Search results for " OPT"

showing 10 items of 13620 documents

Event-triggered robust adaptive control for discrete time uncertain systems with unmodelled dynamics and disturbances

2019

In practice, modelling errors caused by high-order unmodelled dynamics and external disturbances are unavoidable. How to ensure the robustness of an adaptive controller with respect to such modelling errors is always a critical concern. In this study, the authors consider the design of event-triggered robust adaptive control for a class of discrete-time uncertain systems which involve such modelling errors and also are allowed to be non-minimum phase. Unlike some existing event-triggered control schemes, the developed controllers do not require that the measurement errors meet the corresponding input-to-state stable condition. Global stability of the closed-loop system which means that all …

0209 industrial biotechnologyControl and OptimizationAdaptive controlObservational errorComputer scienceUncertain systems02 engineering and technologyComputer Science ApplicationsHuman-Computer InteractionVDP::Teknologi: 500020901 industrial engineering & automationDiscrete time and continuous timeControl and Systems EngineeringControl theoryRobustness (computer science)Bounded functionElectrical and Electronic EngineeringRobust controlEvent triggered

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Dynamic Modeling of Planar Multi-Link Flexible Manipulators

2021

A closed-form dynamic model of the planar multi-link flexible manipulator is presented. The assumed modes method is used with the Lagrangian formulation to obtain the dynamic equations of motion. Explicit equations of motion are derived for a three-link case assuming two modes of vibration for each link. The eigenvalue problem associated with the mass boundary conditions, which changes with the robot configuration and payload, is discussed. The time-domain simulation results and frequency-domain analysis of the dynamic model are presented to show the validity of the theoretical derivation.

0209 industrial biotechnologyControl and OptimizationComputer science02 engineering and technology020901 industrial engineering & automationPlanarArtificial IntelligenceNormal modeControl theoryVDP::Teknologi: 500::Maskinfag: 570TJ1-15700202 electrical engineering electronic engineering information engineeringMechanical engineering and machineryBoundary value problemEigenvalues and eigenvectorsroboticsOscillationmodesMechanical Engineering020208 electrical & electronic engineeringPayload (computing)Equations of motionmodelingoscillationVibrationflexibilityvibrationRobotics

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A Self-Contained Electro-Hydraulic Cylinder with Passive Load-Holding Capability

2019

Self-contained electro-hydraulic cylinders have the potential to replace both conventional hydraulic systems and the electro-mechanical counterparts enhancing energy efficiency, plug-and-play installation, and reduced maintenance. Current commercial solutions of this technology are limited and typically tailor-made, whereas the research emphasis is primarily on cost efficiency and power applications below five [kW]. Therefore, there is the need of developing more flexible systems adaptable to multiple applications. This research paper offers a contribution in this regard. It presents an electro-hydraulic self-contained single-rod cylinder with passive load-holding capability, sealed tank, c…

0209 industrial biotechnologyControl and OptimizationComputer science020209 energyEnergy Engineering and Power TechnologyComputerApplications_COMPUTERSINOTHERSYSTEMS02 engineering and technologySelf-contained cylinderslcsh:TechnologyAutomotive engineeringCylinder (engine)law.invention020901 industrial engineering & automationlawload-holding valves0202 electrical engineering electronic engineering information engineeringCylinderElectrical and Electronic EngineeringHydraulic machineryEngineering (miscellaneous)Renewable Energy Sustainability and the EnvironmentOscillationlcsh:TmodelingSelf-contained cylinders; electro-hydraulic systems; load-holding valves; modelingPower (physics)VDP::Teknologi: 500ActuatorEnergy (signal processing)electro-hydraulic systemsEnergy (miscellaneous)

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Classification and Review of Pump-Controlled Differential Cylinder Drives

