Search results for "human robot interaction"

showing 8 items of 8 documents

How do we understand other's intentions? - An implementation of mindreading in artificial systems -

SOM Self-Organizing Map A-SOM Associative Self-Organizing Map NN Neural Network AR Action Recognition HM Hierarchical models IU Intention Understanding HRI Human Robot Interaction
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Contact Estimation in Robot Interaction

2014

In the paper, safety issues are examined in a scenario in which a robot manipulator and a human perform the same task in the same workspace. During the task execution, the human should be able to physically interact with the robot, and in this case an estimation algorithm for both interaction forces and a contact point is proposed in order to guarantee safety conditions. The method, starting from residual joint torque estimation, allows both direct and adaptive computation of the contact point and force, based on a principle of equivalence of the contact forces. At the same time, all the unintended contacts must be avoided, and a suitable post-collision strategy is considered to move the r…

Computer sciencelcsh:ElectronicsRobot manipulatorlcsh:TK7800-8360WorkspaceCollisionlcsh:QA75.5-76.95Computer Science ApplicationsTask (project management)Contact forceinteraction controlSettore ING-INF/04 - AutomaticaArtificial IntelligencePhisical human robot interactionTorqueRobotPoint (geometry)Collision detectionlcsh:Electronic computers. Computer scienceSoftwareSimulationcontact estimationInternational Journal of Advanced Robotic Systems
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INVESTIGATING PERCEPTUAL AND BIOLOGICAL FEEDBACKS IN HUMAN ROBOT INTERACTION

The Human Robot Interaction (HRI) is a new discipline that has attracted more attention in the last years due to the increasing presence of robots in people’s everyday life. It is a field of study dedicated to understanding, designing, and evaluating robotic systems for use by or with humans. Interaction, by definition, requires communication between robots and humans. A social robot is an autonomous or semi-autonomous robot capable of interacting and communicating with humans or other autonomous physical agents following social behaviours and rules related to its specific role. In order to interact effectively with the human being, a robot must be able to decode the complex system of human…

Social RoboticsSettore ING-INF/05 - Sistemi Di Elaborazione Delle InformazioniHuman Robot InteractionBrain Computer InterfaceBrain Computer Interface;Robotics;Neurofeedback; Human Robot Interaction; Social RoboticsNeurofeedbackRobotic
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Social Practices based characters in a Robotic Storytelling System

2020

In this work, we present a robotic storytelling system, where the characters have been modelled as cognitive agents embodied in Pepper and NAO robots. The characters have been designed by exploiting the ACT-R architecture, taking into account knowledge, behaviours, norms, and expectations typical of social practices and desires resulting from their personality. The characters explain their reasoning processes during the narration, through a sort of internal dialogue that generate a high level of credibility experienced over the audience.

Cognitive science0209 industrial biotechnologycognitive architecturesmedia_common.quotation_subjectDialogical selfCognition02 engineering and technologyhumanoid robots01 natural sciences010104 statistics & probability020901 industrial engineering & automationEmbodied cognitionsocial roboticsCredibilityPersonalityNarrativehuman robot interactioncognitive systems0101 mathematicsArchitecturePsychologyact-rmedia_commonStorytelling
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Towards Partners Profiling in Human Robot Interaction Contexts

2012

Individuality is one of the most important qualities of humans. Social robots should be able to model the individuality of the human partners and to modify their behaviours accordingly.This paper proposes a profiling system for social robots to be able to learn the individuality of human partners in social contexts. Profiles are expressed in terms of of identities and preferences bound together. In particular, people’s identity is captured by the use of facial features, while preferences are extracted from the discussion between the partners. Both are bound using an Hebb network. Experiments show the feasibility and the performances of the approach presented.

Settore ING-INF/05 - Sistemi Di Elaborazione Delle InformazioniPersonal robotSocial robotComputer sciencebusiness.industryHuman–robot interactionHuman–computer interactionpersonal robotsProfiling (information science)Artificial intelligencehuman robot interactionprofilingbusinessprofiling personal robots human robot interactionprofiling; personal robots; human robot interaction
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Architecture to Serve Disabled and Elderly

2013

We propose an architecture (discussed in the context of a dressing and cleaning application for impaired and elderly persons) that combines a cognitive framework that generates motor commands with the MOSAIC architecture which selects the right motor command according to the proper context. The ambition is to have robots able to understand humans intentions (dressing or cleaning intentions), to learn new tasks only by observing humans, and to represent the world around it by using conceptual spaces. The cognitive framework implements the learning by demonstration paradigm and solves the related problem to map the observed movement into the robot motor system. Such framework is assumed to wo…

ModalitiesMovement (music)Computer sciencemedia_common.quotation_subjectContext (language use)Control theoryHuman–computer interactionHuman Robot InteractionMotor systemRobotArchitectureImitationmedia_common
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Editorial: Robot-Assisted Learning and Education

2020

Social roboteducational roboticsrobotics for collaborative learninglcsh:Mechanical engineering and machineryHRI (human robot interaction)lcsh:QA75.5-76.95Computer Science ApplicationsHuman–computer interactionEducational roboticsrobot-assisted learningArtificial Intelligencesocial roboticsRobotlcsh:TJ1-1570lcsh:Electronic computers. Computer sciencetechnology-enhanced learningPsychologyFrontiers in Robotics and AI
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Inside the robot’s mind during human-robot interaction

2019

Humans and robots collaborating and cooperating for pursuing a shared objective need to rely on the other for carrying out an effective decision process and for updating knowledge when necessary in a dynamic environment. Robots have to behave as they were human teammates. To model the cognitive process of robots during the interaction, we developed a cognitive architecture that we implemented employing the BDI (belief, desire, intention) agent paradigm. In this paper, we focus on how to let the robot show to the human its reasoning process and how its knowledge on the work environment grows. We realized a framework whose heart is a simulator that serves the human as a window on the robot’s …

Settore ING-INF/05 - Sistemi Di Elaborazione Delle InformazioniDecision processAgent reasoning cycleHuman robot interactionCognitive architecture
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