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Note: T-Mo-A11—The first letter stands for Technical(T) or Plenary(P), the next two letters stand for Monday, Tuesday, Wednesday, etc. and the fourth letter stands for the period of the session i.e., Morning, Afternoon or Evening.
WEDNESDAY |
| Session Slot | Area Code | Session Name |
| P-We-M | | Inverse Problems with Constraints |
| T-We-M00 | 5 | Milestone Cluster: Systems Engineering and Management |
| T-We-M01 | 3a | Identification of Linear Systems |
| T-We-M02 | 3c | Performance Issues in Discrete Event Systems |
| T-We-M03 | 3b | Applications of Adaptive Control |
| T-We-M04 | 3e | Fuzzy Control Systems |
| T-We-M05 | 8b | Control of Automotive Powertrains |
| T-We-M06 | 1f | Low Cost Oriented Industrial Automation |
| T-We-M07 | 2c | Nonlinear Output Feedback |
| T-We-M08 | 2c | Stability and Stabilization |
| T-We-M09 | 7c | Generation Scheduling, Economic Dispatching and Power Quality |
| T-We-M10 | 7e | Fault Diagnosis of Actuator Systems |
| T-We-M11 | 7a | Process Modeling and Analysis Tools |
| T-We-M12 | 9c | Artificial Intelligence in Real-Time Control |
| T-We-M13 | 9e | Safety and Reliability in Computer Control |
| T-We-M14 | 2b | Positive Linear Systems |
| T-We-M15 | 2e | Robust Analysis I |
| T-We-M16 | 2a | New Challenges for Controller Design |
| T-We-M17 | 2d | Predictive Control |
| T-We-M18 | 2b | Controller Reduction and Design |
| T-We-M19 | 1c | Industrial Applications of Manufacturing Control Models |
| T-We-M20 | 1d | Control Architectures for Advanced Cooperation in Robotics |
| T-We-M21 | | Posters of Modelling, Identification and Discrete Event Systems |
| T-We-A00 | 6 | Milestone Cluster: Global and Educational Issues of Automation |
| T-We-A01 | 3a | Identification of Error-in-Variable Models |
| T-We-A02 | 3a | Set-Membership Estimation for Uncertain Dynamics and Control |
| T-We-A03 | 3b | Adaptive Control in Industry |
| T-We-A04 | 3e | Neural Network Analysis and Learning |
| T-We-A05 | 8b | Optimization and Control of Hybrid Powertrains |
| T-We-A06 | 8a | Flight, Hovering, and Unmanned Vehicle Control |
| T-We-A07 | 1f | Cost Effective Control Systems |
| T-We-A08 | 2c | Stabilization of Underactuated and Walking Mechanisms |
| T-We-A09 | 7c | Tools and Concepts in Power System Control and -Planning |
| T-We-A10 | 7e | Neuro-Fuzzy Applications of Fault Diagnosis |
| T-We-A11 | 7a | Process Identification and Estimation |
| T-We-A12 | 7e | Integration of Fault Diagnosis & Fault Tolerant Control |
| T-We-A13 | 9a | Distributed Computer Control System |
| T-We-A14 | 2a | Issues in Digital Control |
| T-We-A15 | 2e | Robust Analysis II |
| T-We-A16 | 2a | Observer Based Control |
| T-We-A17 | 2e | Predictive Control |
| T-We-A18 | 2b | Control Design |
| T-We-A19 | 1c | New Frontiers in Scheduling Models for Manufacturing |
| T-We-A20 | 1d | Multi-Robot Systems |
| T-We-A21 | | Posters of Nonlinear Systems |
| P-We-E | | Risk Perception: A Critical Element of Aviation Safety |