2019

Pump-controlled hydraulic cylinder drives may offer improved energy efficiency, compactness, and plug-and-play installation compared to conventional valve-controlled hydraulic systems and thus have the potential of replacing conventional hydraulic systems as well as electro-mechanical alternatives. Since the late 1980s, research into how to configure the hydraulic circuit of pump-controlled cylinder drives has been ongoing, especially in terms of compensating the uneven flow requirements required by a differential cylinder. Recently, research has also focused on other aspects such as replacing a vented oil tank with a small-volume pressurized accumulator including the consequences of this i…

0209 industrial biotechnologyControl and OptimizationComputer science020209 energyThrottleless hydraulicsEnergy Engineering and Power Technology02 engineering and technologyLinear hydraulic actuationlcsh:TechnologyAutomotive engineering020901 industrial engineering & automationOil tankPump-controlled cylinder drivesDirect-driven hydraulicspump-controlled cylinder drivesThermal0202 electrical engineering electronic engineering information engineeringCylinderElectrical and Electronic EngineeringHydraulic machineryEngineering (miscellaneous)Hydraulic pumpValveless hydraulic driveRenewable Energy Sustainability and the Environmentlcsh:THydraulic circuitdirect-driven hydraulicsAccumulator (energy)VDP::Teknologi: 500Hydraulic cylinderthrottleless hydraulicsVDP::Medisinske Fag: 700::Helsefag: 800linear hydraulic actuationvalveless hydraulic driveEnergy (miscellaneous)Energies

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Dynamic Modeling, Energy Analysis, and Path Planning of Spherical Robots on Uneven Terrains

2020

Spherical robots are generally comprised of a spherical shell and an internal actuation unit. These robots have a variety of applications ranging from search and rescue to agriculture. Although one of the main advantages of spherical robots is their capability to operate on uneven surfaces, energy analysis and path planning of such systems have been studied only for flat terrains. This work introduces a novel approach to evaluate the dynamic equations, energy consumption, and separation analysis of these robots rolling on uneven terrains. The presented dynamics modeling, separation analysis, and energy analysis allow us to implement path planning algorithms to find an optimal path. One of t…

0209 industrial biotechnologyControl and OptimizationComputer science0211 other engineering and technologiesBiomedical EngineeringTerrain02 engineering and technologySpherical shellComputer Science::RoboticsVehicle dynamics020901 industrial engineering & automationArtificial IntelligenceMotion planningSearch and rescueComputingMethodologies_COMPUTERGRAPHICS021106 design practice & managementMechanical EngineeringPropellerControl engineeringEnergy consumptionComputer Science ApplicationsSystem dynamicsHuman-Computer InteractionControl and Systems EngineeringPath (graph theory)RobotComputer Vision and Pattern RecognitionIEEE Robotics and Automation Letters

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Performance Improvement of a Hydraulic Active/Passive Heave Compensation Winch Using Semi Secondary Motor Control: Experimental and Numerical Verific…

2020

In this paper, a newly developed controller for active heave compensated offshore cranes is compared with state-of-the-art control methods. The comparison is divided into a numerical part on stability margins as well as operational windows and an experimental validation of the expected performance improvement based on a full-scale testing on site with a crane rated to 250 metric tons. Such a crane represents the typical target for the new control method using a combination of active and passive hydraulic actuation on the main winch. The active hydraulic actuation is a hydrostatic transmission with variable-displacement pumps and variable-displacement motors. The new controller employs feedf…

0209 industrial biotechnologyControl and OptimizationComputer scienceEnergy Engineering and Power Technology02 engineering and technologyActive heave compensationlcsh:Technologyactive heave compensationDisplacement (vector)Compensation (engineering)020901 industrial engineering & automationControl theory0202 electrical engineering electronic engineering information engineeringElectrical and Electronic EngineeringWinchEngineering (miscellaneous)lcsh:TRenewable Energy Sustainability and the EnvironmentOscillation020208 electrical & electronic engineeringFeed forwardMotor controlVDP::Teknologi: 500winchhydrostatic transmissionPerformance improvementEnergy (miscellaneous)Energies

