Search results for "Control"

showing 10 items of 13168 documents

Identification and control design for path tracking of hydraulic loader crane

2017

The controlled operation of hydraulic machines with multiple degrees of freedom is challenging due to complex nonlinear dynamics of cylinder actuators, in addition to multibody dynamics like in the case of hydraulic manipulators. This paper addresses the system identification and control design for path tracking of a standard hydraulic loader crane. The kinematics of the crane is solved for operation in the vertical plane and generation of trajectories for the tool tip to be followed. A frequency response measurements and analysis have been done for dynamics modeling of both hydraulic cylinders actuating main boom and jib. The static dead-zone type input non-linearity has been identified an…

0209 industrial biotechnologyEngineeringbusiness.industrySystem identificationControl engineering02 engineering and technologyKinematicsMultibody systemlaw.inventionLoaderHydraulic cylinder020901 industrial engineering & automation020401 chemical engineeringlawControl theoryCartesian coordinate system0204 chemical engineeringHydraulic machineryActuatorbusiness2017 IEEE International Conference on Advanced Intelligent Mechatronics (AIM)
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Finite-time stability and stabilisation for a class of nonlinear systems with time-varying delay

2014

This paper is concerned with the problems of finite-time stability FTS and finite-time stabilisation for a class of nonlinear systems with time-varying delay, which can be represented by Takagi–Sugeno fuzzy system. Some new delay-dependent FTS conditions are provided and applied to the design problem of finite-time fuzzy controllers. First, based on an integral inequality and a fuzzy Lyapunov–Krasovskii functional, a delay-dependent FTS criterion is proposed for open-loop fuzzy system by introducing some free fuzzy weighting matrices, which are less conservative than other existing ones. Then, the parallel distributed compensation controller is designed to ensure FTS of the time-delay fuzzy…

0209 industrial biotechnologyEngineeringfinite-time stabilisation; finite-time stability; fuzzy control; nonlinear system; time-delay system; Control and Systems Engineering; Theoretical Computer Science; Computer Science Applications1707 Computer Vision and Pattern RecognitionStability (learning theory)fuzzy controltime-delay system02 engineering and technologynonlinear systemFuzzy logicCompensation (engineering)Theoretical Computer Science020901 industrial engineering & automationControl theory0202 electrical engineering electronic engineering information engineeringfinite-time stabilisationfinite-time stabilityAdaptive neuro fuzzy inference systembusiness.industryComputer Science Applications1707 Computer Vision and Pattern RecognitionFuzzy control systemComputer Science ApplicationsWeightingNonlinear systemControl and Systems Engineering020201 artificial intelligence & image processingbusiness
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Feasibility study of electromechanical cylinder drivetrain for offshore mechatronic systems

2017

Currently, there is an increasing focus on the environmental impact and energy consumption of the oil and gas industry. In offshore drilling equipment, electric motors tend to replace traditionally used hydraulic motors, especially in rotational motion control applications. However, force densities available from linear hydraulic actuators are still typically higher than those of electric actuators. Therefore, usually the remaining source of hydraulic power is thereby the hydraulic cylinder. This paper presents a feasibility study on the implementation of an electromechanical cylinder drivetrain on an offshore vertical pipe handling machine. The scope of this paper is to investigate the fea…

0209 industrial biotechnologyEngineeringmotion controlModeling and simulationMechanical engineeringDrivetrain02 engineering and technologylcsh:QA75.5-76.95Automotive engineeringModeling and simulation020901 industrial engineering & automationOffshore drilling0202 electrical engineering electronic engineering information engineeringCylinderMotion controlMultibody systemsOffshore drillingHydraulic actuation systemshydraulic actuation systemsMechatronic systemsbusiness.industry020208 electrical & electronic engineeringMechatronicsMotion controlComputer Science Applicationsoffshore drillingmultibody systemsControl and Systems EngineeringElectromechanical cylinderModeling and SimulationSubmarine pipelinelcsh:Electronic computers. Computer sciencebusinesselectromechanical cylinderSoftware
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Experimental framework of traveling trolley with swinging load for hybrid motion control

