Search results for "Control Engineering"

showing 10 items of 435 documents

Low-cost motion control solution for industrial manufacturing systems

2011

This paperwork deals with a low-cost actuation solution, based upon induction motors, which was seldom used in the motion control systems, especially for the machine tools feed drives. A simulation approach, based upon a mathematical model of the induction motor, for tuning the controllers of the systems is presented. Experimental researches developed upon a two axes motion control system, both axes being driven by alternating current asynchronous motors were also performed in order to test the proposed strategies. The asynchronous motors, used as actuation devices were equipped with incremental rotary encoders and controlled by vector frequency inverters and DSP motion control cards were u…

Rotary encoderEngineeringbusiness.product_categorybusiness.industryControl engineeringMotion controlMachine toolControl theoryAsynchronous communicationNumerical controlTorquebusinessInduction motorMachine control2011 9th IEEE International Conference on Industrial Informatics
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Open-Loop Drug Delivery Strategy to the Cochlea using a Permanent Magnetic Actuator

2018

International audience; The use of robotic devices for drug delivery in sensitive area of the human body is an innovative and reliable solution. Most of them use magnetics fields, to steer micro-nanorobots into diseases locations. In this study, we use a magnetic actuator based on two permanent magnets as an end-effector of a robotic manipulator. The actuator offers the possibility to generate both pushing and pulling forces on the magnetic actuator axis in an open-loop control way. We describe in this paper the robotic drug delivery strategy that we implemented in a 6 degree of freedom robotic manipulator to push and to steer a magnetic microparticle from the round window to the apex of th…

Round windowComputer scienceROUND WINDOW MEMBRANE[INFO.INFO-RB] Computer Science [cs]/Robotics [cs.RO]Open-loop controllerRobot manipulator02 engineering and technology021001 nanoscience & nanotechnologyequipment and supplies[SPI.AUTO]Engineering Sciences [physics]/Automatic[SPI.AUTO] Engineering Sciences [physics]/Automaticmedicine.anatomical_structureControl theoryRobustness (computer science)Magnet[INFO.INFO-AU]Computer Science [cs]/Automatic Control EngineeringDrug deliverymedicineRobot[INFO.INFO-RB]Computer Science [cs]/Robotics [cs.RO]0210 nano-technologyActuator[INFO.INFO-AU] Computer Science [cs]/Automatic Control Engineeringhuman activities
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A Knowledge-Based System for the Automatic Generation of Plant Shutdown and Startup Schedules

1988

Abstract When the shutdown of a plant, or part of it, has been decided as consequence of a major fault, the generation of a safe shutdown schedule may be, for large and complex plants, a very difficult and delicate task. The same problem may be found when the plant must be restarted after the fault has been repaired, for the generation of a start-up schedule. The use of a knowledge-based system appears to be a suitable answer to this problem, allowing a high level of safety and a very fast generation process. The paper examines the process knowledge that needs to be included in such a knowledge-based system and proposes some knowledge representation forms that appear suitable for the task t…

ScheduleKnowledge-based systemsEngineeringKnowledge representation and reasoningbusiness.industryShutdownProcess controlProcess knowledgeControl engineeringbusinessFault (power engineering)Reliability engineeringTask (project management)IFAC Proceedings Volumes
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Motion Cueing Algorithms: A Review

2017

Robotic motion platforms are commonly used in motion-based vehicle simulation. However, the reproduction of realistic accelerations within a reduced workspace is a major challenge. Thus, high-level control strategies commonly referred to as motion cueing algorithms (MCA) are required to convert the simulated vehicle physical state into actual motion for the motion platform. This paper reviews the most important strategies for the generation of motion cues in simulators, listing the advantages and drawbacks of the different solutions. The motion cueing problem, a general scheme and the four most common approaches – classical washout, adaptive washout, optimal control and model predictive con…

Scheme (programming language)Class (computer programming)business.industryComputer scienceWork (physics)ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONControl engineeringWorkspaceVirtual realityOptimal controlMotion (physics)Computer visionArtificial intelligenceState (computer science)businessAlgorithmcomputercomputer.programming_languageInternational Journal of Virtual and Augmented Reality
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Robust fault tolerant tracking controller design for vehicle dynamics: A descriptor approach

2015

Abstract In this paper, an active Fault Tolerant Tracking Controller (FTTC) scheme dedicated to vehicle dynamics system is proposed. To address the challenging problem, an uncertain dynamic model of the vehicle is firstly developed, by considering the lateral forces nonlinearities as a Takagi–Sugeno (TS) representation, the sideslip angle as unmeasurable premise variables and the road bank angle as an unknown input. Subsequently, the vehicle dynamic states with the sensor faults are jointly estimated by a descriptor observer on the basis of the roll rate and the steering angle measures. Then a fault tolerant tracking controller is synthesized and solutions are proposed in terms of Linear Ma…