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A Comparison Study of a Novel Self-Contained Electro-Hydraulic Cylinder versus a Conventional Valve-Controlled Actuator—Part 2: Energy Efficiency

2019

This research paper presents the second part of a comparative analysis of a novel self-contained electro-hydraulic cylinder with passive load-holding capability against a state of the art, valve-controlled hydraulic system that is typically used in load-carrying applications. After addressing the control design and motion performance in the first part of the study, the comparison is now focused on the systems&rsquo

0209 industrial biotechnologyControl and OptimizationComputer scienceHydraulicspassive load-holdingenergy recoveryComputerApplications_COMPUTERSINOTHERSYSTEMS02 engineering and technologyAutomotive engineeringlaw.invention020901 industrial engineering & automationlinear actuatorslawload-carrying applications0202 electrical engineering electronic engineering information engineeringHydraulic machineryenergy efficiencyEnergy recoveryVDP::Teknologi: 500::Materialteknologi: 520020208 electrical & electronic engineeringEnergy consumptionLinear actuatorFluid powerControl and Systems Engineeringproportional directional control valvesActuatorself-contained cylinderselectro-hydraulic systemsEfficient energy useActuators

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An Input Observer-Based Stiffness Estimation Approach for Flexible Robot Joints

2020

This letter addresses the stiffness estimation problem for flexible robot joints, driven by variable stiffness actuators in antagonistic setups. Due to the difficulties of achieving consistent production of these actuators and the time-varying nature of their internal flexible elements, which are subject to plastic deformation over time, it is currently a challenge to precisely determine the total flexibility torque applied to a robot's joint and the corresponding joint stiffness. Herein, by considering the flexibility torque acting on each motor as an unknown signal and building upon Unknown Input Observer theory, a solution for electrically-driven actuators is proposed, which consists of …

0209 industrial biotechnologyControl and OptimizationFlexibility (anatomy)Observer (quantum physics)Computer scienceBiomedical Engineering02 engineering and technologyCalibration and identificationComputer Science::Robotics020901 industrial engineering & automationArtificial IntelligenceControl theorymedicineTorqueFlexible RobotMechanical Engineeringnatural machine motionStiffness021001 nanoscience & nanotechnologyComputer Science ApplicationsHuman-Computer Interactionmedicine.anatomical_structureControl and Systems EngineeringJoint stiffnessRobotComputer Vision and Pattern Recognitionmedicine.symptomDeformation (engineering)0210 nano-technologyActuatorfailure detection and recoveryIEEE Robotics and Automation Letters

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Energy-based fluid–structure model of the vocal folds

2020

AbstractLumped elements models of vocal folds are relevant research tools that can enhance the understanding of the pathophysiology of many voice disorders. In this paper, we use the port-Hamiltonian framework to obtain an energy-based model for the fluid–structure interactions between the vocal folds and the airflow in the glottis. The vocal fold behavior is represented by a three-mass model and the airflow is described as a fluid with irrotational flow. The proposed approach allows to go beyond the usual quasi-steady one-dimensional flow assumption in lumped mass models. The simulation results show that the proposed energy-based model successfully reproduces the oscillations of the vocal …

0209 industrial biotechnologyControl and OptimizationGlottisComputer scienceApplied MathematicsAirflow02 engineering and technologyMechanicsFold (geology)ArticlesConservative vector field01 natural sciencesCompressible flowPhysics::Fluid Dynamics020901 industrial engineering & automationmedicine.anatomical_structureFlow (mathematics)Control and Systems EngineeringComputer Science::SoundVocal folds0103 physical sciencesmedicine010301 acousticsEnergy (signal processing)

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TIME-MINIMAL CONTROL OF DISSIPATIVE TWO-LEVEL QUANTUM SYSTEMS: THE INTEGRABLE CASE

2009

The objective of this article is to apply recent developments in geometric optimal control to analyze the time minimum control problem of dissipative two-level quantum systems whose dynamics is governed by the Lindblad equation. We focus our analysis on the case where the extremal Hamiltonian is integrable.

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