2022 VIRTUAL American Control Conference June 1-2, 2022
Virtual, EDT, USA
  
2022 American Control Conference (Virtual)
June 1-2, 2022, Virtual Conference, EDT, USA

Last updated on May 26, 2022. This conference program is tentative and subject to change

Virtual ACC 2022 Keyword Index

A   B   C   D   E   F   G   H   I   K   L   M   N   O   P   Q   R   S   T   U   V  

ATop
Adaptive controlFrA01.1, FrA01.2, FrA01.3, FrA01.5, FrA01.6, FrA03.3, FrA09.4, FrA12.5, FrB01.1, FrB01.6, FrB09.6, FrB16.3, FrB16.11, FrC04.2, FrC04.6, FrC08.2, FrC10.4, FrC11.2, FrC13.5, ThAT3.5, ThBT4.6, WeAT4.2
See also Adaptive Systems
Adaptive systemsFrA01.2, FrA01.3, FrA01.4, FrA07.2, FrB01.2, FrB01.3, FrC08.4, WeBT4.2
See also Adaptive Systems, Adaptive control, Direct adaptive control, Indirect adaptive control, Robust adaptive control
AerospaceFrA16.2, FrA16.3, FrA16.4, FrA16.5, FrA16.6, FrA16.7
Agents-based systemsFrA02.1, FrA02.3, FrA16.12, FrB01.5, FrB11.4, FrB12.3, FrB13.5, FrB16.4, FrB16.12, FrC07.4, FrC11.3, FrC12.4, ThBT3.2, WeAT3.6, WeBT2.3
Algebraic/geometric methodsFrA14.10, FrB01.3, FrC07.1, FrC07.5, FrSP2.1, ThBT4.6
AutomataFrA11.1, FrA11.4, FrA11.5, FrA11.6, FrB13.1, FrB13.2, WeAT4.5, WeBT3.2
See also Discrete Event Systems
Automotive controlFrB02.1, FrB16.10, FrC01.3, FrC11.2, ThBT4.5, WeBT1.1, WeBT1.3
Autonomous robotsFrA09.2, FrA14.3, FrA14.5, FrA16.12, FrB11.2, FrB12.2, FrB16.6, FrC07.6, FrC09.1, ThBT2.2, WeAT3.3
Autonomous systemsFrA14.11, FrA14.12, FrB07.3, FrB11.5, FrC01.3, FrC11.4, ThAT2.1
Autonomous vehiclesFrC09.2, WeBT1.3
BTop
Biological systemsFrA08.1, FrC04.4
See also Biological Systems, Biomolecular systems, Biotechnology, Cellular dynamics, Genetic regulatory systems, Metabolic systems, Systems biology
BiomedicalFrA15.6, FrB08.2, FrB09.6, ThAT1.6, WeBT4.5
See also Control Applications
Building and facility automationFrB14.10, FrB15.2, FrB15.3, FrB15.4
See also Control Applications
CTop
Cellular dynamicsFrB03.4
See also Biological Systems
Chemical process controlFrA03.5, FrC14.9, FrC15.5
See also Process Control
Closed-loop identificationFrB01.6, FrC02.1
Communication networksFrB04.6, FrC12.3, WeAT4.3
Computational methodsFrB03.3, FrB05.4, FrC05.5, FrC14.10
See also Computational Methods, Computer-aided control design, Control software, LMIs, Numerical algorithms
Constrained controlFrA01.6, FrA09.2, FrA13.2, FrA13.4, FrA16.8, FrA16.10, FrB07.4, FrB08.4, FrB16.7, FrB16.9, FrC05.1, FrC05.2, FrC05.3, FrC05.4, FrC05.5, FrC05.6, FrC11.3, FrC11.4, FrC11.5, FrC11.6, FrC14.6
