Advances in Physical Agents
-15%
portes grátis
Advances in Physical Agents
Proceedings of the 19th International Workshop of Physical Agents (WAF 2018), November 22-23, 2018, Madrid, Spain
Fuentetaja Pizan, Raquel; Ledezma Espino, Agapito; Sesmero Lorente, Maria Paz; Garcia Olaya, Angel; Iglesias Martinez, Jose Antonio
Springer International Publishing AG
11/2018
334
Mole
Inglês
9783319998848
15 a 20 dias
534
Descrição não disponível.
Semantic localization of a robot in a real home.- Kalman Filter.- Self-Driving a Car in simulation through a CNN.- Study of obstacle avoidance strategies for e?cient autonomous.-Adaptation of the Di?culty Level in an Infant-Robot Movement Contingency Study.- Change Detection Tool based on GSV to help DNNs training.- Opponent Modeling in RoboCup Soccer Simulation. First Steps Towards a General Algorithm to Estimate the Mechanical State of a Vehicle.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Semantic Localization;Collision Avoidance;Autonomous Driving Applications;Convolutional Neural Network Models;Positioning System;Vehicle Tracking;Learning for Self-driving Cars;Obstacle Avoidance Strategies;Autonomous Navigation;Wheeled Robots;Artificial Vision;Lifebots;Smart Home;Agent-based Modeling;Object-tracking;Vision-based Control;Infant-robot Interaction;Handwritten Character Recognition;Cognitive Architectures for Robotics;Map Maintenance
Semantic localization of a robot in a real home.- Kalman Filter.- Self-Driving a Car in simulation through a CNN.- Study of obstacle avoidance strategies for e?cient autonomous.-Adaptation of the Di?culty Level in an Infant-Robot Movement Contingency Study.- Change Detection Tool based on GSV to help DNNs training.- Opponent Modeling in RoboCup Soccer Simulation. First Steps Towards a General Algorithm to Estimate the Mechanical State of a Vehicle.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Semantic Localization;Collision Avoidance;Autonomous Driving Applications;Convolutional Neural Network Models;Positioning System;Vehicle Tracking;Learning for Self-driving Cars;Obstacle Avoidance Strategies;Autonomous Navigation;Wheeled Robots;Artificial Vision;Lifebots;Smart Home;Agent-based Modeling;Object-tracking;Vision-based Control;Infant-robot Interaction;Handwritten Character Recognition;Cognitive Architectures for Robotics;Map Maintenance
