Continuous A-Mode Ultrasound-Based Prediction of Transfemoral Amputee Prosthesis Kinematics Across Different Ambulation Tasks

Mendez, Joel; Murray, Rosemarie; Gabert, Lukas; Fey, Nicholas P.; Liu, Honghai; Lenzi, Tommaso

doi:10.1109/tbme.2023.3292032

Cited by 3 publications

(1 citation statement)

References 52 publications

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“…New research has also shown the ability of US to isolate spatially-resolved motor unit action potentials [60]. SMG has been demonstrated to be feasible for controlling both upper [61]- [64] and lower [65] prosthetic limbs. In addition, preliminary work is demonstrating the ability for SMG to decode the intent of users with spinal cord injury [66].…”

Section: E Wearable Us For Rehabilitation Engineering and Neuroengine...mentioning

confidence: 99%

Clinical, Safety, and Engineering Perspectives on Wearable Ultrasound Technology: A Review

Song,

Andre,

Chitnis

et al. 2024

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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Wearable ultrasound has the potential to become a disruptive technology enabling new applications not only in traditional clinical settings, but also in settings where ultrasound is not currently used. Understanding the basic engineering principles and limitations of wearable ultrasound is critical for clinicians, scientists, and engineers to advance potential applications and translate the technology from bench to bedside. Wearable ultrasound devices, especially monitoring devices, have the potential to apply acoustic energy to the body for far longer durations than conventional diagnostic ultrasound systems. Thus, bioeffects associated with prolonged acoustic exposure as well as skin health need to be carefully considered for wearable ultrasound devices. This paper reviews emerging clinical applications, safety considerations, and future engineering and clinical research directions for wearable ultrasound technology.

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Section: E Wearable Us For Rehabilitation Engineering and Neuroengine...mentioning

confidence: 99%

Clinical, Safety, and Engineering Perspectives on Wearable Ultrasound Technology: A Review

Song,

Andre,

Chitnis

et al. 2024

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

View full text Add to dashboard Cite

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A Transfer Learning Strategy for Cross-Subject and Cross-Time Hand Gesture Recognition Based on A-Mode Ultrasound

Lian,

Lu,

Huang

et al. 2024

IEEE Sensors J.

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Robotic-powered Prosthesis: A Review and Directions

Sariff,

Sooriamoorthy,

Shah Hizam Md Yasir

et al. 2024

Exploring the World of Robot Manipulators [Working Title]

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Robotic prostheses involve the utilization of artificial limbs designed for optimal power efficiency, significantly enhancing users’ mobility and independence. The primary focus in prosthesis development is on aspects related to power efficiency, aiming to create more advanced and energy-efficient solutions in the future. The initial discussion will delve into the state-of-the-art advancements in prosthesis robotics. Issues and challenges associated with robotic-powered prostheses, such as limited battery lifespan and power-to-weight balance concerns, will be explored. Recent approaches incorporating energy-efficient design strategies, including regenerative systems, actuation selection, power transmission mechanisms, and material selection, will also be examined. The strengths and limitations of these approaches will be highlighted. In conclusion, the presentation will outline future directions for power prosthesis robotics, addressing gaps in the current development of this field.

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Continuous A-Mode Ultrasound-Based Prediction of Transfemoral Amputee Prosthesis Kinematics Across Different Ambulation Tasks

Cited by 3 publications

References 52 publications

Clinical, Safety, and Engineering Perspectives on Wearable Ultrasound Technology: A Review

Clinical, Safety, and Engineering Perspectives on Wearable Ultrasound Technology: A Review

A Transfer Learning Strategy for Cross-Subject and Cross-Time Hand Gesture Recognition Based on A-Mode Ultrasound

Robotic-powered Prosthesis: A Review and Directions

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