Search results for "robot control"

showing 10 items of 25 documents

Adaptive neuro-fuzzy inference system for kinematics solutions of redundant robots

2016

This written paper presents aspects concerning the implementation of the Adaptive Neuro-Fuzzy Inference System (ANFIS) in the resolution of a redundant serial robot kinematics. The kinematics solutions are divided into two categories: direct kinematics solutions and inverse kinematics solutions. To be able to control a robot the most important solutions are the ones for the inverse kinematics since one knows the position and the final orientation of the end effector and needs to determine the relative displacement or movements into the robot couplings. To obtain the optimal solutions for the inverse kinematics of a redundant robot the mathematical equations were based onto the redundancy ci…

Adaptive neuro fuzzy inference systemRobot kinematicsEngineeringInverse kinematicsbusiness.industryKinematicsRobot end effectorlaw.inventionRobot controlComputer Science::RoboticslawKinematics equationsControl theoryRobotbusinessComputingMethodologies_COMPUTERGRAPHICS2016 6th International Conference on Computers Communications and Control (ICCCC)
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A BCI Teleoperated Museum Robotic Guide

2009

Brain Computer Interface is a system that offers also a support to the patients with neuromuscular diseases as Amyotrophic Lateral Sclerosis. In this paper are presented some works with the aim to integrate brain computer interfaces and mobile robots. The two aim of this project are: (i) to test an improved BCI experience through the help of a physical robot, so that brain signals are stronger stimulate. (ii) to use a remote robot controlled by a highly paralyzed patient via a BCI through a friendly Graphic User. Some preliminary experiments are presented in this paper about one of the possible application: a robotic museum guide (PeopleBot and Pioneer3 robot), that can transmit remote visu…

Settore ING-INF/05 - Sistemi Di Elaborazione Delle InformazioniMultimediaComputer sciencebusiness.industryMobile computingMobile robotcomputer.software_genreHuman–robot interactionRobot controlHuman–computer interactionAssistive Devices/Technology Human Robot InterfaceTeleoperationRobotbusinesscomputerBrain–computer interfaceGraphical user interface2009 International Conference on Complex, Intelligent and Software Intensive Systems
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Globally convergent adaptive and robust control of robotic manipulators for trajectory tracking

2004

This paper deals with a globally convergent adaptive and robust control of robotic manipulators for trajectory tracking in the presence of friction modelled as static nonlinearities. Two control loops are designed according to the cascade control scheme: (a) an inner adaptive control loop, which includes computed torque and PD control actions and friction compensation and (b) an outer robust control loop for unmodelled dynamics compensation. With reference to item (a), two friction compensation schemes are presented; one of them uses both the reference and the actual velocities, whereas the other employs only the actual velocity. Experimental tests carried out on a two-link SCARA manipulato…

EngineeringAdaptive controlbusiness.industryApplied MathematicsSCARAControl engineeringTracking (particle physics)Computer Science ApplicationsCompensation (engineering)Loop (topology)Settore ING-INF/04 - AutomaticaControl and Systems EngineeringCascadeControl theoryTrajectoryModel-based robot control Robust-adaptive control Friction compensationElectrical and Electronic EngineeringRobust controlbusinessControl Engineering Practice
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A vision agent for mobile robot navigation in time-variable environments

2002

We present an architecture for mobile robot navigation based on Bayesian networks. The architecture allows a robot to plan the correct path inside an environment with dynamic obstacles. Interactions between the robot and the environment are based on a powerful vision agent. The results of simulations, showing the effectiveness of the approach, are described.

Ubiquitous robotPersonal robotSocial robotbusiness.industryComputer scienceReal-time computingMobile robotRobot learningMobile robot navigationRobot controlComputer Science::RoboticsRobotComputer visionArtificial intelligencebusinessProceedings 11th International Conference on Image Analysis and Processing
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Robotic path planning for non-destructive testing of complex shaped surfaces

2015

The requirement to increase inspection speeds for non-destructive testing (NDT) of composite aerospace parts is common to many manufacturers. The prevalence of complex curved surfaces in the industry provides significant motivation for the use of 6 axis robots for deployment of NDT probes in these inspections. A new system for robot deployed ultrasonic inspection of composite aerospace components is presented. The key novelty of the approach is through the accommodation of flexible robotic trajectory planning, coordinated with the NDT data acquisition. Using a flexible approach in MATLAB, the authors have developed a high level custom toolbox that utilizes external control of an industrial …