Control applicationsFrA05.2, FrA05.4, FrA05.5, FrA12.6, FrA14.1, FrA15.7, FrB08.1, FrB08.2, FrB08.6, FrB09.3, FrB09.5, FrB15.5, FrC15.2, FrC15.3, FrC15.4, FrC15.5, FrC15.6, FrC15.7, FrC15.8, FrC15.9, FrC15.10, FrC15.12, ThAT4.6, ThAT5.4, ThBT2.1, ThBT2.4, ThBT4.2, WeBT4.3, WeBT4.4
See also Control Applications, Biomedical, Building and facility automation, Data storage systems, Finance, Fluid power control, Information technology systems, Manufacturing systems, Materials processing, Mechanical systems/robotics, Sensor fusion, Spacecraft control, Vision-based control
Control coursesFrA12.6
See also Control Education
Control educationFrC09.6, ThBT2.6
See also Control Education, Computer-aided learning, Control courses, Control laboratories
Control of networksFrA03.2, FrA08.1, FrA08.5, FrA08.6, FrA14.12, FrB15.6, FrB16.2, FrC02.5, FrC12.3, FrC15.1, ThBT4.3, WeAT3.6, WeAT4.1
Control over communicationsFrB12.3, FrC04.1, FrC07.2, ThAT4.2
See also Hybrid Systems
Cooperative controlFrA01.4, FrA02.3, FrA02.5, FrA09.2, FrA14.3, FrB06.1, FrB11.3, FrB11.6, FrB16.1, FrB16.3, FrB16.5, FrB16.6, FrC07.3, FrC11.1, FrC14.1, FrSP2.1, ThBT1.3, WeAT3.1, WeAT3.2, WeAT3.3, WeAT4.6, WeBT1.2
DTop
Decentralized controlFrA02.1, FrA02.2, FrA02.4, FrA02.5, FrA02.6, FrB13.2, FrB16.1, FrB16.4, FrB16.9, FrC09.2, FrC12.3, WeAT2.6, WeAT3.2
See also Large-scale Systems
Delay systemsFrA08.6, FrA16.11, FrC10.1, FrC10.2, FrC10.3, FrC10.4, FrC10.5, FrC10.6, FrC15.1, ThAT5.1, ThBT3.5, ThBT4.3, WeAT2.5
See also Distributed Parameter Systems
Differential-algebraic systemsFrB14.6, FrC10.5, ThAT1.6
Direct adaptive controlFrA01.1, FrA12.5, FrA15.1, FrA15.2, FrB01.4
See also Adaptive Systems
Discrete event systemsFrA11.1, FrA11.2, FrA11.3, FrA11.4, FrA11.5, FrA11.6, FrB07.1, FrB13.1, FrB13.2, FrB13.3, FrB13.4, FrB13.5, WeAT4.5, WeBT3.2, WeBT3.4, WeBT3.5, WeBT3.6
See also Discrete Event Systems, Automata, Petri nets, Queueing systems, Supervisory control
Distributed controlFrA09.6, FrB01.4, FrB01.5, FrB06.2, FrB06.4, FrB11.1, FrB14.3, FrB16.2, FrB16.7, FrC03.6, FrC09.4, FrC11.1, ThAT1.1, ThAT2.1, ThAT2.4, WeAT3.1, WeAT3.4, WeAT4.3, WeBT1.2
See also Large-scale Systems
Distributed parameter systemsFrA03.1, FrA03.2, FrA03.3, FrA03.4, FrA03.5, FrA03.6, FrB03.1, FrB03.2, FrB03.3, FrB03.4, FrB03.5, FrB03.6, FrC03.1, FrC14.2, FrC15.10, ThAT1.5, ThBT1.6, WeAT2.5, WeAT4.1
See also Distributed Parameter Systems, Delay systems, Flexible structures, Fluid flow systems
ETop
Embedded systemsWeBT3.4
See also Hybrid Systems
Emerging control applicationsFrA05.4, FrB05.5, FrB15.1, FrB16.2, FrC07.1, FrC14.9, FrC15.2, FrC15.11
