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Last updated on September 25, 2017. This conference program is tentative and subject to change
### MSC 2015 Keyword Index
A
B
C
D
E
F
G
H
I
K
L
M
N
O
P
Q
R
S
T
V
**A** | Top |
Adaptive control | MoA02.1, MoA03.1, MoA03.5, MoA03.6, MoA05.4, MoC06.5, MoC06.6, TuA01.1, TuA01.3, TuA01.5, TuB02.2, TuB02.3, TuB02.4, TuC01.1, TuC02.3, TuC05.5, WeA06.2, WeB05.1, WeB05.2, WeB05.3, WeB05.4, WeB05.5, WeB05.6, WeC02.1, WeC02.2, WeC05.1
See also Model-based control, Non-model-based control |
Aerospace applications | MoC02.4, MoC05.1, MoC05.5, MoC05.6, TuA03.1, TuA03.2, TuA03.3, TuA03.4, TuA03.5, TuA03.6, TuA04.3, TuB02.1, TuB02.5, TuB03.1, TuB03.5, WeA02.4, WeA03.1 See also Control applications |
Agents | MoC06.1, MoC06.5, TuB01.2, TuB06.1, WeA03.2, WeA03.6, WeC06.1 See also Autonomous systems |
Algebraic/geometric methods | TuB06.2 See also Nonlinear systems |
Automata | MoB04.6 See also Discrete event systems |
Automotive applications | TuA01.6, TuA04.4, TuB04.2, TuB04.6, WeB06.1, WeB06.2, WeB06.3, WeB06.4, WeB06.5, WeB06.6, WeC05.3, WeC06.1, WeC06.2, WeC06.3, WeC06.4, WeC06.5, WeC06.6 See also Control applications |
Autonomous systems | MoA02.2, MoA02.5, MoC06.2, MoC06.4, TuA01.4, TuA04.3, TuB01.1, WeA05.1, WeB06.2, WeC02.2
See also Agents, Cooperative control, Coordination, Decision making, Game theory, Pursuit and evasion |
**B** | Top |
Biosystems | WeA02.5, WeB02.2 See also Control applications |
Biotechnology | MoC04.5 See also Control applications |
**C** | Top |
Chemical processes | MoA04.6, MoB04.5, TuB05.3 See also Control applications |
Communication networks | TuC04.5, WeB04.1 See also Control applications |
Complex networks | MoA06.4 See also Complex systems |
Complex systems | MoA04.1
See also Complex networks, Complexity and emergence, Self-organization |
Computational methods | MoB03.5, TuB01.3, TuB06.5, TuC01.3
See also Interval methods, LMIs, Lyapunov methods, Numerical analysis, Polynomial methods, Quantum control, Symbolic methods |
Computer-aided control design | WeB03.3
See also Verification and validation |
Control applications | MoA03.1, MoA03.5, MoA06.5, MoA06.6, MoB01.4, MoB03.1, MoB03.4, MoB03.6, MoB04.3, MoB06.1, MoB06.3, MoB06.5, MoC01.1, MoC01.2, MoC02.2, MoC03.1, MoC04.4, MoC05.2, TuA02.1, TuA03.2, TuA03.6, TuA04.5, TuA05.1, TuA05.2, TuA06.1, TuA06.2, TuA06.3, TuA06.4, TuB03.1, TuB04.4, TuB05.1, TuB05.2, TuC01.2, TuC01.4, TuC02.2, TuC04.1, TuC05.1, TuC06.2, WeA01.2, WeA01.4, WeA01.5, WeA02.1, WeB01.1, WeB03.2, WeB04.2, WeB04.3, WeB04.5, WeC01.2, WeC04.1, WeC04.4
See also Aerospace applications, Agricultural systems, Automotive applications, Biosystems, Biotechnology, Chemical processes, Communication networks, Cyberphysical systems, Disk drives, Electronic systems, Medicine, Flexible structures, Human machine interface, Humanoid robots, IVHS (Intelligent Vehicles and Highway Systems), MEMS and nanotechnology, Manufacturing systems, Marine vehicular systems, Materials Processing, Mechanical systems, Mechatronic systems, Mining systems, Mobile robots, Motor systems, Nanotechnologies, Oil and gaz production systems, Physics, Pneumatic control, Power systems, Process control, Robotics, Smart structures, Spacecraft control, Structural control, Transportation systems, Vehicular and traffic control, Visual servo control |