EngineeringComplex Surfacesbusiness.industryProgramming complexityUltrasonic testingRoboticsRobot controlNDTSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineNon-Destructive TestingData acquisitionNondestructive testingPath-planningTrajectoryRobotMotion planningbusinessSimulationAIP Conference Proceedings
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Making Industrial Robots Smarter with Adaptive Reasoning and Autonomous Thinking for Real-Time Tasks in Dynamic Environments: A Case Study

2018

In order to extend the abilities of current robots in industrial applications towards more autonomous and flexible manufacturing, this work presents an integrated system comprising real-time sensing, path-planning and control of industrial robots to provide them with adaptive reasoning, autonomous thinking and environment interaction under dynamic and challenging conditions. The developed system consists of an intelligent motion planner for a 6 degrees-of-freedom robotic manipulator, which performs pick-and-place tasks according to an optimized path computed in real-time while avoiding a moving obstacle in the workspace. This moving obstacle is tracked by a sensing strategy based on ma-chin…

0209 industrial biotechnologyAdaptive reasoningMachine visionbusiness.industryComputer scienceTReal-time computingRobotics02 engineering and technologyWorkspaceMachine visionRobot control020901 industrial engineering & automationDynamic environmentObstacle0202 electrical engineering electronic engineering information engineeringAdaptive reasoningRobot020201 artificial intelligence & image processingArtificial intelligenceMotion planningbusinessPath planningRobot control
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The design of interfaces for multi-robot path planning and control

2014

The field of human-robot interaction has evolved beyond issues concerning the design and development of one person controlling one robot to exploring HRI for groups of robots and teams. Our design research explores biologically-inspired motion that is initiated by a human operator, applied to a single or a small group of robots, and used to affect the motion and path planning of another subset of robots. This exploratory design study first created a taxonomy to categorize individual robot motions, looking at how they could be categorized and used as building blocks. We then combined individual motions with time and velocity as design variables to guide our interaction design. This work led …

Settore ING-INF/05 - Sistemi Di Elaborazione Delle InformazioniPersonal robotSocial robotSettore INF/01 - InformaticaComputer scienceHuman–computer interactionInterface (computing)RobotMobile robotMotion planningInteraction designHuman-robot interactionRobot control
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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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Adaptive interaction robot control with estimation of contact force

2008

Abstract This paper deals with a new adaptive force-position control of a robotic manipulator based on force estimation. First, an adaptive position controller is derived with contact force component as estimated parameters. Second, a supervisory external loop is added in order to regulate the contact force to the desired value. Extensive simulations with 2-DOF manipulator illustrate the followed approach.

Engineeringbusiness.industryRobot manipulatorControl engineeringGeneral Medicineadaptive controlRobot controlContact forceinteraction controlComputer Science::RoboticsLoop (topology)Settore ING-INF/04 - AutomaticaControl theoryPosition (vector)Component (UML)Adaptive interactionbusinessRobot control
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A MOBILE ROBOT FOR TRANSPORT APPLICATIONS IN HOSPITAL DOMAIN WITH SAFE HUMAN DETECTION ALGORITHM

2009

We have been developing a MKR (Muratec Keio Robot), an autonomous omni-directional mobile transfer robot system for hospital applications. This robot has a wagon truck to transfer luggage, important specimens and other materials. This study proposes a safe obstacle collision avoidance technique that includes a human detection algorithm for omni directional mobile robots that realizes a safe movement technology. The robot can distinguish people from others obstacles with human detection algorithm. The robot evades to people more safely by considering its relative position and velocity with respect to them. Some experiments in a hospital were carried out to verify the performance of the human…

Settore ING-INF/05 - Sistemi Di Elaborazione Delle InformazioniEngineeringbusiness.industryMobile robotObject detectionMobile robot navigationRobot controlDomain (software engineering)Mobile Robot Human-Robot Interaction Safe NavigationObstacleRobotbusinessAlgorithmSimulationCollision avoidance
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