( | Top |
(Under)water vehicles | MoCT3.1, MoCT3.2, MoCT3.5, MoCT3.6, TuBT3.3, TuBT3.4 See also Control applications |
A | Top |
Acoustics | MoCT6.5, TuBT6.3 |
Actuators | MoAT2.6, MoBT2.2, MoCT6.3, TuBT5.5, WeAT2.1, WeAT3.2, WeAT3.4, WeAT3.6 |
Adaptive systems | MoAT5.5, MoBT3.2, MoBT4.3, MoBT7.5, MoCT1.5, MoCT3.3, MoCT6.5, MoCT7.5, TuAT1.2
See also Direct adaptive control, Indirect adaptive control, Robust adaptive control |
Advanced Control of Fluid Power Systems | MoAT1.6 |
Aerospace | MoAT3.4, MoAT3.6, MoAT4.1, MoBT3.1, MoBT3.2, MoBT3.5, MoBT3.6, MoBT6.4 See also Control applications |
Agents-based systems | MoAT7.6, TuAT3.2, TuAT7.4 See also Autonomous systems |
Algebraic/geometric methods | MoBT3.3, MoBT3.5, TuAT2.4 See also Nonlinear systems |
Alternative fuel sources (biofuel/fuel cell) | MoBT1.5, MoBT4.1 |
Alternative Propulsion/Energy Storage Systems | MoAT1.6, MoCT1.2, TuAT4.1, TuBT1.4, TuBT4.1, TuBT4.2, TuBT4.4, TuBT6.2, WeBT4.4 |
Applications of Fluid Power Systems | MoBT1.4 |
Automotive Systems | MoAT1.2, MoAT1.4, MoBT1.2, MoBT1.4, TuBT1.1, TuBT1.5, TuBT4.3, TuBT4.4, WeBT1.6, WeBT5.1, WeBT7.3 |
Autonomous systems | MoAT3.5, MoBT7.5, MoCT2.6, MoCT3.6, WeAT1.6, WeBT1.2, WeBT3.1
See also Agents-based systems, Cooperative control |
B | Top |
Backstepping | MoAT1.5, MoCT3.1, TuAT1.2 See also Nonlinear systems |
Biological systems | MoAT5.1, MoBT5.2, MoBT5.3, MoBT5.4, MoBT5.6, TuBT5.4, WeAT5.1, WeAT5.2, WeAT5.3, WeAT5.6
See also Biotechnology, Systems biology |
Biological systems applications | MoAT5.1, MoAT5.3, MoBT5.6, MoCT5.5, WeAT5.1 |
Biologically-inspired methods | MoCT5.6, TuBT3.5, TuBT5.6, WeAT5.4 See also Intelligent systems |
Biomechatronics | MoAT2.2, MoBT2.1, TuAT5.4, TuBT2.1, TuBT2.3, TuBT5.3 See also Mechatronics |
Biomedical | MoAT2.3, MoAT5.1, MoAT5.2, MoBT5.3, MoBT5.4, MoBT5.5, MoCT5.1, MoCT5.2, MoCT5.3, MoCT5.4, TuBT5.2, TuBT5.4, WeAT5.3, WeBT4.6 See also Control applications |
Biosensors | MoCT5.1, WeAT6.2 |
Biotechnology | MoBT5.2, MoCT5.2, MoCT7.5 See also Biological systems |
Building and facility automation | MoBT2.6, MoCT4.3, MoCT4.4, MoCT4.5, MoCT4.6, TuAT4.6 See also Control applications |
C | Top |
Collision Avoidance | WeBT1.3, WeBT1.4, WeBT1.5 |
Complex systems | MoAT2.5, MoBT4.4, MoCT6.2, TuBT3.2, WeBT7.3 |
Computational experimentation | WeBT4.2 |
Computational methods | MoCT2.5, WeAT1.6, WeAT6.5, WeBT2.6
See also Computer aided control design, Control software, LMIs, Numerical algorithms |
Constrained control | MoBT7.3, TuAT3.1, TuAT3.6, WeAT7.1, WeAT7.2, WeBT3.2 See also Nonlinear systems |
Control applications | MoAT1.5, MoAT1.6, MoAT3.2, MoBT4.3, MoBT6.3, TuAT1.4, TuAT3.5, TuAT4.3, TuAT7.1, TuBT1.6, TuBT4.4, TuBT4.5, TuBT5.4, TuBT7.1, TuBT7.5, WeAT2.2, WeAT4.6, WeAT6.1, WeBT4.3