Control architectures | MoA04.1, TuA03.1, WeA02.6, WeB04.3
See also Controller reconfiguration, Networked control systems, Real-time systems, Software architectures |
Controller monitoring | MoA03.2, MoA05.6, WeB03.1
See also Human brain interface |
Controller reconfiguration | TuB04.1, WeB03.3, WeC05.4, WeC05.5 See also Control architectures |
Cooperative control | MoA04.2, MoA06.1, MoC01.3, MoC06.1, MoC06.2, MoC06.3, MoC06.4, MoC06.6, TuB01.1, TuB01.2, TuB04.3, TuB06.1, WeA03.1, WeA03.2, WeA03.3, WeA03.4, WeA03.5, WeA03.6, WeA05.2, WeC03.1, WeC03.2 See also Autonomous systems |
Coordination | MoC01.3, MoC06.1, MoC06.2, MoC06.4, MoC06.5, TuB01.1, TuB01.2, WeA03.5, WeC03.1 See also Autonomous systems |
Cyberphysical systems | TuA01.3, TuA04.5 See also Control applications |
**D** | Top |
Decision making | MoC03.2, WeA05.3 See also Autonomous systems |
Discrete event systems | MoB04.5
See also Automata, Petri nets |
Disk drives | WeA06.2 See also Control applications |
Distributed control | MoA04.3, MoA04.4, WeC03.1, WeC03.2, WeC03.3, WeC03.4, WeC03.5, WeC03.6 See also Distributed parameter systems |
Distributed embedded systems | MoC03.1, TuA02.4 See also Intelligent systems |
Distributed intelligent networked systems | MoC03.2, MoC03.5, WeA03.3 See also Intelligent systems |
Distributed parameter systems | MoB01.6, MoC03.3, MoC03.4, MoC04.3, TuB01.6, TuB03.4
See also Distributed control, Multiscale modeling |
**E** | Top |
Electronic systems | MoA06.5, MoA06.6, MoC01.4, TuA04.1, TuC06.1, WeA05.6 See also Control applications |
Estimation | MoA02.2, MoA05.2, MoB05.1, MoB05.2, MoB05.3, MoB05.4, MoB05.5, MoB05.6, MoB06.4, MoC03.3, MoC05.3, MoC05.5, TuA01.1, TuA01.5, TuB03.3, TuB03.4, TuC04.2, TuC04.4, TuC06.1, TuC06.2, TuC06.3, TuC06.4, WeA05.3, WeB02.3, WeC01.1, WeC02.4, WeC06.5 |
Evolutionary computing | WeB06.3 See also Intelligent systems |
**F** | Top |
Fault detection/accomodation | MoA04.5, MoA04.6, MoB04.6, TuB03.1, TuB03.2, TuB03.3, TuB03.4, TuB03.5, TuB03.6, TuC06.3, TuC06.4, WeC05.2, WeC05.5
See also Fault-tolerant systems |
Fault-tolerant systems | TuA03.1, TuA03.3, TuB04.1, WeC05.1, WeC05.2, WeC05.3, WeC05.4, WeC05.5, WeC05.6 See also Fault detection/accomodation |
Feedback linearization | WeA06.3 See also Nonlinear systems |
Filtering | MoA01.3, MoB04.1, MoB05.4, MoC05.3, TuB04.5, TuC04.2, WeA01.1, WeB04.4, WeC01.1 |
Flexible structures | MoA05.1, TuA04.2, TuA05.4, TuA06.1, TuB04.4, TuC02.4, TuC04.1 See also Control applications |
Fuzzy control | MoA03.6, WeB06.4 See also Intelligent systems |
Fuzzy systems | MoB04.1, TuB01.5, TuB06.3 See also Intelligent systems |
**G** | Top |
Gain scheduling | MoC02.5 See also Linear systems |
Game theory | MoA06.2, TuC01.5 See also Autonomous systems |
Genetic algorithms | WeC04.2 See also Intelligent systems |
Grey box models | WeC06.4 See also Modeling |
**H** | Top |
Human machine interface | MoC02.1, MoC05.2, TuA06.4 See also Control applications |
Humanoid robots | MoA02.1 See also Control applications |
Hybrid systems | MoA06.3, MoB04.4, MoB04.5, MoB04.6, TuA02.2, WeA04.1
