Search results for "Robot kinematics"

showing 10 items of 20 documents

Automated inventory management and security surveillance system using image processing techniques

2010

Efficient inventory management and allocation of cargo space is an imperative parameter in the industry today. In this paper we propose an algorithm to automate complete inventory unit with the aid of image processing and artificial intelligence algorithms. These algorithms work on the data acquired through image processing. This data then integrates with the Artificial Intelligence algorithm which in turn takes inputs from the sensors present on the robot. These sensors help in precise localization of the robot. The path planning algorithm takes input from virtual map buffer which is present in the CPU memory. This buffer in accordance with the sensor data and Image Processing data generat…

EngineeringRobot kinematicsSoftwarebusiness.industryEmbedded systemReal-time computingRobotImage processingCentral processing unitMotion planningbusinessAutomationWireless sensor networkTENCON 2010 - 2010 IEEE Region 10 Conference
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Off-line path correction of robotic face milling using static tool force and robot stiffness

2015

In this paper the developed method for off-line compensation of tool deflections when milling aluminum with an industrial robot is presented. The efficiency of this approach is verified with high precision measurements of deflections using a laser tracker. The compensation method includes both the static milling process model which can predict the mean value components of the tool forces and a new combined local/global approach for estimating the combined stiffnesses of joints. With a process model such as the one presented in this paper and estimates of the robot's joint stiffness values, the tool path can be adjusted to counteract deflections of the tool during milling operations. The mod…

EngineeringRobot kinematicsbusiness.industryStiffnessStructural engineeringlaw.inventionComputer Science::RoboticsIndustrial robotMachininglawControl theoryLaser trackerJoint stiffnessmedicineRobotmedicine.symptombusinessSimulationComputingMethodologies_COMPUTERGRAPHICS2015 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)
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The economic metaphor of Italian politics for dynamic coalition regeneration in the robocup competition of Aibo robots

2005

The variation version of the economic metaphor of Italian politics, an architecture that loosely takes inspiration from the political organizations of democratic governments, following the example of Italian government, and which provides a solution for the coordination of a spare colony of robots, is competent to allow the coordination of the behaviors of a team of four robots in order to play soccer in the Robocup competition. The development of an evolution of economic metaphor of Italian politics is now outlined. This new approach proposes a mechanism to make a new coalition caused by the failure of the government strategy and by a general inefficiency of the whole colony during the rea…

Robot kinematicsEngineeringProcess managementbusiness.industryMulti-agent systemOffensiveMobile robotRobot controlCompetition (economics)RobotAIBOArtificial intelligenceRobocup Competitioneconomic politicsbusiness
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Robotic face milling path correction and vibration reduction

2015

In this paper the developed method for off-line compensation of tool deflections and vibration reduction when milling aluminum with an industrial robot is presented. The efficiency of this approach is verified with high precision measurements of deflections using a laser tracker. The compensation method is based on the static milling process model which can predict the mean value components of the tool forces and the passive damping system mounted on the spindle to reduce vibrations. With a process model such as the one presented in this paper and estimates of the robot's joint stiffness values, the tool path can be adjusted to counteract deflections of the tool during milling operations. T…

Robot kinematicsEngineeringbusiness.industryMechanical engineeringComputerApplications_COMPUTERSINOTHERSYSTEMSStructural engineeringCompensation (engineering)law.inventionVibrationIndustrial robotlawLaser trackerTorqueRobotbusinessReduction (mathematics)ComputingMethodologies_COMPUTERGRAPHICS2015 IEEE International Conference on Advanced Intelligent Mechatronics (AIM)
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E-MIP: A new mechanism for dynamic coalition formation in a robot team

2004

When mobile robots colonies move in dynamic, not predictable and time variable environments, the problem now is on how can they achieve distributed solving strategies for solving complicate and difficult tasks. The development of a new robotic architecture for the coordination of robot colonies in dangerous and dynamic environments is outlined. The name of this new architecture is Economic Metaphor of Italian Politics (E-MIP), because it takes inspiration from the political organizations of Italian democratic governments, where the leader isn't only one robot but a government of three robots constitutes it while a second group of robots, the Robot Citizens, are the executor of the mission. …