See also (Under)water vehicles, Aerospace, Air traffic management, Biomedical, Building and facility automation, Control of communication networks, Data storage systems, Finance, Flight control, Information technology (IT) systems, MEMS, Manufacturing systems, Materials processing, Mechanical systems, Multivehicle systems, Nonholonomic systems, Power systems, Process control, Sensor fusion, Spacecraft control, Vision-based control, Wireless |
Control of Autonomous Ground Vehicles | TuAT1.4, TuAT1.5, TuAT2.4, WeAT1.6, WeBT1.1, WeBT1.3, WeBT1.6 |
Control of communication networks | MoBT2.6 See also Control applications |
Control software | MoCT3.4 See also Computational methods |
Control system architecture | MoCT4.1 See also Large scale systems |
Cooperative control | MoAT7.6, TuAT1.4, TuAT2.4, TuAT7.4, WeAT5.2 See also Autonomous systems |
D | Top |
Decentralized control | MoCT4.1, TuAT2.3 See also Large scale systems |
Delay systems | MoAT7.1, MoAT7.4, WeBT4.3 See also Distributed parameter systems |
Design Optimization in Mechatronics | TuAT5.1, WeAT2.3 See also Mechatronics |
Direct adaptive control | MoAT4.5, MoBT3.2 See also Adaptive systems |
Discrete event systems | WeAT7.4
See also Automata, Petri nets, Supervisory control |
Distributed parameter systems | TuAT4.2, TuAT6.6, WeAT4.1, WeAT5.6, WeAT6.2
See also Delay systems, Flexible structures |
Driver Assistance Systems | MoBT6.5, TuBT1.5, WeBT1.4 |
Dynamical systems education | TuBT3.1 |
E | Top |
Efficiency of Fluid Power Systems | MoAT4.5, MoAT4.6 |
Emerging control applications | MoAT4.3, MoAT7.5, MoCT5.5
See also Human-in-the-loop control, Information theory and control, Nano systems |
Emerging control theory | MoCT5.2
See also Quantum control |
Engine/Powertrain Systems | MoAT1.1, MoAT1.2, MoAT1.3, MoAT1.4, MoBT1.2, MoBT1.3, MoBT1.4, MoBT1.5, MoBT1.6, MoCT1.5, MoCT1.6, TuBT1.1, TuBT1.2, TuBT1.3, TuBT1.6, TuBT4.5 |
Engineering education | TuBT2.6, TuBT3.1 |
Estimation | MoBT1.2, MoBT2.1, MoCT1.6, MoCT6.1, MoCT7.1, TuAT1.6, TuAT2.2, TuAT4.1, TuAT4.6, TuBT1.1, TuBT2.2, TuBT4.2, TuBT4.3, WeAT4.5, WeBT2.1, WeBT3.4, WeBT6.6, WeBT7.2 |
Evolutionary computing | MoBT5.5 See also Intelligent systems |
F | Top |
Fault Analysis and Diagnosis of Fluid Power Systems | WeBT7.4 |
Fault detection/accommodation | TuBT3.2, WeAT4.2, WeBT3.3, WeBT4.5, WeBT5.1, WeBT7.1, WeBT7.2, WeBT7.4, WeBT7.5, WeBT7.6
See also Fault-tolerant systems |
Feedback linearization | MoAT1.4, MoCT7.3 See also Nonlinear systems |
Filtering | WeBT3.5 See also Stochastic systems |
Flexible Manipulators | MoBT6.2, WeAT2.6 See also Robotics |