Scheme (programming language)EngineeringObserver (quantum physics)Basis (linear algebra)business.industryMechanical EngineeringFault toleranceControl engineeringTracking (particle physics)Computer Science ApplicationsVehicle dynamicsControl and Systems EngineeringControl theoryElectrical and Electronic EngineeringRepresentation (mathematics)businesscomputercomputer.programming_languageMechatronics
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A modified observer-based prediction approach for industrial applications

2013

The prediction of key variables has great significance to monitor the running status of industrial systems. In this paper, a novel data-driven design of variable predictor is proposed. The basic idea is the realization of prediction observer, which is modified from the observer-based fault diagnose method. Different from the standard data-driven approaches, the proposed scheme is adopted for the dynamic systems due to the superior tracking ability of output observer. Additionally, by introducing an extra design freedom and the estimation of measured value, it can also be used for the case that the key variable is not on-line measurable. Finally, the proposed prediction scheme is applied to …

Scheme (programming language)EngineeringObserver (quantum physics)business.industryValue (computer science)Control engineeringTracking (particle physics)Fault (power engineering)Variable (computer science)Control theoryKey (cryptography)businesscomputerRealization (systems)computer.programming_language2013 IEEE International Symposium on Industrial Electronics
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Intelligent Traction Control for Wheeled Space Vehicles

2006

This paper presents the SC-MER, safety control for Mars exploration rover, an innovative traction control scheme for wheeled mobile vehicles. The system is thought to be used on space mission rovers and is based on fuzzy logic and competitive neural networks to achieve optimal navigation on rough terrain with variable morphology. The main goal of this research is to minimize the power consumption needed during the navigation and improve the overall stability and safety of the rover itself

Scheme (programming language)EngineeringTraction control systemArtificial neural networkbusiness.industryControl engineeringMobile robotTerrainFuzzy control systemFuzzy logicbusinessIntelligent controlcomputercomputer.programming_language2005 IEEE Conference on Emerging Technologies and Factory Automation
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Controlling and learning motor functions

2018

Effective and adaptive motor functions are important for living beings and developing computational and learning mechanisms for roving robots is a crucial aspect in biorobotics. In this chapter we report a new architecture for motor learning to be applied in insect-like walking robots. The proposed model is based on the MB structure previously introduced able to memorize time evolutions of key parameters of the neural motor controller to improve existing motor primitives. The adopted control scheme enables the structure to efficiently cope with goal-oriented behavioural motor tasks. The problem of body-size evaluation is also considered and a model for the parallax-based estimation is provi…

Scheme (programming language)HexapodBioroboticsComputer scienceCentral pattern generatorEnergy Engineering and Power TechnologyControl engineeringMotor controllerEngineering (all)Exponential stabilityRobotMathematics (all)Biotechnology; Chemical Engineering (all); Mathematics (all); Materials Science (all); Energy Engineering and Power Technology; Engineering (all)Chemical Engineering (all)Materials Science (all)Motor learningcomputercomputer.programming_languageBiotechnology
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Developing a Tool Point Control Scheme for a Hydraulic Crane Using Interactive Real-time Dynamic Simulation

2010

This paper describes the implementation of an interactive real-time dynamic simulation model of a hydraulic crane. The user input to the model is given continuously via joystick and output is presented continuously in a 3D animation. Using this simulation model, a tool point control scheme is developed for the specific crane, considering the saturation phenomena of the system and practical implementation. This paper describes the implementation of an interactive real-time dynamic simulation model of a hydraulic crane. The user input to the model is given continuously via joystick and output is presented continuously in a 3D animation. Using this simulation model, a tool point control scheme…

Scheme (programming language)VDP::Mathematics and natural science: 400::Mathematics: 410::Applied mathematics: 413Engineeringhydraulic craneInteractive real-time dynamic simulationbusiness.industryControl (management)VDP::Technology: 500::Mechanical engineering: 570Control engineeringComputerApplications_COMPUTERSINOTHERSYSTEMSlcsh:QA75.5-76.95Computer Science ApplicationsDynamic simulationHydraulic craneTool point controlIdentification (information)Control and Systems EngineeringModeling and SimulationPoint (geometry)lcsh:Electronic computers. Computer sciencebusinesscomputerSoftwareSimulationcomputer.programming_language
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Knowledge-Based Systems and F.E. Simulations in Metal-Forming Processes Design An integrated Approach

1991

Summary The automatic computer aided planning and design of cold forming processes includes several phases, among which the most important are the optimal choice of the forming operations sequence and, for each operation, the determination of the more suitable operating parameters. With this aim the Authors propose an integrated approach based on the preliminary choice of some feasible forming sequences, carried out by means of a knowledge-based system, and on the subsequent determination of the optimal one employing a finite element simulation of the process.

SequenceEngineeringMetal formingbusiness.industryProcess (engineering)Mechanical EngineeringControl engineeringIntegrated approachIndustrial and Manufacturing EngineeringFinite element simulationKnowledge-based systemsComputer-aidedCold formingbusinessSimulationCIRP Annals
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