Jianwei Sun scite author profile

In this paper, three-dimensional (3D) elliptical vibration cutting (EVC) method is presented to fabricate optical parts of difficult-to-cut materials, which vibrates the diamond tool at a 3D ellipse trajectory driven by the nonresonant principle. The surface quality of the workpiece is determined by the elliptical motion parameters of the cutting tool. So this paper adopts genetic algorithm (GA) to optimize ellipse parameters to get better surface quality. An optimization model is established to minimize the surface roughness of the workpiece. And the validity of the proposed approach is verified by a numerical example. This research can direct designers to choose the optimum ellipse parameters to machine optical parts in the cutting experiments.

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Admittance Control Scheme Comparison of EXO-UL8: A Dual-Arm Exoskeleton Robotic System

Shen

Sun

et al. 2019

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In physical rehabilitation, exoskeleton assistive devices aim to restore lost motor functions of a patient suffering from neuromuscular or musculoskeletal disorders. These assistive devices are classified as operating in one of two modes: (1) passive mode, in which the exoskeleton passively moves its joints through the full range (or a subset) of the patient's motion during engagement, or (2) assist-as-needed (AAN) mode, in which the exoskeleton provides assistance to the joints of the patient, either by initiating the movements or assisting the patient's movements to complete the task at hand. Achieving high physical human-robot interaction (pHRI) transparency is an open problem for multiple degrees-of-freedom (DOFs) redundant exoskeletons. Using the EXO-UL8 exoskeleton, this study compares two multi-joint admittance control schemes (hyper parameter-based, and Kalman Filter-based) with comfort optimization to improve human-exoskeleton transparency. The control schemes were tested by three healthy subjects who completed reaching tasks while assisted by the exoskeleton. Kinematic information in both joint and task space, as well as force-and torque-based power exchange between the human arm and exoskeleton, are collected and analyzed. The results show that the preliminary Kalman Filter-based control scheme matches the performance of the existing hyper parameter-based scheme, highlighting the potential of the Kalman Filter-based approach for additional performance.

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Electrically Driven Lower Limb Exoskeleton Rehabilitation Robot Based on Anthropomorphic Design

et al. 2022

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To help people with impairment of lower extremity movement regain the ability to stand and walk, and to enhance limb function, this study proposes an anthropomorphic design of an electrically driven, lower-limb exoskeleton rehabilitation robot. The angular range of the robot’s motion was determined according to the characteristics of the targeted lower-limb joints; the robot was given an active–passive anthropomorphic design with 12 degrees of freedom. The multi-degree-of-freedom hip exoskeleton, bionic artificial knee exoskeleton and passive rigid-flexible coupling ankle exoskeleton can assist patients in rehabilitation exercises with better wear comfort and exercise flexibility. A kinetic model of the seven-rod lower-limb exoskeleton rehabilitation robot was built, and data analysis of the dynamically captured motion trajectory was conducted. These provided a theoretical basis for gait planning and the control system of the lower-limb exoskeleton rehabilitation robot. The results show that the lower-limb exoskeleton rehabilitation robot system possesses sound wearing comfort and movement flexibility, and the degree of freedom of movement of the exoskeleton robot matches well with that of human movement. The robot can thus provide effective assistance to patients’ standing and walking rehabilitation training.

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Synthesis of a multi-beam dual reflectarray antenna using genetic algorithms

Geaney

Sun

Hum³

et al. 2017

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Jianwei Sun

Sensor Reduction, Estimation, and Control of an Upper-Limb Exoskeleton

Parameters Optimization for Machining Optical Parts of Difficult-To-cut Materials by Genetic Algorithm

Admittance Control Scheme Comparison of EXO-UL8: A Dual-Arm Exoskeleton Robotic System

Electrically Driven Lower Limb Exoskeleton Rehabilitation Robot Based on Anthropomorphic Design

Synthesis of a multi-beam dual reflectarray antenna using genetic algorithms

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