Flexible structures | WeBT2.6, WeBT6.2 See also Distributed parameter systems |
Flight control | MoAT3.1, MoAT3.2, MoAT3.4, MoAT3.5, MoAT4.1 See also Control applications |
Fluid Power in Renewable Energy | MoAT4.3, MoAT4.6, TuBT6.1 |
Fluid Power System Modeling and Analysis | TuAT5.6 |
Force Control | MoAT6.2, MoBT2.2, MoBT2.5, TuBT5.5 See also Robotics |
G | Top |
Grey-box modeling | MoAT3.3 See also Modeling and simulation |
H | Top |
Human dynamics | MoAT2.2, MoAT2.5, MoAT5.4, MoBT5.6, MoBT6.1, MoCT6.2, TuAT5.5, WeAT5.5 |
Human-in-the-loop control | TuBT2.5, WeAT5.5 See also Emerging control applications |
Human-Machine Interfaces | MoBT2.1, TuBT2.1, TuBT2.3, TuBT2.4, TuBT5.3, WeAT5.5 See also Mechatronics |
Hybrid systems | MoAT6.3, MoBT7.2, TuAT2.2
See also Embedded systems, Quantized systems, Stability of hybrid systems, Switched systems |
I | Top |
Identification | MoAT3.6, MoAT5.2, MoBT5.3, MoBT5.4, MoCT1.2, MoCT7.4, TuAT1.6, TuAT4.2, TuAT4.5, TuAT4.6, TuBT2.4, TuBT6.5, TuBT7.2, WeAT6.6, WeBT2.1, WeBT2.3, WeBT4.1, WeBT5.1, WeBT5.4, WeBT7.6 |
Indirect adaptive control | MoBT4.6, MoCT4.5 See also Adaptive systems |
Industrial Vibration Control and Isolation Systems | MoAT6.6, TuAT6.1, WeAT6.3 |
Intelligent systems | TuAT2.2, WeAT2.1
See also Biologically-inspired methods, Evolutionary computing, Fuzzy systems, Neural networks, Self-tuning fuzzy-sliding mode controllers, Self-tuning or self-organized controllers |
Intelligent Transportation Systems (ITS) | WeAT1.1, WeAT1.3, WeAT1.4, WeAT1.5, WeBT5.6 |
Iterative learning control | WeAT1.2, WeAT3.3, WeAT3.5 |
K | Top |
K-12 education | TuBT2.6, TuBT3.1 |
Kalman filtering | MoAT6.4, MoCT1.6, TuAT4.1, TuAT4.4, TuBT3.3, WeAT3.5, WeAT4.3, WeAT4.5, WeBT3.4 |
L | Top |
Learning | WeBT1.2
See also Machine learning, Pattern recognition and classification, Statistical learning |
Linear parameter-varying systems | MoAT1.1, WeAT7.6 See also Linear systems |
Linear systems | MoBT4.1, MoCT6.1, WeAT7.4
See also Linear parameter-varying systems, Observers for linear systems, PID control, Predictive control for linear systems, Quantitative feedback theory, Stability of linear systems |
LMIs | MoCT7.1, TuAT7.5, WeAT5.3, WeAT7.1, WeAT7.2, WeAT7.3 See also Computational methods |
M | Top |
Machine learning | MoBT5.1 See also Learning |
Manufacturing systems | MoCT6.4, WeAT4.3, WeBT4.3, WeBT6.1 See also Control applications |
Materials processing | WeBT6.1 See also Control applications |
Mechanical systems | MoAT6.5, MoAT6.6, MoBT4.4, MoCT6.1, TuBT7.6, WeAT2.5, WeBT6.4 See also Control applications |
Mechanisms | MoBT3.6, MoCT2.3, TuAT5.1, TuAT6.1, WeAT2.2, WeAT2.3, WeAT2.4, WeAT2.5, WeAT3.4, WeBT2.5 |
