Jianzhong Shang scite author profile

This paper presents the design and development of a novel reconfigurable hybrid wheel-track mobile robot (RHMBot). This new reconfigurable mobile robot is constructed based on a Watt II six-bar linkage; through structure reconfiguration, it can provide three locomotion modes as wheel mode, tracked mode, and climbing and roll-over mode. Mechanical design of the proposed RHMBot is introduced, and using mechanism decomposition kinematics of the reconfigurable frame is investigated. Locomotion of the robot is then interpreted associated with transformation of the reconfigurable frame. Further, deformation of the deformable track belt is characterized and static analysis of the reconfigurable frame is accomplished. Numerical simulation of the proposed reconfigurable frame is subsequently implemented, integrated with driving-torque associated parametric study, leading to optimization of the structure parameters. Consequently, prototype of the proposed RHMBot is designed and developed; exploiting which a series of field tests are conducted verifying feasibility and manoeuvrability of the proposed multilocomotion mobile robot.

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The Optimized Allocation of Mobile Emergency Generator Based on the Loads Importance

Shang

Sheng

Zhang

et al. 2009

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Stability Analysis With Considering the Transition Interval for PWM DC-DC Converters Based on Describing Function Method

Shang

Zhang

et al. 2018

IEEE Access

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Jianzhong Shang

Development of Inchworm In-Pipe Robot Based on Self-Locking Mechanism

Statistical Inference of Accelerated Life Testing With Dependent Competing Failures Based on Copula Theory

A reconfigurable hybrid wheel-track mobile robot based on Watt II six-bar linkage

The Optimized Allocation of Mobile Emergency Generator Based on the Loads Importance

Stability Analysis With Considering the Transition Interval for PWM DC-DC Converters Based on Describing Function Method

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