Autonomous Robotic Systems Soft Computing and Hard Computing Methodologies and Applications /
This book contains an edited collection of eighteen contributions on soft and hard computing techniques and their applications to autonomous robotic systems. Each contribution has been exclusively written for this volume by a leading researcher. The volume demonstrates the various ways that the soft...
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| Other Authors: | , , |
| Format: | Electronic eBook |
| Language: | English |
| Published: |
Heidelberg :
Physica-Verlag HD : Imprint: Physica,
2003.
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| Edition: | 1st ed. 2003. |
| Series: | Studies in Fuzziness and Soft Computing,
116 |
| Subjects: | |
| Online Access: | Full Text via HEAL-Link |
Table of Contents:
- Basic Principles and Methodologies
- Where is Knowledge in Robotics? Some Methodological Issues on Symbolic and Connectionist Perspectives of AI
- to Fusion Based Systems - Contributions of Soft Computing Techniques and Application to Robotics
- Planning and Navigation
- Applied Soft Computing Strategies for Autonomous Field Robotics
- Integration of Reactive Utilitarian Navigation and Topological Modeling
- Line-Crawling Robot Navigation: A Rough Neurocomputing Approach
- Hierarchical Planning in a Mobile Robot for Map Learning and Navigation
- An Analytical Method for Decomposing the External Environment Representation Task for a Robot with Restricted Sensory Information
- Evolutionary Artificial Potential Field - Applications to Mobile Robot Path Planning
- Learning, Adaptation and Control
- Using Hierarchical Fuzzy Behaviors in the RoboCup Domain
- A Bio-Inspired Robotic Mechanism for Autonomous Locomotion in Unconventional Environments
- Online Learning and Adaptation for Intelligent Embedded Agents Operating in Domestic Environments
- Integration of Soft Computing Towards Autonomous Legged Robots
- Grasp Learning by Active Experimentation Using Continuous B-Spline Model
- Online Adaptive Fuzzy Neural Identification and Control of Nonlinear Dynamic Systems
- Hybrid Fuzzy Proportional-Integral plus Conventional Derivative Control of Robotics Systems
- Vision and Perception
- Robot Vision Using Cellular Neural Networks
- Multiresolution Vision in Autonomous Systems
- A Computer Vision Based Human-Robot Interface.