Mechatronics | MoCT7.5, TuAT4.3, TuBT3.5, WeAT3.2, WeAT4.3, WeBT3.6
See also Biomechatronics, Design Optimization in Mechatronics, Human-Machine Interfaces, Intelligent Process Automation, Mechatronics Education, Modeling and Design of Mechatronic Systems |
Medical Robotics | MoAT5.5, MoAT5.6, MoBT2.2, MoCT2.2, MoCT2.4, MoCT5.4, TuAT5.2, TuAT5.5, TuBT3.6, TuBT5.1, TuBT5.2, WeBT4.6 See also Robotics |
MEMS | MoCT5.3, WeAT3.1, WeAT3.6, WeBT6.3 See also Control applications |
Microstructures and Nanostructures Vibration Control | TuAT6.2, TuAT6.3, WeAT3.1 |
Model Reduction | MoAT6.4, MoBT6.2, TuBT4.1 See also Modeling and simulation |
Model Validation | MoBT2.3, TuAT2.5, WeBT4.6, WeBT6.2, WeBT7.5 See also Modeling and simulation |
Model/Energy Systems | MoAT4.3, MoAT4.4, MoBT4.2, MoCT1.2, MoCT4.2, MoCT4.3, TuAT4.2, TuAT4.3, TuAT4.4, TuAT4.5, TuAT5.6, TuBT1.4, TuBT4.3, TuBT4.6, TuBT6.1, WeAT4.4, WeBT5.4 See also Modeling and simulation |
Modeling | MoAT5.2, MoBT3.4, MoBT4.5, MoCT1.5, TuAT1.5, TuAT6.3, WeAT6.2, WeBT2.3, WeBT3.6, WeBT5.3, WeBT7.3, WeBT7.5 See also Modeling and simulation |
Modeling and Design of Mechatronic Systems | MoAT3.4, MoCT2.1, TuAT7.3, TuAT7.6, TuBT5.6, WeAT2.3, WeAT3.1, WeAT3.4, WeBT2.5 See also Mechatronics |
Modeling and simulation | MoAT1.3, MoAT2.4, MoAT3.3, MoAT4.2, MoAT7.3, MoCT2.1, MoCT4.2, TuAT5.3, TuBT3.4, TuBT3.6, WeAT1.2, WeAT1.3, WeAT3.6, WeAT4.4, WeAT5.2, WeAT6.5, WeBT2.4, WeBT2.6, WeBT4.5, WeBT5.2, WeBT6.1
See also Grey-box modeling, Model Assembly, Model Reduction, Model Synthesis, Model Validation, Model/Control Interdependence, Model/Energy Systems, Modeling, Modeling Methods, Modeling Metrics, Modeling/Design Interdependence, Reduced order modeling, Simulation |
Modeling Methods | MoCT6.4, TuAT7.6, WeBT5.2 See also Modeling and simulation |
Modeling/Design Interdependence | WeAT6.3 See also Modeling and simulation |
Multibody systems | MoAT2.4, MoBT3.3, MoBT4.4, MoBT6.5, MoCT6.4, TuBT3.6, WeAT2.2, WeBT5.5, WeBT6.6 |
Multivehicle systems | MoAT7.6, WeAT1.3, WeBT1.1 See also Control applications |
N | Top |
Nano systems | MoCT5.6, MoCT6.3 See also Emerging control applications |
Networked control systems | MoAT7.1, TuAT2.5, TuAT2.6 |
Neural networks | MoCT1.4, WeBT7.2 See also Intelligent systems |
Nonholonomic systems | TuAT3.1, TuAT3.2, TuAT3.4, TuAT3.5, TuAT3.6, WeAT5.4 See also Control applications |
Nonlinear dynamics | MoAT2.5, MoAT5.3, MoAT5.4, MoAT6.2, MoBT7.5, TuAT3.3, TuAT6.2, TuBT5.6, WeBT4.1, WeBT5.3, WeBT5.5 See also Nonlinear systems |
Nonlinear systems | MoAT2.1, MoBT7.1, MoBT7.2, MoBT7.3, MoBT7.4, MoBT7.6, MoCT3.2, TuAT3.5, TuBT6.4, TuBT7.4, WeAT3.2, WeAT6.1
