论文信息 - Embedding task-based behavior into internal sensory-based attractor dynamics in navigation of a mobile robot

Embedding task-based behavior into internal sensory-based attractor dynamics in navigation of a mobile robot

This study shows a novel approach for learning sensory- and task-based navigation of a mobile robot. The learning of task-based behavior is formulated as an embedding problem of dynamical systems: the desired trajectories in a task space should be embedded into an adequate sensory-based internal state space so that unique mapping from the internal state space to the motor command can be established. We discuss how such internal state space and its mapping can be self-organized by means of neural learning methodologies. Physical experiment by a mobile robot with laser range sensor was conducted, which showed that learning of homing and cyclic routing tasks were successfully realized on two different neural network (NN) architectures; the time delayed type and the recurrent type. The navigation was inherently robust against miscellaneous noise since those tasks were embedded in the global attractor dynamics of a fixed point and limit cycling.<<ETX>>

Naohiro Fukumura | Jun Tani | J. Tani | Naohiro Fukumura

[1] R. A. Brooks,et al. Intelligence without Representation , 1991, Artif. Intell..

[2] Maja J. Mataric,et al. Integration of representation into goal-driven behavior-based robots , 1992, IEEE Trans. Robotics Autom..

[3] Teuvo Kohonen,et al. Self-organized formation of topologically correct feature maps , 2004, Biological Cybernetics.

[4] Elliot Saltzman,et al. Skilled actions: a task-dynamic approach. , 1987, Psychological review.

[5] Oussama Khatib,et al. Real-Time Obstacle Avoidance for Manipulators and Mobile Robots , 1986 .

[6] T. Kohonen. Self-organized formation of topographically correct feature maps , 1982 .

[7] Naohiro Fukumura,et al. Learning goal-directed sensory-based navigation of a mobile robot , 1994, Neural Networks.

[8] Franz Freyberger,et al. Constructing maps for indoor navigation of a mobile robot by using an active 3D range imaging device , 1990, EEE International Workshop on Intelligent Robots and Systems, Towards a New Frontier of Applications.

[9] Pineda,et al. Generalization of back-propagation to recurrent neural networks. , 1987, Physical review letters.

[10] Alberto Elfes,et al. Sonar-based real-world mapping and navigation , 1987, IEEE J. Robotics Autom..

[11] Minoru Asada,et al. Map building for a mobile robot from sensory data , 1990, IEEE Trans. Syst. Man Cybern..