Biomimetic Neural Learning for Intelligent Robots Intelligent Systems, Cognitive Robotics, and Neuroscience / [electronic resource] :
edited by Stefan Wermter, Günther Palm, Mark Elshaw.
- 1st ed. 2005.
- IX, 383 p. online resource.
- Lecture Notes in Artificial Intelligence, 3575 2945-9141 ; .
- Lecture Notes in Artificial Intelligence, 3575 .
Towards Biomimetic Neural Learning for Intelligent Robots -- Towards Biomimetic Neural Learning for Intelligent Robots -- I: Biomimetic Multimodal Learning in Neuron-Based Robots -- The Intentional Attunement Hypothesis The Mirror Neuron System and Its Role in Interpersonal Relations -- Sequence Detector Networks and Associative Learning of Grammatical Categories -- A Distributed Model of Spatial Visual Attention -- A Hybrid Architecture Using Cross-Correlation and Recurrent Neural Networks for Acoustic Tracking in Robots -- Image Invariant Robot Navigation Based on Self Organising Neural Place Codes -- Detecting Sequences and Understanding Language with Neural Associative Memories and Cell Assemblies -- Combining Visual Attention, Object Recognition and Associative Information Processing in a NeuroBotic System -- Towards Word Semantics from Multi-modal Acoustico-Motor Integration: Application of the Bijama Model to the Setting of Action-Dependant Phonetic Representations -- Grounding Neural Robot Language in Action -- A Spiking Neural Network Model of Multi-modal Language Processing of Robot Instructions -- II: Biomimetic Cognitive Behaviour in Robots -- A Virtual Reality Platform for Modeling Cognitive Development -- Learning to Interpret Pointing Gestures: Experiments with Four-Legged Autonomous Robots -- Reinforcement Learning Using a Grid Based Function Approximator -- Spatial Representation and Navigation in a Bio-inspired Robot -- Representations for a Complex World: Combining Distributed and Localist Representations for Learning and Planning -- MaximumOne: An Anthropomorphic Arm with Bio-inspired Control System -- LARP, Biped Robotics Conceived as Human Modelling -- Novelty and Habituation: The Driving Forces in Early Stage Learning for Developmental Robotics -- Modular Learning Schemes for Visual Robot Control -- Neural Robot Detection in RoboCup -- A Scale Invariant Local Image Descriptor for Visual Homing.
9783540318965
10.1007/b139051 doi
Control engineering. Robotics. Automation. Cognitive psychology. Neurosciences. Artificial intelligence. Computer science. Computers, Special purpose. Control, Robotics, Automation. Cognitive Psychology. Neuroscience. Artificial Intelligence. Computer Science. Special Purpose and Application-Based Systems.