See also Algebraic/geometric methods, Backstepping, Chaotic systems, Constrained control, Feedback linearization, Nonlinear dynamics, Observers for nonlinear systems, Output feedback, Output regulation, Predictive control for nonlinear systems, Stability of nonlinear systems, Time-varying systems, Variable-structure/sliding-mode control |
Numerical algorithms | TuAT6.4, WeAT4.5 See also Computational methods |
O | Top |
Object handling or grasping | MoBT2.5, WeAT2.5 See also Robotics |
Observers for linear systems | WeBT7.1 See also Linear systems |
Observers for nonlinear systems | MoAT7.5, MoBT3.5, MoCT7.2, TuAT3.3, TuAT4.4, TuBT7.5, TuBT7.6 See also Nonlinear systems |
Optimal control | MoCT4.1, MoCT4.4, MoCT6.6, TuAT2.1, TuAT3.4, TuAT5.3, TuBT1.2, WeAT7.2, WeBT4.4 See also Optimization |
Optimization | MoAT2.3, MoAT4.2, MoBT1.3, MoBT2.3, MoBT5.5, MoCT3.3, MoCT3.4, MoCT4.2, MoCT5.4, TuAT2.1, TuAT2.3, TuAT2.6, TuAT7.2, TuAT7.3, TuAT7.4, TuAT7.5, TuAT7.6, TuBT1.4, TuBT4.5, WeAT1.4, WeAT4.4, WeBT5.3, WeBT7.6
See also Optimal control, Optimization algorithms, Variational methods |
Optimization algorithms | MoBT3.1, MoCT2.5, MoCT4.4, MoCT7.2, TuAT2.6 See also Optimization |
Oscillators | MoAT3.6, TuBT6.4, TuBT7.4, WeAT6.4, WeBT4.2 |
Output feedback | MoBT4.6 See also Nonlinear systems |
Output regulation | MoBT4.1, MoBT7.4 See also Nonlinear systems |
P | Top |
Pattern recognition and classification | MoBT5.1, MoCT1.4 See also Learning |
Perception and action | MoBT2.4 |
PID control | MoAT1.1, MoBT1.1, MoCT7.6, TuBT5.2 See also Linear systems |
Pneumatics | MoAT5.5, MoBT2.4, MoBT6.3, TuAT5.6 |
Power systems | MoAT4.1, MoBT4.3, MoBT4.6, TuBT6.6, TuBT7.2 See also Control applications |
Predictive control for linear systems | MoCT4.3, TuBT1.2, TuBT7.3 See also Linear systems |
Predictive control for nonlinear systems | MoBT3.1, MoCT7.3, TuAT4.5, WeAT4.1 See also Nonlinear systems |
Process control | MoBT2.6, TuBT7.1, WeAT4.1 See also Control applications |
Q | Top |
Quantitative feedback theory | MoCT6.6 See also Linear systems |
R | Top |
Reduced order modeling | MoAT1.2, TuBT4.1 See also Modeling and simulation |
Robotics | MoAT2.1, MoAT2.3, MoAT2.4, MoAT3.1, MoAT3.5, MoAT5.6, MoCT2.2, MoCT2.3, MoCT2.4, MoCT3.1, MoCT3.5, MoCT3.6, MoCT7.6, TuAT3.1, TuAT3.3, TuAT3.6, TuAT5.1, TuAT5.2, TuAT5.4, TuAT5.5, TuBT2.1, TuBT3.5, TuBT5.5, WeAT2.1, WeAT2.4, WeBT2.2, WeBT2.3, WeBT2.4, WeBT2.5, WeBT3.1, WeBT3.2, WeBT3.4, WeBT6.6
See also Flexible Manipulators, Force Control, Medical Robotics, Micro/Nano Manipulation, Network Robotics, Object handling or grasping, Service/Rehabilitation Robots, Tele-operation/Haptics |
Robust adaptive control | WeAT7.6, WeBT4.1 See also Adaptive systems |
