Artikler med krav om offentlig adgang - Tao WangFå flere oplysninger
Ikke tilgængelige nogen steder: 27
Gennemgå
An energy-saving pressure-compensated hydraulic system with electrical approach
T Wang, Q Wang
IEEE/ASME transactions on mechatronics 19 (2), 570-578, 2014
Krav: National Natural Science Foundation of China
Gennemgå
Parameter identification and model-based nonlinear robust control of fluidic soft bending actuators
T Wang, Y Zhang, Z Chen, S Zhu
IEEE/ASME transactions on mechatronics 24 (3), 1346-1355, 2019
Krav: National Natural Science Foundation of China
Gennemgå
A computationally efficient dynamical model of fluidic soft actuators and its experimental verification
T Wang, Y Zhang, Y Zhu, S Zhu
Mechatronics 58, 1-8, 2019
Krav: National Natural Science Foundation of China
Gennemgå
Design, modeling and experiments of a novel biaxial-pendulum vibration energy harvester
H Lou, T Wang, S Zhu
Energy 254, 124431, 2022
Krav: National Natural Science Foundation of China
Gennemgå
Model-free motion control of continuum robots based on a zeroing neurodynamic approach
N Tan, P Yu, X Zhang, T Wang
Neural Networks 133, 21-31, 2021
Krav: National Natural Science Foundation of China
Gennemgå
Development and modeling of an electromagnetic energy harvester from pressure fluctuations
H Ren, T Wang
Mechatronics 49, 36-45, 2018
Krav: National Natural Science Foundation of China
Gennemgå
A compact hydrostatic-driven electric generator: Design, prototype, and experiment
T Wang, Z Zhou
IEEE/ASME Transactions on Mechatronics 21 (3), 1612-1619, 2015
Krav: National Natural Science Foundation of China
Gennemgå
A novel hybrid control strategy for potential energy regeneration systems of hybrid hydraulic excavators
Q Chen, Q Wang, T Wang
Proceedings of the Institution of Mechanical Engineers, Part I: Journal of …, 2016
Krav: National Natural Science Foundation of China
Gennemgå
Analytical solution of magnetic field distribution in brushless permanent magnet machines with rotor axis deflection
T Wang, Z Zhou
IEEE Transactions on Magnetics 51 (4), 1-6, 2014
Krav: National Natural Science Foundation of China
Gennemgå
Analysis and experiments of a pendulum vibration energy harvester with a magnetic multi-stable mechanism
T Wang, S Zhu
IEEE Transactions on Magnetics 58 (8), 1-7, 2022
Krav: National Natural Science Foundation of China
Gennemgå
Simplified dynamical model and experimental verification of an underwater hydraulic soft robotic arm
Q Xie, T Wang, S Zhu
Smart Materials and Structures 31 (7), 075011, 2022
Krav: National Natural Science Foundation of China
Gennemgå
Resonant frequency reduction of vertical vibration energy harvester by using negative-stiffness magnetic spring
T Wang, S Zhu
IEEE Transactions on Magnetics 57 (9), 1-7, 2021
Krav: National Natural Science Foundation of China
Gennemgå
Development of an electromagnetic energy harvester for ultra-low frequency pitch vibration of unmanned marine devices
T Wang, H Lv, X Wang
Applied Energy 353, 122072, 2024
Krav: National Natural Science Foundation of China
Gennemgå
An experimental study of bellows-type fluidic soft bending actuators under external water pressure
E Sun, T Wang, S Zhu
Smart Materials and Structures 29 (8), 087005, 2020
Krav: National Natural Science Foundation of China
Gennemgå
Vision-based excavator pose estimation for automatic control
G Liu, Q Wang, T Wang, B Li, X Xi
Automation in Construction 157, 105162, 2024
Krav: National Natural Science Foundation of China
Gennemgå
Research on energy consumption of fiber-reinforced fluidic soft actuators
Y Shengda, T Wang, S Zhu
Smart Materials and Structures 30 (2), 025036, 2021
Krav: National Natural Science Foundation of China
Gennemgå
Analytical modeling and experimental verification of a multi-DOF spherical pendulum electromagnetic energy harvester
X Wang, T Wang, H Lv, H Wang, F Zeng
Energy 286, 129428, 2024
Krav: National Natural Science Foundation of China
Gennemgå
Contact force estimation of hydraulic soft bending actuators for gripping
T Wang, E Sun, S Zhu
Advanced Robotics 35 (18), 1098-1106, 2021
Krav: National Natural Science Foundation of China
Gennemgå
A new measurement method of real-time pose estimation for an automatic hydraulic excavator
G Liu, Q Wang, T Wang
2022 IEEE/ASME International Conference on Advanced Intelligent Mechatronics …, 2022
Krav: National Natural Science Foundation of China
Gennemgå
An electrohydraulic control device with decoupling effect for three-chamber soft actuators
T Wang, Y Zhang, Z Zhu, S Zhu
IEEE/ASME Transactions on Mechatronics 27 (3), 1683-1691, 2021
Krav: National Natural Science Foundation of China, European Commission
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