Search results for "manipulators"

showing 6 items of 6 documents

Multi-agent control architecture for RFID cyberphysical robotic systems initial validation of tagged objects detection and identification using Playe…

2016

International audience; The objective of this paper is to describe and validate a multi-agent architecture proposed to control RFID Cyber-Physical Robotic Systems. This environment may contain human operators, robots (mobiles, manipulators, mobile manipulators, etc.), places (workrooms, walls, etc.) and other objects (tables, chairs, etc.). The proposed control architecture is composed of two types of agents dispatched on two levels. We find at the Organization level a Supervisory agent to allow operators to configure, manage and interact with the overall control system. At the Control level, we distinguish the Robots agents, to each robot (mobiles, manipulators or mobile manipulators) is a…

fiducial tagsComputer sciencemultiagent control architectureReal-time computing02 engineering and technologyRobot kinematicscyber-physical systemsCyber-physical systemPlayer/Stagerobot vicinity[SPI]Engineering Sciences [physics]mobile robotsrobot agentradiofrequency identificationRobot sensing systems0202 electrical engineering electronic engineering information engineering[ SPI ] Engineering Sciences [physics][INFO.INFO-RB]Computer Science [cs]/Robotics [cs.RO]supervisory agentFiducial interfaceRFID cyber-physical robotic systemsmanipulatorsRFIDmobile manipulatorsRobot kinematicsbusiness.industryRFID readershuman operators020208 electrical & electronic engineering[ INFO.INFO-RB ] Computer Science [cs]/Robotics [cs.RO]intelligent robotsObject recognitionObject (computer science)fiducial finderscontrol levelRobot controlCentralized databaseIdentification (information)Control systemEmbedded systemfiducial systemMultirobot systemsRobot020201 artificial intelligence & image processingRFID tagsbusinessFiducial marker
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Interaction Control of Robotic Manipulators Without Force Measurement

2010

This paper deals with a new adaptive force-position control of a robotic manipulator based on force estimation. Based on Lyapunov techniques will be proved that the control law guaranties tracking of the desired Cartesian trajectory along the contact plane and of a constant desired force along reciprocal direction, without force measuring. Extensive simulations with 2-DOF manipulator illustrates the followed approach.

Lyapunov functionAdaptive controlRobotic manipulators control adaptive control interaction control.Computer scienceRobot manipulatorControl engineeringTracking (particle physics)Computer Science::Roboticssymbols.namesakeSettore ING-INF/04 - AutomaticaControl theoryTrajectorysymbolsManipulatorConstant (mathematics)
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Compliance error compensation technique for parallel robots composed of non-perfect serial chains

2012

The paper presents the compliance errors compensation technique for over-constrained parallel manipulators under external and internal loadings. This technique is based on the non-linear stiffness modeling which is able to take into account the influence of non-perfect geometry of serial chains caused by manufacturing errors. Within the developed technique, the deviation compensation reduces to an adjustment of a target trajectory that is modified in the off-line mode. The advantages and practical significance of the proposed technique are illustrated by an example that deals with groove milling by the Orthoglide manipulator that considers different locations of the workpiece. It is also de…

FOS: Computer and information sciences0209 industrial biotechnologyEngineeringGeneral Mathematicsnonlinear stiffness modelingcompliance error compensation02 engineering and technologyIndustrial and Manufacturing EngineeringCompensation (engineering)Computer Science::RoboticsSuperposition principleComputer Science - Robotics020901 industrial engineering & automation0203 mechanical engineeringControl theorymedicine[INFO.INFO-RB]Computer Science [cs]/Robotics [cs.RO]ManipulatorGroove (engineering)business.industryMode (statistics)Parallel manipulatorStiffnessComputer Science Applications020303 mechanical engineering & transportsControl and Systems EngineeringTrajectoryParallel robotsmedicine.symptombusinessnon-perfect manipulatorsRobotics (cs.RO)Software
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Test Methods for the Evaluation of Manufacturing Mobile Manipulator Safety

2016

International audience; This paper presents a test methodology for evaluating the safety of mobile manipulators (robot arms mounted on mobile bases). This methodology addresses the safety concerns relevant to modern, agile, manufacturing practices in which mobile manipulators will play a significant role. We consider 1) the unique capabilities and anticipated uses of mobile manipulators and 2) the potential exemptions and special cases in which their behavior may be unpredictable or otherwise contrary to the safety requirements. Finally, we define metrics for assessing compliance with functional safety requirements and anticipated performance.

mobile manipulators[SPI.AUTO] Engineering Sciences [physics]/Automaticrobot safety[ SPI.AUTO ] Engineering Sciences [physics]/Automatic[INFO.INFO-RB] Computer Science [cs]/Robotics [cs.RO][ INFO.INFO-RB ] Computer Science [cs]/Robotics [cs.RO]AGV safety[INFO.INFO-RB]Computer Science [cs]/Robotics [cs.RO][SPI.AUTO]Engineering Sciences [physics]/Automatic
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Comparison of KVP and RSI for Controlling KUKA Robots Over ROS

2020

In this work, an open-source ROS interface based on KUKAVARPROXY for control of KUKA robots is compared to the commercial closed-source Robot Sensor Interface available from KUKA. This comparison looks at the difference in how these two approaches communicate with the KUKA robot controller, the response time and tracking delay one can expect with the different interfaces, and the difference in use cases for the two interfaces. The investigations showed that the KR16 with KRC2 has a 50 ms response time, and RSI has a 120 ms tracking delay, with negligible delay caused by the ROS communication stack. The results highlight that the commercial inferface is more reliable for feedback control tas…

0209 industrial biotechnologySIMPLE (military communications protocol)Computer scienceFeedback controlInterface (computing)020208 electrical & electronic engineeringMotion control systemsRobot controllerResponse time02 engineering and technology020901 industrial engineering & automationRobot manipulatorsControl and Systems EngineeringControl theory0202 electrical engineering electronic engineering information engineeringRobotRobotics technologiesSimulationIFAC-PapersOnLine
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Compensation of compliance errors in parallel manipulators composed of non-perfect kinematic chains

2012

The paper is devoted to the compliance errors compensation for parallel manipulators under external loading. Proposed approach is based on the non-linear stiffness modeling and reduces to a proper adjusting of a target trajectory. In contrast to previous works, in addition to compliance errors caused by machining forces, the problem of assembling errors caused by inaccuracy in the kinematic chains is considered. The advantages and practical significance of the proposed approach are illustrated by examples that deal with groove milling with Orthoglide manipulator.

FOS: Computer and information sciences0209 industrial biotechnologyComputer sciencenonlinear stiffness modelingcompliance error compensation02 engineering and technologyKinematicsCompensation (engineering)Computer Science::RoboticsComputer Science - Robotics020901 industrial engineering & automation0203 mechanical engineeringMachiningControl theorymedicine[INFO.INFO-RB]Computer Science [cs]/Robotics [cs.RO]ManipulatorGroove (engineering)Parallel manipulatorStiffnessparallel robots020303 mechanical engineering & transportsTrajectorymedicine.symptomnon-perfect manipulatorsRobotics (cs.RO)
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