See also Stability of hybrid systems, Switched systems |
**I** | Top |
Identification | MoA05.1, MoA05.2, MoA05.3, MoA05.4, MoA05.5, MoA05.6, MoB02.1, MoB05.1, MoB05.2, MoB06.2, MoC01.5, MoC03.4, TuA01.6, TuB05.6, TuC02.3, TuC03.5, TuC04.2, TuC04.3, WeA02.2, WeA02.3, WeA02.5, WeA04.2, WeB02.1, WeB02.3, WeB03.4, WeC06.4 |
Inferential sensing | TuB05.6 |
Intelligent interaction | MoA02.6, MoA05.3 See also Intelligent systems |
Intelligent systems | TuB01.3
See also Architecture and software, Biologically-inspired methods, Evolutionary computing, Distributed intelligent networked systems, Distributed embedded systems, Fuzzy control, Fuzzy systems, Genetic algorithms, Intelligent control architectures, Intelligent interaction, Intelligent media fusion, Neural networks, Neurocontrol, Social Robotics |
Iterative learning control | TuB01.4, WeA06.1, WeC01.2 See also Learning |
IVHS (Intelligent Vehicles and Highway Systems) | MoC01.6, TuB04.5, WeB06.2 See also Control applications |
**K** | Top |
Kalman filtering | MoA05.2, MoC05.1, MoC05.2, TuC04.3, TuC04.4, TuC04.5, WeC06.5 |
**L** | Top |
Learning | MoA05.3, MoB06.5, WeB05.1, WeB06.5, WeC02.1
See also Iterative learning control, Reinforcement learning, Supervised learning, Unsupervised learning |
Linear parameter-varying systems | MoB03.1, TuB03.5, TuB05.3, WeC06.6 See also Linear systems |
Linear robust control | MoC04.1, TuC05.1, WeA04.2, WeA04.3, WeA04.4, WeB05.2 See also Linear systems |
Linear systems | MoA01.4, MoB05.1, MoC04.1, MoC05.6, TuA01.4, TuB01.4, TuB05.1, TuC05.3, WeA02.2, WeA03.4, WeA04.4, WeB05.1, WeB06.3, WeC01.1, WeC01.2, WeC01.3, WeC01.4, WeC01.5, WeC01.6, WeC02.6, WeC04.3
See also Gain scheduling, Linear parameter-varying systems, PID control, Linear robust control, Time delays |
LMIs | MoA04.5, MoB01.3, MoC05.4, TuC05.3, WeA04.3, WeA04.6, WeB04.4, WeC01.3, WeC04.3 See also Computational methods |
Lyapunov methods | MoB01.2, MoB04.3, MoC02.6, TuA06.6, TuC02.1, TuC06.5, WeA04.3, WeB05.2, WeB05.4, WeC03.2 See also Computational methods |
**M** | Top |
Manufacturing systems | MoC01.1, MoC01.5, WeA05.4 See also Control applications |
Marine vehicular systems | TuA06.5, TuB03.6, TuC01.1 See also Control applications |
Markov processes | TuB06.5, WeA05.3 See also Stochastic/uncertain systems |
Materials Processing | MoB03.2 See also Control applications |
Matlab/Simulink | TuA06.5, TuB04.2, TuB05.2, TuC01.1 See also Software tools |
Mechanical systems | MoA05.1, MoB02.1, MoB05.3, MoB06.2, MoC03.5, TuA06.6, TuB05.6, TuC02.5, TuC06.5 See also Control applications |
Mechatronic systems | MoA03.2, MoB06.1, MoB06.2, MoB06.3, MoB06.4, MoB06.5, MoB06.6, TuA04.1, TuA04.2, TuB02.6, TuC02.5, WeA05.5, WeA06.1, WeA06.2, WeA06.3, WeA06.4, WeA06.5, WeA06.6 See also Control applications |
Medicine | TuB05.5, TuC01.3, WeC04.4 See also Control applications |
MEMS and nanotechnology | TuA05.4, TuB04.4, WeA05.5 See also Control applications |
Mixed-integer optimization | TuA02.6, WeA01.3 See also Optimization |
Mobile robots | MoA02.2, MoA02.6, MoA04.2, MoB03.3, MoC03.2, TuA04.4, TuA06.5, WeA03.5, WeB05.3 See also Control applications |
Model-based control | TuB04.2, TuB04.6, WeA06.4 See also Adaptive control |