See also Emerging Control Applications, Human-in-the-loop control, Information theory and control, MEMs and Nano systems, Quantum information and control, Smart structures
Energy systemsFrA05.1, FrA05.2, FrA05.4, FrA05.5, FrA09.1, FrA09.4, FrB05.1, FrB05.2, FrB05.3, FrB05.4, FrB05.5, FrB05.6, FrB15.11, FrC02.2, FrC14.1, FrC14.2, FrC14.3, FrC14.4, FrC14.5, FrC14.6, FrC14.7, FrC14.8, FrC14.9, FrC14.10, FrC15.1, FrC15.4, ThBT1.1, ThBT1.2, ThBT1.3
EstimationFrA03.1, FrA03.4, FrA05.1, FrA06.1, FrA07.3, FrA07.4, FrA11.2, FrA15.1, FrA15.10, FrA15.11, FrB01.2, FrB01.6, FrB07.5, FrB12.1, FrB12.4, FrB12.5, FrB13.3, FrC07.4, FrC07.6, FrC09.4, FrC13.5, FrC14.7, ThAT1.1, ThAT1.2, ThBT3.3, ThBT5.1, ThBT5.2, ThBT5.3, WeAT4.2, WeBT1.3, WeBT3.6
FTop
Fault accomodationFrA07.6
Fault detectionFrA07.1, FrA07.2, FrA07.4, FrA07.5, FrA12.4, FrB07.6, FrC07.2, FrC14.8, ThBT5.2, WeBT2.1, WeBT4.5
Fault diagnosisFrA07.2, FrA07.3, FrA15.10, FrB07.1, FrB07.2, FrB07.3, FrB07.6
Fault tolerant systemsFrA02.3, FrA13.2, FrB05.3, FrB07.2, FrB07.3, FrB07.4, FrB07.5, ThBT3.3
Feedback linearizationFrA14.8, FrC09.5, FrC09.6, ThBT2.6
FilteringFrA15.3, FrA16.11, FrC06.6, ThAT1.2, ThAT1.3, ThAT5.1
See also Stochastic Systems
Flexible structuresFrA05.3, FrA12.1, FrA12.2, FrB02.5
See also Distributed Parameter Systems
Flight controlFrA16.2, FrA16.8, FrA16.9, FrA16.10, FrB16.8, ThBT4.6, WeBT1.6
Fluid flow systemsFrA05.6, FrB03.6, FrB05.1, FrB15.6, FrC08.5, FrC14.2, ThAT3.1, ThBT1.4
See also Distributed Parameter Systems
Fluid power controlFrB05.4
See also Control Applications
Formal verification/synthesisFrC11.2, WeBT3.1
See also Hybrid Systems
Fuzzy systemsFrA13.1
See also Intelligent Systems
GTop
Game theoryFrA08.5, FrB11.1, FrB11.2, FrB11.3, FrB11.4, FrB11.5, FrB15.1, FrB15.2, FrB15.7, ThBT3.1, ThBT3.2, ThBT3.6, WeAT2.4, WeAT2.6
See also Stochastic Systems
Grey-box modelingFrA10.1, FrA10.3, FrC02.4, FrC07.5
HTop
H-infinity controlFrA13.5, FrC15.3, WeAT2.4
See also Optimization
Healthcare and medical systemsFrA08.4
Hierarchical controlFrA16.2, FrC02.2
See also Large-scale Systems
Human-in-the-loop controlFrA01.2, FrB08.3, FrB08.4, ThBT4.2, WeBT4.1, WeBT4.2
See also Emerging Control Applications
Hybrid systemsFrA07.5, FrA10.2, FrA13.6, FrA14.6, FrC05.3, FrC06.3, ThAT2.5, ThAT3.6, WeBT3.1, WeBT3.3, WeBT3.4
See also Hybrid Systems, Control over communications, Embedded systems, Formal verification/synthesis, Quantized systems, Stability of hybrid systems, Switched systems
ITop
IdentificationFrA15.2, FrA15.4, FrA15.5, FrA15.6, FrA15.7, FrA15.8, FrB02.2, FrB08.2, FrC02.1, FrC12.1, FrC13.3, FrC14.3