Robot kinematicsPersonal robotEngineeringSocial robotbusiness.industryHuman–computer interactionRobotMobile robotArtificial intelligenceArchitectureExecutorbusinessEconomic forecasting
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Semantic Approach to Dynamic Coordination in Autonomous Systems

2009

In open systems where the components, i.e. the agents and the resources, may be unknown at design time, or in dynamic and self-organizing systems evolving with time, there is a need to enable the agents to communicate their intentions with respect to future activities and resource utilization to resolve coordination issues dynamically. Ideally, we would like to allow ad-hoc interaction, where two standalone independently-designed systems are able to coordinate whenever a need arises. The Semantic Web based approach presented in this paper aims at enabling agents to coordinate without assuming any design-time ontological alignment of them. An agent can express an action intention using own v…

Robot kinematicsVocabularycomputer.internet_protocolComputer scienceMulti-agent systemmedia_common.quotation_subjectAutonomous system (Internet)Ontology (information science)Open system (systems theory)World Wide WebSoftware agentHuman–computer interactionSemantic Webcomputermedia_common2009 Fifth International Conference on Autonomic and Autonomous Systems
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Introducing a new method for efficient visualization of complex shape 3D ultrasonic phased-array C-scans

2017

Automated robotic inspection systems allow the collection of large data volumes, compared to existing inspection systems. To maximize the throughput associated with the non-destructive evaluation phase, it is crucial that the reconstructed inspection data sets are generated and examined rapidly without a loss of detail. Data analysis often becomes the bottleneck of automated inspections. Therefore, new data visualization tools, suitable to screen the NDT information obtained through robotic systems, are urgently required. This paper presents a new approach, for the generation of three-dimensional ultrasonic C-scans of large and complex parts, suitable for application to high data throughput…

Robot kinematicsbusiness.industryComputer sciencePhased arrayTK020207 software engineering02 engineering and technologyRoboticsPhased ArraysVisualizationData visualizationAutomated X-ray inspection020204 information systemsNondestructive testing0202 electrical engineering electronic engineering information engineeringComputer visionUltrasonic sensorArtificial intelligenceAutomated SystemsbusinessThroughput (business)Surface reconstructionC-ScansData Visualisation
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Resilient hexapod robot

2017

In this paper, we present a method of learning desired behaviour of the specific robotic system and transfer of the existing knowledge in the event of partial system failure. Six-legged robot (hexapod) built on top of the Bioloid platform is used for the method verification. We use genetic algorithms to optimize the hexapod's gait, after which we simulate physical damage caused to the robot. The goal of this method is to optimize the gait in accordance with the actual robot morphology, instead of the assumed one. Also, knowledge that was previously gained will be transferred in order to improve the results. Nonstandard genetic algorithm with the specific mixed population is used for this.

Settore ING-INF/05 - Sistemi Di Elaborazione Delle InformazioniRobot kinematicseducation.field_of_studyHexapodControl and OptimizationEvent (computing)PopulationControl engineeringMicrocontrollerGait (human)machine learningComputer Networks and CommunicationGenetic algorithmArtificial IntelligenceGenetic algorithmRoboteducationresilienceInformation Systems
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Asymptotic observer of the link states of flexible joint robots with motor-side sensing

2015

This paper proposes an approach for observing the link states, i.e. angular position and velocity, of the robotic joints with elasticities, when only the motor-side sensing is available. By separating the state-dependent nonlinearities of the rigid manipulator dynamics a linear sub-model of the elastic joint robot is obtained in an observable state-space form. The standard asymptotic Luenberger state observer is then designed for the given motor position signal which is measured by encoder and rectified from the nonlinear contribution. The configurable poles of observer allow shaping the estimated states dynamics to be fast enough in relation to the actual resonant joint behavior. Therefore…

VibrationRobot kinematicsNonlinear systemEngineeringControl theoryAngular displacementbusiness.industryTorsion (mechanics)ObservableState observerbusinessEncoderIECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society
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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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