Energy-Saving Nonlinear Friction Compensation Method for Direct Drive Volume Control Flange-Type Rotary Vane Steering Gear

Abstract: In the research of various energy technologies, the direct-drive volume control flange-type rotary vane steering gear (DDVC-FRVSG) has become a promising component for controlling the course and posture of a vessel because of its superior energy-saving performance. However, nonlinear friction limits the ability of the DDVC-FRVSG to satisfy the efficient energy requirements of the vessel. This study proposes compensation methods to suppress nonlinear friction, such that the rudder can be efficiently controlled.… Show more

“…However, actuator dynamics affects also the dynamics of the entire robotic system and the stability properties of the robots' control loop [22,23]. The design of control and actuation schemes for hydraulic manipulators can be improved if rotary hydraulic actuators are used in place of linear hydraulic actuators [24][25][26]. Rotary vane actuators, functioning as rotational drives, provide rotational movements directly because they are constructed as joints and actuators in one.…”

Non‐linear optimal control for multi‐DOF electro‐hydraulic robotic manipulators

“…However, actuator dynamics affects also the dynamics of the entire robotic system and the stability properties of the robots' control loop [22,23]. The design of control and actuation schemes for hydraulic manipulators can be improved if rotary hydraulic actuators are used in place of linear hydraulic actuators [24][25][26]. Rotary vane actuators, functioning as rotational drives, provide rotational movements directly because they are constructed as joints and actuators in one.…”

Non‐linear optimal control for multi‐DOF electro‐hydraulic robotic manipulators