Identification for controlFrA01.3, FrA05.6, FrA15.4, FrA15.5, FrA15.9, FrA15.11, FrC08.6, ThBT1.4, ThBT2.1, ThBT5.3
Indirect adaptive controlFrA14.2
See also Adaptive Systems
Information technology systemsFrC15.11
See also Control Applications
Information theory and controlThAT1.4
See also Emerging Control Applications
Intelligent systemsWeBT2.3
See also Intelligent Systems, Biologically-inspired methods, Evolutionary computing, Fuzzy systems, Neural networks
Iterative learning controlFrB05.5, FrB08.1, FrB09.3, FrC01.1, FrC01.2, FrC01.3, FrC01.4, FrC01.5, FrC01.6, ThBT2.1
See also Learning
KTop
Kalman filteringFrA07.1, FrA09.4, FrA14.4, FrB01.2, FrB03.1, FrB11.6, FrC04.1, FrC13.4, FrC14.5, FrC14.7, ThAT1.2, ThAT1.4, ThAT4.2, ThAT4.3, ThBT5.1
LTop
Large-scale systemsFrA03.1, FrA06.3, FrC03.1, FrC03.2, FrC03.3, FrC03.4, FrC03.5, FrC03.6, FrC12.1, ThAT4.5, WeAT4.4
See also Large-scale Systems, Control system architecture, Decentralized control, Distributed control, Hierarchical control
LearningFrA03.4, FrA15.8, FrB12.4, FrB15.5, FrB16.5, FrC01.1, FrC02.3, FrC02.6, FrC08.1, ThBT2.2, ThBT5.4, WeAT2.1, WeAT2.2, WeBT2.5
See also Iterative learning control, Statistical learning, Machine learning, Pattern recognition and classification
Linear parameter-varying systemsFrA07.3, FrC08.5, FrC13.1, FrC13.2, FrC13.4, FrC13.6, ThAT4.3
See also Linear Systems
Linear systemsFrA07.5, FrA12.1, FrA14.7, FrA15.6, FrB02.2, FrB02.6, FrC01.6, FrC02.5, FrC10.1, FrC10.5, FrC12.2, FrC13.3, FrC13.5, ThAT1.5, ThBT3.5, ThBT5.4, WeAT3.6, WeAT4.2
See also Linear Systems, Behavioural systems, Linear parameter-varying systems, Observers for Linear systems, PID control, Predictive control for linear systems, Quantitative feedback theory, Sampled-data control, Stability of linear systems, Time-varying systems
LMIsFrA13.1, FrB03.5, FrB07.5, FrC05.1, FrC10.1, FrC13.1, FrC13.6, ThBT3.3, ThBT3.5
See also Computational Methods
Lyapunov methodsFrA04.4, FrA04.5, FrB08.4, FrB08.5, FrB09.6, FrB11.2, FrC05.1, FrC05.6, FrC10.6, FrC12.4, ThAT2.6, ThAT3.1, ThAT3.3, ThAT3.4, ThAT4.6
MTop
Machine learningFrA06.4, FrA10.2, FrA12.4, FrA14.9, FrA15.12, FrB04.5, FrB06.6, FrB14.1, FrC14.4, FrC14.10, FrC15.4, FrC15.8, FrSP1.1, ThAT4.1, ThBT1.2, WeAT2.2, WeAT2.3, WeBT2.2, WeBT2.6
See also Learning
Manufacturing systemsWeBT2.1
See also Control Applications
Maritime controlFrA09.1, FrC15.12, ThAT5.4
Markov processesFrA08.3, FrB04.1, WeAT2.1, WeBT2.1
See also Stochastic Systems
Mean field gamesFrA08.3, FrB11.4, ThBT4.4
See also Stochastic Systems
Mechanical systems/roboticsFrA14.4, FrA14.7, FrA16.1, FrB08.3, FrC09.5, FrC09.6, ThBT2.4, ThBT2.6