Modeling | MoA05.5, MoB06.6, TuA02.3, TuA04.5, TuB05.1, TuB05.2, TuC05.2, WeA02.1, WeA02.4, WeA02.6, WeB01.5, WeB02.1, WeB02.2, WeB02.3, WeB02.4, WeB02.5, WeB02.6, WeB06.6, WeC04.1, WeC04.2
See also Grey box models, Modeling frameworks, Object oriented modeling, Reduced order modeling |
Modeling and simulation environments | MoC01.6, WeB01.2, WeC04.5 See also Software tools |
Modeling frameworks | TuB05.4 See also Modeling |
Motor systems | MoB04.2, TuA06.2, TuA06.3, WeA02.3 See also Control applications |
**N** | Top |
Nanotechnologies | MoB06.1, TuA01.5, TuA04.1, TuA04.2, TuA06.1 See also Control applications |
Networked control systems | MoA06.2, MoB01.3, MoC02.2, MoC02.3, MoC04.2, MoC06.6, TuB03.6, TuB04.3, TuB05.4, WeA03.2, WeA03.6, WeA05.2, WeB04.2, WeB04.3, WeB04.4, WeB04.5, WeC01.4, WeC01.5, WeC01.6, WeC03.5, WeC03.6 See also Control architectures |
Neural networks | MoC01.5, MoC04.3, TuB01.6, TuB02.2, TuB02.4 See also Intelligent systems |
Neurocontrol | MoC04.3 See also Intelligent systems |
Non-model-based control | MoA03.3, MoA03.4, MoC04.4, TuC03.4, WeB03.1, WeB03.5 See also Adaptive control |
Nonlinear robust control | MoB01.6, MoB02.6, MoB04.2, MoB04.3, MoC01.4, MoC04.2, TuA02.2, TuA05.1, TuA05.3, TuA06.4, TuB02.6, WeA02.4, WeA04.1, WeA04.5, WeB06.4 See also Nonlinear systems |
Nonlinear systems | MoA02.1, MoA02.3, MoB01.1, MoB01.2, MoB01.3, MoB01.4, MoB01.5, MoB01.6, MoB02.4, MoB05.5, MoC01.2, MoC02.4, MoC04.2, TuA01.1, TuA02.1, TuA02.4, TuA05.2, TuA06.2, TuA06.6, TuB02.5, TuB06.2, TuB06.3, TuC01.3, TuC01.4, TuC02.1, TuC03.2, WeA02.5, WeA03.1, WeB02.1, WeB02.4, WeB02.6, WeB03.4, WeB03.6, WeB05.4, WeB05.5, WeC03.4, WeC04.6, WeC05.1
See also Algebraic/geometric methods, Chaotic systems, Feedback linearization, Nonlinear robust control, Sliding mode control, Variable structure systems |
Numerical analysis | MoB06.4 See also Computational methods |
**O** | Top |
Object oriented modeling | WeB02.4 See also Modeling |
Observers | MoA03.6, MoB04.2, MoB05.2, MoC01.2, MoC01.6, MoC05.1, MoC05.4, MoC05.5, MoC05.6, TuA01.6, TuC04.1, TuC04.3, TuC06.1, TuC06.2, TuC06.3, TuC06.4, TuC06.5, WeA01.1, WeB02.5, WeB03.6, WeB05.6, WeC01.6 |
Oil and gaz production systems | TuC03.3, TuC03.4 See also Control applications |
Optimization | MoB01.4, MoB02.5, MoB03.4, MoB03.6, MoB05.3, MoB05.6, MoC01.1, MoC02.5, MoC03.1, MoC03.3, TuA02.5, TuA03.4, TuA03.5, TuB01.6, TuB02.1, TuC01.4, TuC03.2, TuC05.4, WeB01.4, WeB03.2, WeB04.1, WeB04.2, WeB06.5, WeC01.4, WeC02.2, WeC03.4, WeC04.1, WeC04.2, WeC04.3, WeC04.4, WeC04.5, WeC04.6, WeC06.2
See also Mixed-integer optimization, Semidefinite programming, Variational methods |
**P** | Top |
Physics | MoA03.5, WeA01.4, WeA01.5 See also Control applications |
PID control | MoA03.2, MoA03.3, MoC04.5, TuC05.1, TuC05.2, TuC05.3, TuC05.4, TuC05.5, WeA02.3, WeA06.5, WeB01.1 See also Linear systems |
Pneumatic control | WeA02.1 See also Control applications |
Power systems | MoA04.1, MoA04.3, MoA06.1, MoA06.2, MoA06.3, MoA06.4, MoA06.5, MoA06.6, TuA02.1, TuA02.2, TuA02.3, TuA02.4, TuA02.5, TuA02.6, TuA06.3, TuB02.3, TuB04.3, WeA01.1, WeA01.3, WeA01.4, WeA01.5, WeA02.6, WeB01.1, WeB01.2, WeB01.3, WeB01.4, WeB01.5, WeB01.6, WeC02.3, WeC02.4, WeC04.6, WeC05.6 See also Control applications |
