Design Method of Intelligent Ropeway Type Line Changing Robot Based on Lifting Force Control and Synovial Film Controller

Abstract: Aiming at the problems of low efficiency, reliability, and safety of manual construction for demolition of old lines, a design method of an intelligent ropeway type line changing robot based on lifting force control and synovial film controller is proposed. First, the mechanical model of robot load and line sag is established, and the sag of the overhead line where the robot is located is used to calculate the jacking force that the jacking device needs to provide to the robot. Then, by introducing the radial … Show more

“…Collaborative robot (CoBot) is a kind of robot with high flexibility, security, and cooperation, which can work in the same workspace as human beings and complete tasks together (Lytridis et al, 2021;Fan et al, 2023;Zhai et al, 2022). Compared with traditional industrial robots, collaborative robots are adaptive and customizable, which can quickly adapt to diverse production and service needs, and well meet the requirements of flexible customization in intelligent manufacturing.…”

“…tracking tasks more effectively. Academic researchers have made considerable efforts to enhance the performance of collaborative robots' trajectory tracking, such as computing torque control (Ghediri et al, 2022;Ramuzat et al, 2022), disturbance observer (Jie et al, 2020;Regmi et al, 2022;Salman et al, 2023), adaptive immunity control (ADRC; Khaled et al, 2020;Ma et al, 2021;Guo et al, 2016;Gaidhane et al, 2023), fuzzy control (Xian et al, 2023;Jiang et al, 2020), and sliding mode control (SMC; Lv, 2020;Duan et al, 2022;Zhao et al, 2022). These control algorithms can greatly improve the trajectory tracking performance of the robot to some extent, but they also have some shortcomings, for example, computational torque control and optimal control cannot handle uncertainties such as parameters, external disturbances, and variable loads well.…”

Robust trajectory tracking control for collaborative robots based on learning feedback gain self-adjustment

“…Collaborative robot (CoBot) is a kind of robot with high flexibility, security, and cooperation, which can work in the same workspace as human beings and complete tasks together (Lytridis et al, 2021;Fan et al, 2023;Zhai et al, 2022). Compared with traditional industrial robots, collaborative robots are adaptive and customizable, which can quickly adapt to diverse production and service needs, and well meet the requirements of flexible customization in intelligent manufacturing.…”

“…tracking tasks more effectively. Academic researchers have made considerable efforts to enhance the performance of collaborative robots' trajectory tracking, such as computing torque control (Ghediri et al, 2022;Ramuzat et al, 2022), disturbance observer (Jie et al, 2020;Regmi et al, 2022;Salman et al, 2023), adaptive immunity control (ADRC; Khaled et al, 2020;Ma et al, 2021;Guo et al, 2016;Gaidhane et al, 2023), fuzzy control (Xian et al, 2023;Jiang et al, 2020), and sliding mode control (SMC; Lv, 2020;Duan et al, 2022;Zhao et al, 2022). These control algorithms can greatly improve the trajectory tracking performance of the robot to some extent, but they also have some shortcomings, for example, computational torque control and optimal control cannot handle uncertainties such as parameters, external disturbances, and variable loads well.…”

Robust trajectory tracking control for collaborative robots based on learning feedback gain self-adjustment

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