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Kirigami‐Inspired Three‐Dimensional Metamaterials with Programmable Isotropic and Orthotropic Thermal Expansion (2024)
Journal Article
Gu, Y., Wei, Z., Wei, G., You, Z., Ma, J., & Chen, Y. (2024). Kirigami‐Inspired Three‐Dimensional Metamaterials with Programmable Isotropic and Orthotropic Thermal Expansion. Advanced materials, 36(50), Article 2411232. https://doi.org/10.1002/adma.202411232

Mechanical metamaterials with specifically designed cells can provide unusual thermal expansion properties for diverse applications. Limited by very few available cell topologies and complicated non‐linear structural deformation, most existing therma... Read More about Kirigami‐Inspired Three‐Dimensional Metamaterials with Programmable Isotropic and Orthotropic Thermal Expansion.

A Statistical Analysis of Commercial Articulated Industrial Robots and Cobots (2024)
Journal Article
Amiri, P., Müller, M., Southgate, M., Theodoridis, T., Wei, G., Richards-Brown, M., & Holderbaum, W. (2024). A Statistical Analysis of Commercial Articulated Industrial Robots and Cobots. #Journal not on list, 8(5), 216. https://doi.org/10.3390/jmmp8050216

This paper aims to elucidate the state-of-the-art, prevailing priorities, and the focus of the industry, and identify both limitations and potential gaps regarding industrial robots and collaborative robots (cobots). Additionally, it outlines the adv... Read More about A Statistical Analysis of Commercial Articulated Industrial Robots and Cobots.

Human tactile sensing and sensorimotor mechanism: from afferent tactile signals to efferent motor control (2024)
Journal Article

In tactile sensing, decoding the journey from afferent tactile signals to efferent motor commands is a significant challenge primarily due to the difficulty in capturing population-level afferent nerve signals during active touch. This study integrat... Read More about Human tactile sensing and sensorimotor mechanism: from afferent tactile signals to efferent motor control.

An Improved Extreme Learning Machine (ELM) Algorithm for Intent Recognition of Transfemoral Amputees With Powered Knee Prosthesis (2024)
Journal Article

To overcome the challenges posed by the complex structure and large parameter requirements of existing classification models, the authors propose an improved extreme learning machine (ELM) classifier for human locomotion intent recognition in this st... Read More about An Improved Extreme Learning Machine (ELM) Algorithm for Intent Recognition of Transfemoral Amputees With Powered Knee Prosthesis.

Development and Characteristics of a Highly Biomimetic Robotic Shoulder Inspired by Musculoskeletal Mechanical Intelligence (2024)
Journal Article
Yang, H., Wei, G., & Ren, L. (2024). Development and Characteristics of a Highly Biomimetic Robotic Shoulder Inspired by Musculoskeletal Mechanical Intelligence. IEEE transactions on robotics : a publication of the IEEE Robotics and Automation Society, 40, 2672 - 2691. https://doi.org/10.1109/tro.2024.3390057

This article provides a comprehensive analysis of the existing landscape of conventional and highly biomimetic robotic arms, highlighting a prevalent tradeoff between size, range of motion, and load capacity in current highly biomimetic designs. To o... Read More about Development and Characteristics of a Highly Biomimetic Robotic Shoulder Inspired by Musculoskeletal Mechanical Intelligence.

Enhancing the Performance of a Biomimetic Robotic Elbow-and-Forearm System Through Bionics-Inspired Optimization (2024)
Journal Article
Yang, H., Wei, G., & Ren, L. (2024). Enhancing the Performance of a Biomimetic Robotic Elbow-and-Forearm System Through Bionics-Inspired Optimization. IEEE transactions on robotics : a publication of the IEEE Robotics and Automation Society, 40, 2692 - 2711. https://doi.org/10.1109/tro.2024.3386615

This article delineates the formulation and verification of an innovative robotic elbow-and-forearm system design, mirroring the intricate biomechanics of human musculoskeletal systems. Conventional robotic models often undervalue the substantial fun... Read More about Enhancing the Performance of a Biomimetic Robotic Elbow-and-Forearm System Through Bionics-Inspired Optimization.

Enhancing Gearbox Fault Diagnosis through Advanced Feature Engineering and Data Segmentation Techniques (2024)
Journal Article
Shukla, K., Holderbaum, W., Theodoridis, T., & Wei, G. (in press). Enhancing Gearbox Fault Diagnosis through Advanced Feature Engineering and Data Segmentation Techniques. Machines, 12(4), 261. https://doi.org/10.3390/machines12040261

Efficient gearbox fault diagnosis is crucial for the cost-effective maintenance and reliable operation of rotating machinery. Despite extensive research, effective fault diagnosis remains challenging due to the multitude of features available for cla... Read More about Enhancing Gearbox Fault Diagnosis through Advanced Feature Engineering and Data Segmentation Techniques.

Sarrus-inspired deployable polyhedral mechanisms (2024)
Journal Article
Gu, Y., Zhang, X., Wei, G., & Chen, Y. (2024). Sarrus-inspired deployable polyhedral mechanisms. Mechanism and Machine Theory, 193, 105564. https://doi.org/10.1016/j.mechmachtheory.2023.105564

Deployable polyhedral mechanisms (DPMs) have witnessed flourishing growth in recent years because of their potential applications in robotics, space exploration, structure engineering, and so forth. This paper firstly presents the construction, mobil... Read More about Sarrus-inspired deployable polyhedral mechanisms.

