Search results for "robotics."

showing 10 items of 473 documents

State Estimation of a Mobile Manipulator via Non-uniformly Sampled Position Measurements

2011

Abstract We derive an exact deterministic nonlinear estimator to compute the continuous state of a nonlinear time-varying system based on discrete, non uniformly time spaced, state measurements. The system consists of a robot arm mounted on a mobile non holonomic vehicle. The paper also discusses the effect on the estimation error of a bounded input additive noise.

Mobile manipulatorHolonomicContinuous stateBounded inputState (functional analysis)Noise (electronics)Nonholonomic vehicleComputer Science::RoboticsNonlinear systemNonlinear estimatorSettore ING-INF/04 - AutomaticaControl theoryPosition (vector)Estimation errorBounded functionState measurementsNonlinear time varying systemRobotic armRobot armMobile manipulatorMathematics
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Evolving mobile robots in simulated and real environments.

1995

The problem of the validity of simulation is particularly relevant for methodologies that use machine learning techniques to develop control systems for autonomous robots, as, for instance, the artificial life approach known as evolutionary robotics. In fact, although it has been demonstrated that training or evolving robots in real environments is possible, the number of trials needed to test the system discourages the use of physical robots during the training period. By evolving neural controllers for a Khepera robot in computer simulations and then transferring the agents obtained to the real environment we show that (a) an accurate model of a particular robot-environment dynamics can …

Models GeneticArtificial IntelligenceReproducibility of ResultsComputer SimulationEquipment DesignRoboticsBiological EvolutionGeneral Biochemistry Genetics and Molecular BiologyAlgorithmsArtificial life
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Motion Analysis for Dynamic 3D Scene Reconstruction and Understanding

2017

This thesis studies the problem of dynamic scene 3D reconstruction and understanding using a calibrated 2D-3D camera setup mounted on a mobile platform via the analysis of objects' motions. For static scenes, the sought 3D map reconstruction can be obtained by registering the point cloud sequence. However, with dynamic scenes, we require a prior step of moving object elimination, which yields to the motion detection and segmentation problems. We provide solutions for the two practical scenarios, namely the known and unknown camera motion cases, respectively. When camera motion is unknown, our 3D-SSC and 3D-SMR algorithms segment the moving objects by analysing their 3D feature trajectories.…

Motion SegmentationSegmentation au sens du mouvement[ INFO.INFO-TS ] Computer Science [cs]/Signal and Image Processing[INFO.INFO-TS] Computer Science [cs]/Signal and Image Processing[INFO.INFO-RB] Computer Science [cs]/Robotics [cs.RO]3D Map ReconstructionReconstruction 3DAnalyse de scènes[ INFO.INFO-RB ] Computer Science [cs]/Robotics [cs.RO][INFO.INFO-CV]Computer Science [cs]/Computer Vision and Pattern Recognition [cs.CV][ INFO.INFO-CV ] Computer Science [cs]/Computer Vision and Pattern Recognition [cs.CV][INFO.INFO-CV] Computer Science [cs]/Computer Vision and Pattern Recognition [cs.CV][INFO.INFO-TS]Computer Science [cs]/Signal and Image ProcessingDetection d'objets en mouvement[INFO.INFO-RB]Computer Science [cs]/Robotics [cs.RO]Moving Object DetectionDynamic Scene Analysis
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Impact of Minimally Invasive Surgery in the Spectrum of Current Achalasia Treatment Options

2011

Minimally invasive Heller myotomy has evolved the “gold standard” procedure for achalasia in the spectrum of current treatment options. The laparoscopic technique has proved superior to the thoracoscopic approach due to improved visualization of the esophagogastric junction. Operative controversies most recently include the length of the myotomy, especially of its fundic part, with respect to the balance between postoperative persistent dysphagia and development of gastroesophageal reflux, as well as the type of the added antireflux procedure. Perioperative mortality should approach 0%, and favorable long-term results can be achieved in > 90%.

Myotomymedicine.medical_specialtyBotulinum Toxinsmedicine.medical_treatmentAchalasiaCatheterizationPostoperative Complicationsotorhinolaryngologic diseasesHumansMinimally Invasive Surgical ProceduresMedicineEsophagogastric junctionIntraoperative ComplicationsHeller myotomyAnti-Dyskinesia Agentsbusiness.industryThoracoscopyGold standardTreatment optionsRoboticsmedicine.diseaseDysphagiadigestive system diseasesSurgeryEsophageal AchalasiaInvasive surgeryQuality of LifeLaparoscopySurgeryEsophagoscopymedicine.symptombusinessScandinavian Journal of Surgery
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Learning to Approach a Moving Ball with a Simulated Two-Wheeled Robot

2006

We show how a two-wheeled robot can learn to approach a moving ball using Reinforcement Learning. The robot is controlled by setting the velocities of its two wheels. It has to reach the ball under certain conditions to be able to kick it towards a given target. In order to kick, the ball has to be in front of the robot. The robot also has to reach the ball at a certain angle in relation to the target, because the ball is always kicked in the direction from the center of the robot to the ball. The robot learns which velocity differences should be applied to the wheels: one of the wheels is set to the maximum velocity, the other one according to this difference. We apply a REINFORCE algorith…

Neural gasRadial basis function networkComputer sciencebusiness.industryRoboticsBang-bang robotComputer Science::RoboticsControl theoryBall (bearing)RobotReinforcement learningArtificial intelligencebusinessSimulation
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Fuzzy Control Strategy for Cooperative Non-holonomic Motion of Cybercars with Passengers Vibration Analysis

