This article highlights the development of robust and high‐performance flexible and stretchable biosensors that maintain long‐term functionality and optimal electrical conductivity under mechanical deformation, utilizing sustainable and cost‐effective manufacturing principles.
Mousa H. Aldosari, Ahyeon Koh
wiley +1 more source
Study on floor large deformation and failure mechanism of water-rich soft rock roadway. [PDF]
Li L +5 more
europepmc +1 more source
Towards Biomimetic Robotic Rehabilitation: Pilot Study of an Upper-Limb Cable-Driven Exoskeleton in Post-Stroke Patients. [PDF]
S Bastos DI +6 more
europepmc +1 more source
Study on optimization of surrounding rock support in the predriven roadway during final mining of an extra thick coal seam. [PDF]
Yin S, Zhao X, Wang E, Kang Q, Hua Y.
europepmc +1 more source
Feature Extraction and Unsupervised Classification of Roadway Fracture Signals: A Full-Section Wi-Fi Wireless Monitoring Approach. [PDF]
Zu C +5 more
europepmc +1 more source
A novel deep-learning model to convert DAS strain to geophone particle velocity: application to PoroTomo data from the Brady geothermal field. [PDF]
Al-Qadasi B, Cui Y, Waheed UB, Wang HF.
europepmc +1 more source
A compliant, morphing gripper for handling diverse leafy vegetables in vertical farming systems. [PDF]
Liu J +5 more
europepmc +1 more source
An asymmetric cable-driven mechanism for force control of exoskeleton systems
In this paper, an asymmetric cable-driven mechanism is proposed for accurate force control of exoskeleton systems with a compact structure. Inspired by the fact that the required forces in human motions are not symmetric in many cases, a spring-actuator type cable-drive mechanism is adopted, which enables a compact cable routing structure. The joint is
Yeongtae Jung, Joonbum Bae
openaire +3 more sources