Hamiltonian-path based constraint reduction for deployable polyhedral mechanisms (2023)
Journal Article
Gu, Y., Zhang, X., Wei, G., & Chen, Y. (in press). Hamiltonian-path based constraint reduction for deployable polyhedral mechanisms. Mechanism and Machine Theory, 193, 105563. https://doi.org/10.1016/j.mechmachtheory.2023.105563

Most of the deployable polyhedral mechanisms (DPMs) are multi-loop overconstrained mechanisms that causes barriers for their applications due to the issues in assembly, operation and control. Yet, constraint reduction for these mult... Read More about Hamiltonian-path based constraint reduction for deployable polyhedral mechanisms.

Fully 3D printed flexible, conformal and multi-directional tactile sensor with integrated biomimetic and auxetic structure (2023)
Journal Article

Tactile sensors play a crucial role in the development of biologically inspired robotic prostheses, particularly in providing tactile feedback. However, existing sensing technology still falls short in terms of sensitivity under high pressure and ada... Read More about Fully 3D printed flexible, conformal and multi-directional tactile sensor with integrated biomimetic and auxetic structure.

Using an EeonTex Conductive Stretchable Elastic Fibre for Hand Action Recognition (2023)
Journal Article
Abdul-Hussain, G., Holderbaum, W., Theodoridis, T., Wei, G., El-Hussieny, H., & Ferriz-Papi, J. A. (in press). Using an EeonTex Conductive Stretchable Elastic Fibre for Hand Action Recognition. Advances in Science and Technology, 133, 3-10. https://doi.org/10.4028/p-eeodk5

Tactile sensors in wearable devices have gained attention for their potential applications in enhancing amenability, generation, and functionality for the human body, including sensing and control. This study elaborates on the design of a tactile sen... Read More about Using an EeonTex Conductive Stretchable Elastic Fibre for Hand Action Recognition.

X-crossing pneumatic artificial muscles (2023)
Journal Article
Feng, M., Yang, D., Ren, L., Wei, G., & Gu, G. (2023). X-crossing pneumatic artificial muscles. Science Advances, 9(38), https://doi.org/10.1126/sciadv.adi7133

Artificial muscles are promising in soft exoskeletons, locomotion robots, and operation machines. However, their performance in contraction ratio, output force, and dynamic response is often imbalanced and limited by materials, structures, or actuati... Read More about X-crossing pneumatic artificial muscles.

Modified Nonlinear Hysteresis Approach for a Tactile Sensor (2023)
Journal Article
Abdul-Hussain, G., Holderbaum, W., Theodoridis, T., & Wei, G. (in press). Modified Nonlinear Hysteresis Approach for a Tactile Sensor. Sensors, 23(16), 7293. https://doi.org/10.3390/s23167293

Soft tactile sensors based on piezoresistive materials have large-area sensing applications. However, their accuracy is often affected by hysteresis which poses a significant challenge during operation. This paper introduces a novel approach that emp... Read More about Modified Nonlinear Hysteresis Approach for a Tactile Sensor.

Design, Dimensional Synthesis and Evaluation of a Novel Two-Degrees-of-Freedom Spherical Remote Center of Motion Mechanism for Minimally Invasive Surgery (2023)
Journal Article
Li, J., Wang, J., Zhao, J., & Wei, G. (in press). Design, Dimensional Synthesis and Evaluation of a Novel Two-Degrees-of-Freedom Spherical Remote Center of Motion Mechanism for Minimally Invasive Surgery. Journal of Mechanisms and Robotics, 1-38. https://doi.org/10.1115/1.4062673

With the development of minimally invasive surgery (MIS) technology, higher requirements are put forward for the performance of remote center of motion (RCM) manipulator. This paper presents the conceptual design of a novel two degrees of freedom (2-... Read More about Design, Dimensional Synthesis and Evaluation of a Novel Two-Degrees-of-Freedom Spherical Remote Center of Motion Mechanism for Minimally Invasive Surgery.

Self-adaptive obstacle crossing of an AntiBot from reconfiguration control and mechanical adaptation (2023)
Journal Article
Song, Z., Luo, Z., Wei, G., & Shang, J. (2023). Self-adaptive obstacle crossing of an AntiBot from reconfiguration control and mechanical adaptation. Journal of Mechanisms and Robotics, 1-82. https://doi.org/10.1115/1.4056601

One drawback of wheeled robots is hard to conquer large obstacles and perform well on complicated terrains, which limits its application in rescue missions. To provide a solution to this issue, an ant-like six-wheeled reconfigurable robot, called Ant... Read More about Self-adaptive obstacle crossing of an AntiBot from reconfiguration control and mechanical adaptation.

Biomechanical analysis of the effect of finger joint configuration on hand grasping performance: rigid vs flexible (2022)
Journal Article
Wei, Y., Zou, Z., Qian, Z., Ren, L., & Wei, G. (2022). Biomechanical analysis of the effect of finger joint configuration on hand grasping performance: rigid vs flexible. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 1-1. https://doi.org/10.1109/tnsre.2022.3229165

Human finger joints are conventionally simplified as rigid joints in robotic hand design and biomechanical hand modelling, due to their anatomic and morphologic complexity. However, our understanding of the effect of the finger joint configuration on... Read More about Biomechanical analysis of the effect of finger joint configuration on hand grasping performance: rigid vs flexible.