Search results for "Intention understanding"

showing 5 items of 5 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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Hierarchies of Self-Organizing Maps for action recognition

2016

We propose a hierarchical neural architecture able to recognise observed human actions. Each layer in the architecture represents increasingly complex human activity features. The first layer consists of a SOM which performs dimensionality reduction and clustering of the feature space. It represents the dynamics of the stream of posture frames in action sequences as activity trajectories over time. The second layer in the hierarchy consists of another SOM which clusters the activity trajectories of the first-layer SOM and learns to represent action prototypes. The third - and last - layer of the hierarchy consists of a neural network that learns to label action prototypes of the second-laye…

Self-organizing mapComputer scienceIntention understandingCognitive NeuroscienceFeature vectorExperimental and Cognitive PsychologySelf-Organizing Map02 engineering and technologyAction recognition03 medical and health sciences0302 clinical medicineArtificial Intelligence0202 electrical engineering electronic engineering information engineeringLayer (object-oriented design)Cluster analysisSet (psychology)Artificial neural networkbusiness.industryDimensionality reductionNeural networkAction (philosophy)020201 artificial intelligence & image processingArtificial intelligencebusinessHierarchical model030217 neurology & neurosurgerySoftwareCognitive Systems Research
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Simulating Actions with the Associative Self-Organizing Map

2013

We present a system that can learn to represent actions as well as to internally simulate the likely continuation of their initial parts. The method we propose is based on the Associative Self Organizing Map (A-SOM), a variant of the Self Organizing Map. By emulating the way the human brain is thought to perform pattern recognition tasks, the A- SOM learns to associate its activity with di erent inputs over time, where inputs are observations of other's actions. Once the A-SOM has learnt to recognize actions, it uses this learning to predict the continuation of an observed initial movement of an agent, in this way reading its intentions. We evaluate the system's ability to simulate actions …

Associative Self-Organizing Map Neural Network Action Recognition Internal Simulation Intention Understanding
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Action Recognition based on Hierarchical Self-Organizing Maps

2014

We propose a hierarchical neural architecture able to recognise observed human actions. Each layer in the architecture represents increasingly complex human activity features. The first layer consists of a SOM which performs dimensionality reduction and clustering of the feature space. It represents the dynamics of the stream of posture frames in action sequences as activity trajectories over time. The second layer in the hierarchy consists of another SOM which clusters the activity trajectories of the first-layer SOM and thus it learns to represent action prototypes independent of how long the activity trajectories last. The third layer of the hierarchy consists of a neural network that le…

Self-Organizing Map Neural Network Action Recognition Hierarchical models Intention UnderstandingSettore ING-INF/05 - Sistemi Di Elaborazione Delle Informazioni
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Discriminating and simulating actions with the associative self-organising map

2015

We propose a system able to represent others’ actions as well as to internally simulate their likely continuation from a partial observation. The approach presented here is the first step towards a more ambitious goal of endowing an artificial agent with the ability to recognise and predict others’ intentions. Our approach is based on the associative self-organising map, a variant of the self-organising map capable of learning to associate its activity with different inputs over time, where inputs are processed observations of others’ actions. We have evaluated our system in two different experimental scenarios obtaining promising results: the system demonstrated an ability to learn discrim…

action recognitionArtificial neural networkneural networkbusiness.industryComputer scienceinternal simulationassociative self-organising map; neural network; action recognition; internal simulation; intention understandingassociative self-organising mapSelf organising mapsMachine learningcomputer.software_genreHuman-Computer InteractionContinuationintention understandingArtificial IntelligenceAction recognitionArtificial intelligencebusinesscomputerSoftwareAssociative propertyConnection Science
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