2018

A novel experimental framework of the traveling trolley with swinging load is proposed. The system is designed as a controlled moving cart with pendulum for investigation of the hybrid motion control methods, involving the discrete sensors and impulsive event-based state observations and control actions. A mechatronic approach of principal system design, modeling, and identification are provided together with a motion control of the cart and simple event-based control of a-priori unknown final position. The coupled motion dynamics is analyzed and evaluated by using the discrete sensors, along with the control results.

0209 industrial biotechnologyEvent (computing)Computer scienceElementary eventDynamics (mechanics)Pendulum02 engineering and technologyMechatronicsMotion control01 natural sciences020901 industrial engineering & automationPosition (vector)Control theory0103 physical sciencesSystems design010301 acoustics2018 IEEE 15th International Workshop on Advanced Motion Control (AMC)
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Dynamic Response of a Rigital Displacement Motor Operating with Various Displacement Strategies

2019

Digital displacement technology has the potential of revolutionizing the performance of hydraulic piston pumps and motors. Instead of connecting each cylinder chamber to high and low pressure in conjunction with the shaft position, two electrically-controlled on/off valves are connected to each chamber. This allows for individual cylinder chamber control. Variable displacement can be achieved by using different displacement strategies, like for example the full stroke, partial stroke, or sequential partial stroke displacement strategy. Each displacement strategy has its transient and steady-state characteristics. This paper provides a detailed simulation analysis of the transient and steady…

0209 industrial biotechnologyExperimental validationControl and OptimizationSteady state (electronics)Digital displacement motorComputer scienceEnergy Engineering and Power Technology02 engineering and technologyVariable displacement01 natural scienceslcsh:Technologylaw.inventionCylinder (engine)PistonTransient response020901 industrial engineering & automationlawControl theoryexperimental validation0103 physical sciencesCylinderDisplacement (orthopedic surgery)Stroke (engine)Transient responsedisplacement strategiesElectrical and Electronic Engineeringsteady-state response010301 acousticsEngineering (miscellaneous)Steady-state responseRenewable Energy Sustainability and the Environmentlcsh:TModelingmodelingDisplacement strategiestransient responseHydraulic cylinderVDP::Teknologi: 500digital displacement motordigital displacement motor; displacement strategies; transient response; steady-state response; modeling; experimental validationTransient (oscillation)Energy (miscellaneous)
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Automatic Take Off and Landing for UAS Flying in Turbulent Air - An EKF Based Procedure

2020

An innovative use of the Extended Kalman Filter (EKF) is proposed to perform automatic take off and landing by the rejection of disturbances due to turbulence. By using two simultaneously working Extended Kalman Filters, a procedure is implemented: the first filter, by using measurements gathered in turbulent air, estimates wind components; the second one, by using the estimated disturbances, obtains command laws that are able to reject disturbances. The fundamental innovation of such a procedure consists in the fact that the covariance matrices of process (Q) and measurement (R) noise are not treated as filter design parameters. In this way determined optimal values of the aforementioned m…

0209 industrial biotechnologyExtended Kalman filter020901 industrial engineering & automationTurbulenceComputer scienceControl theory0103 physical sciencesExtended Kalman FilterAdaptive control laws Automatic take off/landing Extended Kalman FilterSettore ING-IND/03 - Meccanica Del Volo02 engineering and technology01 natural sciences010305 fluids & plasmas
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Interdisciplinary design methodology for systems of mechatronic systems focus on highly dynamic environmental applications

2017

This paper discusses a series of research challenges in the design of systems of mechatronic systems. A focus is given to environmental mechatronic applications within the chain “Renewable energy production — Smart grids — Electric vehicles”. For the considered mechatronic systems, the main design targets are formulated, the relations to state and parameter estimation, disturbance observation and rejection as well as control algorithms are highlighted. Finally, the study introduces an interdisciplinary design approach based on the intersectoral transfer of knowledge and collaborative experimental activities.

