Title :
From Reactive to Cognitive Agents: Extending Reinforcement Learning to Generate Symbolic Knowledge Bases
Author :
Cerqueira, Romulo ; Loureiro da Costa, Augusto ; McGill, Stephen ; Lee, Daewoo ; Pappas, George
Author_Institution :
Robot. Lab., Fed. Univ. of Bahia, Salvador, Brazil
Abstract :
A new methodology for knowledge-based agents to learn from interactions with their environment is presented in this paper. This approach combines Reinforcement Learning and Knowledge-Based Systems. A Q-Learning algorithm obtains the optimal policy, which is automatically coded into a symbolic rule base, using first-order logic as knowledge representation formalism. The knowledge base was embedded in an omnidirectional mobile robot, making it able to navigate autonomously in unpredictable environments with obstacles using the same knowledge base. Additionally, a method of space abstraction based in human reasoning was formalized to reduce the number of complex environment states and to accelerate the learning. The experimental results of autonomous navigation executed by the real robot are also presented here.
Keywords :
cognitive systems; formal logic; knowledge based systems; knowledge representation; learning (artificial intelligence); mobile robots; navigation; Q-learning algorithm; autonomous navigation; cognitive agents; first-order logic; human reasoning; knowledge representation; omnidirectional mobile robot; reactive agents; reinforcement learning; space abstraction; symbolic knowledge base systems; symbolic rule base; Cognition; Collision avoidance; Knowledge based systems; Learning (artificial intelligence); Mobile robots; Navigation;
Conference_Titel :
Robotics Symposium and Competition (LARS/LARC), 2013 Latin American
Conference_Location :
Arequipa
DOI :
10.1109/LARS.2013.77
