Workshop
The increasing adoption of methods from computational intelligence, biologically inspired computing, and optimization in engineering disciplines such as mechatronics, production or logistics enables the development of a new class of autonomous systems. These systems often posses abilities which are best describe by the phrase Self-X: Self-Optimization, Self-Coordination, Self-Healing, Self-Repair and many more.
Prospective participants are requested to electrically submit full papers of their work (6 pages) following the instructions available on the INDIN 2011 website: www.uninova.pt/indin2011/ Accepted papers will be published in an IEEE proceedings volume that will be included in IEEE Xplore. The submission System of the 
INDIN 2011 will be used.
Aplication Examples of Self-X and Autonomous Control
- Mechatronics and Robotics
- Cyber Physical Systems
- Vehicle Technoloy
- Production Systems
- Supply Chain Management
- and related applications
Algorithms and Methods for Self-X and Autonomous Control
- Autonomous Planning and Scheduling
- Agent-Based Systems, Multiagent-System, Holonic Control Systems
- Modelling uncertainty, Optimization and Planning under uncertainty
- Multi-Objective and Multi-Criteria Optimization
- Machine Learning and Data Mining
- Model Identification and Fuzzy Expert Systems
- Biologically inspired Methods: Ant-Based Optimization, Artificial Immune
- Systems, Evolutionary Computing etc.
- and related methods
Platform Technolgies for Self-X and Autonomous Control
- Reconfigurable Hardware
- System Software for Self-X and Autonomous Control
- Distributed Control
- Flexible Resource Management in Embedded Systems
- Self-Healing Embedded Systems
- Wireless Sensor Networks
- and related technologies
Design Methodologies
- Reference Processes for Product Design and Development of Sytems with Self-X Properties and Autonomous Control
- Formal Verification
- System Validation
- Evaluation methods for Self-X and Autonomous Control
- Solution Pattern for Self-X and Autonomous Control