0209 industrial biotechnologyFocus (computing)Computer science020208 electrical & electronic engineering02 engineering and technologyMechatronics7. Clean energy020901 industrial engineering & automationSmart gridInterdisciplinary design13. Climate actionControl system0202 electrical engineering electronic engineering information engineeringSystems engineeringIECON 2017 - 43rd Annual Conference of the IEEE Industrial Electronics Society
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Frequency-domain experimental setup for mechatronic and suspension system components

2021

This paper presents a frequency-domain experimental setup for modal analysis of mechatronic and suspension system components. Design, instrumentation and dynamic behavior of the one degree-of-freedom (DOF) system, capable of providing both, periodic and application-specific, excitation forces is described. The excitation is realized by an electromagnetic modal shaker with additional assembly and interface components designed and instrumented for frequency -domain analysis of vertical dynamics. Frequency response functions (FRFs) of the implemented system are experimentally measured and the associated basic model parameters are calculated, correspondingly identified. Accurate fit between the…

0209 industrial biotechnologyFrequency responseComputer scienceModal analysisAcousticsAutomatic frequency control02 engineering and technologyVehicle dynamicsMechanical system020303 mechanical engineering & transports020901 industrial engineering & automation0203 mechanical engineeringFrequency domainDomain analysisShaker
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Optimization of Vehicle-to-Vehicle Frontal Crash Model Based on Measured Data Using Genetic Algorithm

2017

In this paper, a mathematical model for vehicle-to-vehicle frontal crash is developed. The experimental data are taken from the National Highway Traffic Safety Administration. To model the crash scenario, the two vehicles are represented by two masses moving in opposite directions. The front structures of the vehicles are modeled by Kelvin elements, consisting of springs and dampers in parallel, and estimated as piecewise linear functions of displacements and velocities, respectively. To estimate and optimize the model parameters, a genetic algorithm approach is proposed. Finally, it is observed that the developed model can accurately reproduce the real kinematic results from the crash test…

0209 industrial biotechnologyGeneral Computer ScienceComputer scienceCrash02 engineering and technologyVehicle-to-vehicleDamperComputer Science::RoboticsEngineering (all)020901 industrial engineering & automation0203 mechanical engineeringControl theoryparameters estimationGenetic algorithmgenetic algorithmGeneral Materials ScienceSimulationvehicle-to-vehicle crashComputer Science (all)ModelingGeneral EngineeringCrash test020303 mechanical engineering & transportsMaterials Science (all)lcsh:Electrical engineering. Electronics. Nuclear engineeringgenetic algorithm; Modeling; parameters estimation; vehicle-to-vehicle crash; Computer Science (all); Materials Science (all); Engineering (all)lcsh:TK1-9971IEEE Access
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Nonlinear network dynamics for interconnected micro-grids

2018

Abstract This paper deals with transient stability in interconnected micro-grids. The main challenge is to understand the impact of the connectivity of the graph and model nonlinearities on transient and steady-state behavior of the system as a whole. The contribution of this paper is three-fold. First, we provide a robust classification of transient dynamics for different intervals of the parameters for a single micro-grid. We prove that underdamped dynamics and oscillations arise when the damping coefficient is below a certain threshold which we calculate explicitly as function of the product between the inertia coefficient and the synchronization parameter. Second, for interconnected mic…

0209 industrial biotechnologyGeneral Computer ScienceComputer scienceMechanical Engineeringmedia_common.quotation_subject010102 general mathematics02 engineering and technologyInertiaNetwork dynamics01 natural sciencesConsensus dynamicsNonlinear system020901 industrial engineering & automationControl and Systems EngineeringHomogeneity (physics)Statistical physics0101 mathematicsElectrical and Electronic EngineeringAbsolute stabilitymedia_commonSystems & Control Letters
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