Robust control | MoBT7.1, MoBT7.6, MoCT7.2, TuAT7.5, TuBT7.3, TuBT7.5, WeAT7.3, WeBT2.2 See also Uncertain systems |
S | Top |
Sensing, Monitoring and Damage Mitigation | TuAT6.5, TuBT6.5, WeBT3.3 |
Sensor fusion | MoAT6.4, MoAT6.5, TuBT3.3, WeAT3.5, WeBT3.5 See also Control applications |
Sensor networks | MoCT3.3, TuAT2.3 |
Sensors | MoAT4.4, MoCT5.1, MoCT5.3, TuAT6.5, TuBT6.3, WeAT4.2, WeBT3.1, WeBT3.5, WeBT3.6, WeBT4.5 |
Service/Rehabilitation Robots | MoAT5.6, MoBT2.3, MoBT2.4, MoBT2.5, MoCT2.1, MoCT2.2, MoCT2.3, MoCT2.4, MoCT2.5, TuAT5.2, TuAT5.3, TuAT5.4 See also Robotics |
Simulation | MoBT3.4, MoBT4.5, TuBT3.4, WeAT2.4, WeBT4.4 See also Modeling and simulation |
Smart Structures | MoBT4.5, TuAT6.5, TuAT7.3, TuBT6.3, WeBT6.5 |
Space dynamics | MoBT3.4 |
Spacecraft control | MoBT3.3 See also Control applications |
Stability of hybrid systems | WeAT7.5 See also Hybrid systems |
Stability of linear systems | MoAT7.2, MoAT7.4, WeAT7.5 See also Linear systems |
Stability of nonlinear systems | MoAT4.6, MoAT7.3, MoBT7.3, MoBT7.4, MoCT7.3, MoCT7.6, WeBT6.3 See also Nonlinear systems |
Statistical learning | MoBT5.1, WeBT2.1 See also Learning |
Stochastic systems | MoAT5.3, MoCT6.2, TuAT2.1
See also Filtering, Markov processes |
Structural dynamics | TuAT6.4, TuAT6.6, TuBT6.5, WeAT6.3, WeBT3.3, WeBT4.2, WeBT5.5, WeBT6.2 |
Structural Vibration Control | MoAT6.1, WeAT6.1, WeAT6.4, WeAT6.5, WeBT6.5 |
Switched systems | MoBT7.2, WeAT7.1, WeAT7.3 See also Hybrid systems |
Systems biology | MoBT5.2 See also Biological systems |
T | Top |
Tele-operation/Haptics | TuBT2.2, TuBT2.3, TuBT2.4, TuBT2.5, TuBT2.6 See also Robotics |
Time-delay systems | MoAT7.2, MoAT7.3, MoAT7.5 |
Time-varying systems | WeBT5.2, WeBT6.3 See also Nonlinear systems |
Transportation Systems | MoAT6.1, MoCT1.4, TuBT4.2, WeBT5.6 |
U | Top |
Uncertain systems | MoAT1.3, MoBT7.1, MoBT7.6, MoCT3.4, MoCT7.1, TuAT6.4, WeAT7.6, WeBT2.4
See also Randomized algorithms, Robust control |
V | Top |
Variable-structure/sliding-mode control | MoAT6.2, MoCT3.2, TuAT1.3, TuAT3.2, TuBT7.1, TuBT7.2, TuBT7.3, TuBT7.4, TuBT7.6 See also Nonlinear systems |
Vehicle Active and Passive Safety Systems | MoBT6.6, TuAT1.3, TuBT3.2, WeBT1.4, WeBT1.5 |
Vehicle Dynamics and Control | MoAT3.2, MoAT3.3, MoBT1.1, MoBT1.3, MoBT6.1, MoBT6.3, MoBT6.5, MoBT6.6, MoCT1.1, MoCT1.3, TuAT1.1, TuAT1.2, TuAT1.3, TuAT1.5, TuAT1.6, TuBT1.5, WeAT1.2, WeAT1.4, WeBT1.1, WeBT1.3, WeBT1.5, WeBT5.6 |
Vibration Control | MoAT2.6, MoAT4.4, MoAT6.1, MoAT6.3, MoAT6.5, MoAT6.6, MoAT7.4, MoBT1.1, MoBT6.1, MoBT6.2, MoCT6.3, MoCT6.5, TuAT6.1, WeAT6.4, WeBT6.4 |
Vision-based control | MoAT3.1, WeAT5.1, WeBT3.2 See also Control applications |