Predictive control | MoA03.1, MoA05.4, MoA05.5, MoB03.1, MoB03.2, MoB03.3, MoB03.4, MoB03.5, MoB03.6, TuA02.3, TuA04.4, TuB04.6, TuC02.2, TuC03.1, TuC03.2, TuC03.3, TuC03.4, TuC03.5, WeB01.2, WeB01.5, WeB05.6, WeC06.2, WeC06.3 |
Process control | MoA03.3, MoA05.6, MoC04.5, TuA02.6, TuC03.5, TuC05.4, TuC05.5, WeA05.4, WeB02.5, WeB03.1, WeB03.2, WeB03.3, WeB03.4, WeB03.5, WeB03.6, WeC05.4 See also Control applications |
**Q** | Top |
Quantum control | MoA01.1, MoA01.2, MoA01.3, MoA01.4, MoA01.5, WeC03.6 See also Computational methods |
**R** | Top |
Randomized algorithms | MoA04.4, WeA03.3 See also Stochastic/uncertain systems |
Real-time systems | TuA01.3, TuC01.2, WeA06.5, WeB03.5 See also Control architectures |
Reduced order modeling | MoC05.4, TuB05.3, TuB05.5, WeA06.4, WeB06.6, WeC03.5 See also Modeling |
Reinforcement learning | MoA02.3, TuB02.4 See also Learning |
Robotics | MoA02.3, MoA02.4, MoA02.5, MoB02.1, MoB02.2, MoB02.3, MoB02.4, MoB02.5, MoB02.6, MoC02.1, MoC02.2, MoC02.3, MoC02.4, MoC02.5, MoC02.6, TuA03.5, TuB02.6, TuC02.1, TuC02.2, TuC02.3, TuC02.4, TuC02.5, TuC03.1, WeA05.6, WeA06.1, WeB02.6, WeB04.5 See also Control applications |
Robust control | MoA01.4, MoA04.3, MoC02.6, TuA05.3, TuB06.3, WeA04.6, WeC06.6 See also Stochastic/uncertain systems |
**S** | Top |
Self-organization | WeA05.2, WeC06.1 See also Complex systems |
Semidefinite programming | MoC01.4, TuB02.5, TuC04.5, WeA04.5, WeA06.6, WeB01.3 See also Optimization |
Sensor fusion | MoB05.5, MoC05.3, TuA01.2, TuB03.3, WeA03.4 |
Sensor networks | MoA04.4, MoC04.6 |
Sensor validation | MoA04.6, TuB04.5 |
Sensors | MoB05.4, MoB05.6, MoB06.3, MoC04.6, WeA01.3, WeA05.1, WeA05.4, WeA05.5, WeA05.6 |
Sliding mode control | MoB01.1, MoB02.3, TuA03.3, TuA04.3, TuA05.1, TuA05.2, TuA05.3, TuA05.4, WeA05.1, WeB01.6, WeC02.5, WeC05.6 See also Nonlinear systems |
Smart structures | TuB04.1 See also Control applications |
Spacecraft control | TuA03.4, TuA03.6, TuB02.1, TuB02.2 See also Control applications |
Stability of hybrid systems | WeC02.3 See also Hybrid systems |
Stochastic/uncertain systems | MoA01.5, MoB01.2, TuB01.3, TuB01.4, WeB01.4, WeC02.5, WeC05.2
See also Markov processes, Randomized algorithms, Robust control |
Structural control | MoC03.5, WeA06.6 See also Control applications |
Supervised learning | TuB06.4 See also Learning |
Switched systems | WeA04.6, WeB02.2, WeC02.1, WeC02.3, WeC02.4, WeC02.5, WeC02.6 See also Hybrid systems |
**T** | Top |
Time delays | MoA04.2, MoA06.1, MoB01.5, MoB02.4, MoB04.1, MoC01.3, MoC02.3, MoC04.1, TuA05.5, TuB01.5, TuB06.1, TuC05.2, WeB01.6, WeB05.5, WeC01.5, WeC02.6 See also Linear systems |
Transportation systems | MoC02.1, TuA04.6, TuC01.5 See also Control applications |
**V** | Top |
Variable structure systems | MoB01.1, WeA06.3 See also Nonlinear systems |
Variational methods | MoA01.5, MoC03.4, TuB06.5 See also Optimization |
Vehicular and traffic control | MoB03.3, TuA04.6, WeA04.2, WeC06.3 See also Control applications |
Verification and validation | MoA02.6 See also Computer-aided control design |
Visual servo control | TuC04.4 See also Control applications |
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