See also Control Applications
MechatronicsFrA09.3, FrA12.3, FrA14.1, FrB05.6, FrB09.1, FrB09.2, FrB09.3, FrB09.4, FrB09.5, FrB15.3, FrC01.4, FrC15.3, ThBT2.4, WeBT3.3
MEMs and Nano systemsFrB09.2, FrB09.5, FrC15.5
See also Emerging Control Applications
Model ValidationFrA09.5, FrA15.10, FrC14.5
Model/Controller reductionFrA01.5, FrB15.6
ModelingFrA03.5, FrA05.6, FrA08.2, FrA08.4, FrA09.5, FrA10.4, FrA12.1, FrA12.4, FrA16.3, FrB02.1, FrB02.2, FrB02.3, FrB02.4, FrB02.5, FrB02.6, FrB05.1, FrB09.1, FrB15.12, FrC13.4, FrC15.6, ThAT1.6, ThAT4.3, ThBT1.1, ThBT1.4
Multivehicle systemsFrA01.6, FrB16.5, FrB16.8, FrB16.9, FrB16.10, FrB16.11, FrC09.4
NTop
Network analysis and controlFrA02.2, FrA03.2, FrB01.5, FrB04.6, FrB06.2, FrB06.3, FrB14.4, FrB14.11, FrC03.2, FrC03.3, FrC03.4, FrC07.4, FrC12.2, ThAT4.5, ThBT3.1, WeAT3.4, WeAT3.5, WeAT4.1
Networked control systemsFrA01.4, FrA02.5, FrA09.6, FrA13.6, FrB14.4, FrB16.6, FrB16.12, FrC07.2, FrC11.1, FrC12.1, ThAT3.6, ThBT4.2, WeAT3.1, WeAT3.2, WeAT3.3, WeAT3.4, WeBT4.5
Neural networksFrA07.4, FrA07.6, FrA10.2, FrA15.12, FrB13.6, FrC04.2, ThBT2.2, WeBT2.4
See also Intelligent Systems
Nonholonomic systemsFrC05.5, FrC09.2, FrC11.4, WeBT2.4
Nonlinear output feedbackFrA09.5, FrB03.4, FrB09.4, ThAT3.1
Nonlinear systems identificationFrA07.6, FrA15.4, FrC07.1, WeBT4.1
Numerical algorithmsFrB04.3, FrB06.5
See also Computational Methods
OTop
Observers for Linear systemsFrB03.2, FrC10.2, ThBT1.6, ThBT5.2
See also Linear Systems
Observers for nonlinear systemsFrA16.11, FrC07.5, FrC08.4, ThAT5.1, ThAT5.2
Optimal controlFrA03.6, FrA06.1, FrA06.2, FrA06.3, FrA06.4, FrA06.5, FrA06.6, FrA12.2, FrA14.5, FrA15.3, FrA16.4, FrA16.7, FrA16.8, FrB02.3, FrB02.4, FrB04.2, FrB07.4, FrB08.5, FrB11.5, FrB15.3, FrB15.8, FrB16.11, FrC01.1, FrC06.1, FrC06.2, FrC06.3, FrC06.4, FrC06.5, FrC06.6, FrC09.1, FrC11.6, FrC12.4, FrC13.3, FrC14.11, FrC15.2, FrC15.6, FrC15.7, ThAT1.3, ThAT2.1, ThAT2.2, ThAT2.3, ThAT2.5, ThAT3.4, ThBT1.6, ThBT3.2, ThBT5.4, WeAT4.4, WeBT1.1, WeBT1.4, WeBT4.4
See also Optimization
OptimizationFrA02.2, FrA04.1, FrA06.1, FrA06.2, FrA06.5, FrA08.1, FrA08.2, FrA09.3, FrA11.4, FrA14.11, FrA16.1, FrA16.9, FrB01.3, FrB02.3, FrB04.4, FrB06.4, FrB06.5, FrB07.2, FrB11.1, FrB14.2, FrB14.12, FrB15.4, FrB15.7, FrB15.10, FrB16.4, FrC01.5, FrC08.3, FrC11.3, FrC11.5, FrC14.1, FrC14.4, FrC14.12, FrC15.8, FrC15.11, FrC15.12, ThAT2.2, ThAT2.3, ThAT2.4, ThAT2.6, ThAT3.4, ThAT4.4, ThAT5.4, ThBT1.2, ThBT1.3, ThBT1.5, ThBT4.1, WeAT2.1, WeAT2.2, WeBT1.6, WeBT2.5
See also H-infinity control, Optimal control, Optimization algorithms, Variational methods
