Analysis of Vibration Characteristics of Electro-hydraulic 3-UPS/S Parallel Stabilized Platform

Abstract: With the development of fluid power transmission and control and control technology, using electro-hydraulic driven can significantly improve the load-carrying capacity, stiffness, and control accuracy of the stabilization platforms. However, compared to mechanical driven, electro-hydraulic driven parallel stabilization platform needs to consider the stiffness and damping of the fluid, as well as the coupling effect between the fluid and the structure, making the modal and dynamic response characteristics of t… Show more

“…A comparison analysis was undertaken to assess the efficacy of these two optimization methodologies [2].The hexapod parallel manipulator's stability was ensured through a specialized control system, incorporating advanced techniques like a telescopic boom and a gyroscopic self-leveling head for analysis [3]. The study focuses on creating a pedestal assembly for a medium-power transportable radar system, utilizing electromechanical and sliding actuators to adjust the azimuth and elevation settings of a 7-ton antenna [4].The design of an electro-hydraulicdriven parallel stabilization platform requires careful consideration of factors like fluid stiffness, damping properties, and the coupling effect between the fluid and structure, which increases the complexity of the modal and dynamic response characteristics [5]. The study presents a multipurpose amphibious platform for geognostic tasks in nearshore environments, regulated by flow rate and pressure, and using the Inertial Measurement Unit for seafloor alignment.…”

Modeling and Simulation of Hydraulic Proportional Control Valves with Different Types of Controllers s

“…A comparison analysis was undertaken to assess the efficacy of these two optimization methodologies [2].The hexapod parallel manipulator's stability was ensured through a specialized control system, incorporating advanced techniques like a telescopic boom and a gyroscopic self-leveling head for analysis [3]. The study focuses on creating a pedestal assembly for a medium-power transportable radar system, utilizing electromechanical and sliding actuators to adjust the azimuth and elevation settings of a 7-ton antenna [4].The design of an electro-hydraulicdriven parallel stabilization platform requires careful consideration of factors like fluid stiffness, damping properties, and the coupling effect between the fluid and structure, which increases the complexity of the modal and dynamic response characteristics [5]. The study presents a multipurpose amphibious platform for geognostic tasks in nearshore environments, regulated by flow rate and pressure, and using the Inertial Measurement Unit for seafloor alignment.…”

Modeling and Simulation of Hydraulic Proportional Control Valves with Different Types of Controllers s