Design of a Single-DoF Prosthetic Hand With Practical Maximum Grip Force and Grasp Speed for ADLs Using Dual-Motor Actuator

Vanich, Phakawat; Tangpornprasert, Pairat; Virulsri, Chanyaphan

doi:10.1109/lra.2023.3238134

Cited by 4 publications

(2 citation statements)

References 22 publications

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“…The grasping force is required to be higher during operation; the proper grasping force is the key to ensuring stability and reliability when grasping objects [ 21 , 22 ]. Therefore, based on the kinematics and statics analysis, we take the grasping force as the optimization target and use the genetic algorithm to optimize the finger mechanism parameters [ 23 , 24 , 25 , 26 ].…”

Section: Finger Kinematics and Statics Analysismentioning

confidence: 99%

Design of a Multi-Mode Mechanical Finger Based on Linkage and Tendon Fusion Transmission

et al. 2023

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Today, most humanoid mechanical fingers use an underactuated mechanism driven by linkages or tendons, with only a single and fixed grasping trajectory. This paper proposes a new multi-mode humanoid finger mechanism based on linkage and tendon fusion transmission, which is embedded with an adjustable-length tendon mechanism to achieve three types of grasping mode. The structural parameters of the mechanism are optimized according to the kinematic and static models. Furthermore, a discussion was conducted on how to set the speed ratio of the linkage driving motor and the tendon driving motor to adjust the length and tension of the tendon, in order to achieve the switching of the shape-adaptive, coupled-adaptive, and variable coupling-adaptive grasping modes. Finally, the multi-mode functionality of the proposed finger mechanism was verified through multiple grasping experiments.

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Section: Finger Kinematics and Statics Analysismentioning

confidence: 99%

Design of a Multi-Mode Mechanical Finger Based on Linkage and Tendon Fusion Transmission

et al. 2023

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“…Multiple-degree actuators are important components that are widely used in different industries and serve a wide range of applications, from robotic weapons to aerospace systems. Traditional actuators are usually used to connect pairs of a single degree of freedom motors using series or parallel configuration gears and connections [1][2][3][4]. However, these conventional actuators have several limitations, such as large size, high mass, a reduced positioning accuracy and workspace specificity.…”

Section: Introductionmentioning

confidence: 99%

Symmetric Nonlinear Feedback Control and Machine Learning for Sustainable Spherical Motor Operation

Hassan,

Beshr,

Beshr

et al. 2023

Symmetry

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This paper presents a comprehensive evaluation of a new control technique for the sphere motor system, aimed at achieving accurate tracking, robust and dispersion of vibrations. Control methods include the determination of a nonlinear model and the application of feedback linearization, followed by the optimization of the proportional derivative (PD) coefficients through the Adaptive Neuro-Fuzzy Inference System. In addition, the system’s reaction to harsh environments is managed using Long Short-Term Memory. In order to gain a deeper understanding, symmetrical environmental disturbances and trajectories are introduced during the testing phase. The results demonstrate the superior performance of the control strategy, with reduced vibrations, faster recovery and confirmed tracking accuracy. In addition, the control method shows its adaptability and reliability, as evidenced by the significant reduction in CO2 emissions compared to conventional PD control methods. The use of symmetric trajectories and visualizations further emphasizes the behavior of the system under symmetric conditions, strengthening the effectiveness and applicability of the control strategy in real-world scenarios. Overall, this study presents a promising solution for converting complex systems under different conditions and making them potentially applicable in various industrial contexts.

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The model and design of a Spring-Embedded Planetary Dual-Motor Actuator to reduce energy losses

Crispel

García

Varadharajan

et al. 2023

Mechanism and Machine Theory

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Design of a Single-DoF Prosthetic Hand With Practical Maximum Grip Force and Grasp Speed for ADLs Using Dual-Motor Actuator

Cited by 4 publications

References 22 publications

Design of a Multi-Mode Mechanical Finger Based on Linkage and Tendon Fusion Transmission

Design of a Multi-Mode Mechanical Finger Based on Linkage and Tendon Fusion Transmission

Symmetric Nonlinear Feedback Control and Machine Learning for Sustainable Spherical Motor Operation

The model and design of a Spring-Embedded Planetary Dual-Motor Actuator to reduce energy losses

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