,

Braddock²

2022

J. Hum. Earth Future

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Recent technical successes of the unmanned Mars 2020, Tianwen-1 and Hope Mars missions have further increased our hunger for space exploration and the possible colonisation of Mars is now firmly on the mid-term horizon. Furthermore, renewed commitment to settle on the Moon is anticipated within the next three years, led by NASA’s Artemis programme utilising the pan-space agency constructed lunar Gateway or Space X’s Starship system. These programmes will necessitate a larger number of astronauts spending longer periods in space and despite rigorous risk identification and mitigation procedures, injury is an inevitable consequence and management procedures will demand efficient and effective implementation. We have employed Cognitive Work Analysis to derive an abstraction hierarchy for reducing the potential for physical injury and managing the consequence of injury in space. We have used a crowd-sourcing approach to cluster factors and themes which may emanate from within or without habitat and consider solution management in the light of current and emerging technology. In addition, we also consider mental fitness as a confounder which may emerge during missions and propose methods for both measurement and management. Doi: 10.28991/HEF-2022-03-03-04 Full Text: PDF

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Section: Emergency Evacuation Protocol and Processes Clinical Waste M...mentioning

confidence: 99%

A Crowd-Sourcing Project to Understand, Prevent and Manage Incidences of Injury and Wounding to Astronauts and Off-Earth Colonists

Cahill¹,

Braddock²

2022

J. Hum. Earth Future

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“…Optical sensors: These sensors use light to measure the displacement, velocity, or position of objects. Optical encoders or cameras can be utilized for tracking limb movements, providing data for precise control and coordination of the exoskeleton [79].…”

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confidence: 99%

Advancements in Sensor Technologies and Control Strategies for Lower-Limb Rehabilitation Exoskeletons: A Comprehensive Review

Yao,

Shao,

Tarabini

et al. 2024

Micromachines

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Lower-limb rehabilitation exoskeletons offer a transformative approach to enhancing recovery in patients with movement disorders affecting the lower extremities. This comprehensive systematic review delves into the literature on sensor technologies and the control strategies integrated into these exoskeletons, evaluating their capacity to address user needs and scrutinizing their structural designs regarding sensor distribution as well as control algorithms. The review examines various sensing modalities, including electromyography (EMG), force, displacement, and other innovative sensor types, employed in these devices to facilitate accurate and responsive motion control. Furthermore, the review explores the strengths and limitations of a diverse array of lower-limb rehabilitation-exoskeleton designs, highlighting areas of improvement and potential avenues for further development. In addition, the review investigates the latest control algorithms and analysis methods that have been utilized in conjunction with these sensor systems to optimize exoskeleton performance and ensure safe and effective user interactions. By building a deeper understanding of the diverse sensor technologies and monitoring systems, this review aims to contribute to the ongoing advancement of lower-limb rehabilitation exoskeletons, ultimately improving the quality of life for patients with mobility impairments.

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Limitations for Extraterrestrial Colonisation and Civilisation Built and the Potential for Human Enhancements

Braddock¹

2020

Human Enhancements for Space Missions

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Optical Enhancement of Exoskeleton-Based Estimation of Glenohumeral Angles

Cited by 6 publications

References 26 publications

A Crowd-Sourcing Project to Understand, Prevent and Manage Incidences of Injury and Wounding to Astronauts and Off-Earth Colonists

A Crowd-Sourcing Project to Understand, Prevent and Manage Incidences of Injury and Wounding to Astronauts and Off-Earth Colonists

Advancements in Sensor Technologies and Control Strategies for Lower-Limb Rehabilitation Exoskeletons: A Comprehensive Review

Limitations for Extraterrestrial Colonisation and Civilisation Built and the Potential for Human Enhancements

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