2021

The cybercars are electric road wheeled non-holonomic vehicles with fully automated driving capabilities. They contribute to sustainable mobility and are employed as passenger vehicles. Non-holonomic mechanics describes the motion of the cybercar constrained by non-integrable constraints, i.e. constraints on the system velocities that do not arise from constraints on the configuration alone. First of all there are thus with dynamic nonholonomic constraints, i.e. constraints preserved by the basic Euler-Lagrange equations (Bloch, 2000; Melluso, 2007; Raimondi & Melluso, 2006-a). Of course, these constraints are not externally imposed on the system but rather are consequences of the equations…

Nonholonomic systemComputer scienceHolonomicControl engineeringKalman filterFuzzy control systemKinematicsMotion controlComputer Science::RoboticsCybercars motion control passengers vibration intelligent controlSettore ING-INF/04 - AutomaticaControl theoryBacksteppingTrajectoryCybercars Fuzzy Control Passengers vibration analysis.
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Fuzzy EKF Control for Wheeled Nonholonomic Vehicles

2006

In this paper a new Fuzzy extended Kalman robust control system for position and orientation tracking of nonholonomic vehicles with two wheels actuated by two independent DC motors is presented. The problem of robustness and localization are solved simultaneously. About the robustness, some perturbations coming from the outside environment and depending on the contact between the wheels and the ground, involve violations of the nonholonomic constraints. The fuzzy controller of this work is able to obtain a dynamic term of robustness with respect to the perturbations above. However, by using encoders only, the measures of actual position and orientation of the vehicle are with Gaussian noise…

Nonholonomic systemEngineeringControllersbusiness.industryControl engineeringKalman filterFuzzy control systemnonholonomic wheeledComputer Science::RoboticsExtended Kalman filterRobustness (computer science)Control theoryControl systemMobile robotsRobust controlbusinessIECON 2006 - 32nd Annual Conference on IEEE Industrial Electronics
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Fuzzy cooperative control of automated ground passenger vehicles

2007

In this paper a fuzzy motion control for cooperative passenger automated vehicles where there are not collisions between the closest ones is proposed. Based on the position of the target and on the initial position of each cooperative vehicle, a supervisory plans nonholonomic circular trajectories which are without intersections, while a fuzzy control strategy assures the asymptotical stability of the motion errors and the reaching of the target with low acceleration values along the planned trajectories. Based on the ISO 2631-1 standard, the saturation properties of the fuzzy maps guarantees low values of the longitudinal and lateral accelerations to assure the comfort of the passengers. T…

Nonholonomic systemEngineeringFuzzy control Automatic control Land vehicles Road vehicles Trajectory Acceleration ISO standards Motion control Motion planning Asymptotic stabilitybusiness.industryStability (learning theory)Control engineeringFuzzy control systemMotion controlFuzzy logicComputer Science::RoboticsAccelerationSettore ING-INF/04 - AutomaticaExponential stabilityControl theoryPosition (vector)business2007 IEEE Conference on Emerging Technologies & Factory Automation (EFTA 2007)
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From Focused Thought to Reveries: A Memory System for a Conscious Robot

2018

© 2018 Balkenius, Tjøstheim, Johansson and Gärdenfors. We introduce a memory model for robots that can account for many aspects of an inner world, ranging from object permanence, episodic memory, and planning to imagination and reveries. It is modeled after neurophysiological data and includes parts of the cerebral cortex together with models of arousal systems that are relevant for consciousness. The three central components are an identification network, a localization network, and a working memory network. Attention serves as the interface between the inner and the external world. It directs the flow of information from sensory organs to memory, as well as controlling top-down influences…

Object permanenceComputer sciencelcsh:Mechanical engineering and machinerymedia_common.quotation_subjectconsciousnessworking memorylcsh:QA75.5-76.95050105 experimental psychology03 medical and health sciences0302 clinical medicineArtificial IntelligencePerceptionSemantic memorylcsh:TJ1-15700501 psychology and cognitive sciencesEpisodic memoryOriginal Researchmedia_commonRobotics and AICognitive scienceRecallsemantic memoryWorking memory05 social sciencesepisodic memoryComputer Science Applicationscomputational modellcsh:Electronic computers. Computer scienceMemory modelConsciousness030217 neurology & neurosurgeryFrontiers in Robotics and AI
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Wireless Interference Estimation Using Machine Learning in a Robotic Force-Seeking Scenario

2019

Cyber-physical systems are systems governed by the laws of physics that are tightly controlled by computer-based algorithms and network-based sensing and actuation. Wireless communication technology is envisioned to play a primary role in conducting the information flows within such systems. A practical industrial wireless use case involving a robot manipulator control system, an integrated wireless force-torque sensor, and a remote vision-based observer is constructed and the performance of the cyber-physical system is examined. By using readings from the remote observer, an estimation system is developed using machine learning regression techniques. We demonstrate the practicality of comb…

Observer (quantum physics)business.industryComputer scienceWireless network020208 electrical & electronic engineeringCyber-physical system020206 networking & telecommunicationsRobotics02 engineering and technologyMachine learningcomputer.software_genreInterference (wave propagation)Control system0202 electrical engineering electronic engineering information engineeringWirelessArtificial intelligencebusinesscomputerWireless sensor network2019 IEEE 28th International Symposium on Industrial Electronics (ISIE)
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