Optimization algorithmsFrA04.2, FrA06.3, FrA06.4, FrA06.5, FrA09.6, FrA10.4, FrA15.7, FrA16.1, FrA16.12, FrB06.1, FrB06.2, FrB06.3, FrB06.4, FrB06.5, FrB06.6, FrB11.6, FrB14.1, FrB14.5, FrB15.7, FrB15.10, FrB15.12, FrB16.7, FrC01.5, FrC02.1, FrC03.5, FrC06.3, FrC06.4, FrC06.5, ThAT2.3, ThAT2.4, ThAT2.5, ThBT4.1, WeAT3.5, WeAT4.3, WeBT1.5, WeBT2.5, WeBT2.6
See also Optimization
Output regulationFrA05.3, FrC05.2, FrC08.2, ThAT1.5, WeAT2.4
PTop
Pattern recognition and classificationFrB04.5, ThAT4.1
See also Learning
Petri netsFrB13.3, FrB13.6
See also Discrete Event Systems
PID controlFrA15.3, FrA16.5, FrB02.4, FrB08.6, ThAT1.3, WeBT2.2, WeBT4.6
See also Linear Systems
Power electronicsFrA13.3, FrA13.5, FrB10.1, FrB10.2, FrB10.3, FrB10.4, FrB10.5, FrB14.8, WeAT1.1, WeAT1.2, WeAT1.3, WeAT1.4, WeAT1.5
Power systemsFrA05.1, FrA10.4, FrB14.1, FrB14.3, FrB14.4, FrB14.5, FrB14.6, FrB14.7, FrB14.8, FrB14.9, FrB14.11, FrB14.12, FrB15.11, FrB16.12, FrC06.1, FrC14.12, ThBT1.5, WeAT2.3, WeBT1.5
Predictive control for linear systemsFrA03.6, FrA06.6, FrA15.9, FrB15.8, FrC15.10, WeBT1.4
See also Linear Systems
Predictive control for nonlinear systemsFrA05.2, FrA16.10, FrC05.4, FrC06.6, FrC14.6, ThAT5.3, ThBT4.5, WeAT4.4
Process ControlFrA10.1, FrA10.3, FrA12.6, FrB15.12, WeBT2.2, WeBT4.6
See also Chemical process control, Control of metal processing, Mineral process control, Pulp and Paper Control
QTop
Queueing systemsFrC04.3
See also Discrete Event Systems
RTop
Randomized algorithmsFrA04.1, FrC08.1, FrC08.3, ThAT4.4
See also Uncertain Systems
Reduced order modelingFrA16.5, FrC02.2, FrC02.3, FrC02.4
RoboticsFrA09.1, FrA09.3, FrA12.3, FrA14.1, FrA14.2, FrA14.3, FrA14.5, FrA14.6, FrA14.8, FrA14.9, FrA14.10, FrA14.11, FrA14.12, FrB08.6, FrB09.1, FrB09.4, FrB16.1, ThAT5.3, ThBT2.3, WeAT2.3
Robust adaptive controlFrA12.5
See also Adaptive Systems
Robust controlFrA02.6, FrA06.6, FrA07.1, FrA13.4, FrA14.9, FrB03.6, FrC03.6, FrC05.4, FrC08.6, FrC11.6, FrC13.1, FrC13.6, ThAT1.1, ThBT3.4, ThBT4.4, ThBT5.1
See also Uncertain Systems
STop
Sampled-data controlFrA04.2, FrA04.3, FrA13.1, FrA13.4, FrA13.5, FrA13.6, FrC12.2, ThAT3.6
See also Linear Systems
Sensor fusionFrB07.6, FrB12.1, FrC07.6
See also Control Applications
Sensor networksFrB03.2, FrB12.1, FrB12.2, FrB12.3, FrB12.4, FrB12.5, FrC10.2
SimulationFrA05.3, FrC02.3, FrC02.4, FrC02.6, ThBT4.5
Smart gridFrB14.2, FrB14.3, FrB14.6, FrB14.7, FrB14.9, FrB14.10, FrB14.11, FrB14.12, FrB15.11, FrC14.11, ThBT1.5
Smart structuresFrB05.6
See also Emerging Control Applications
Spacecraft controlFrA16.3, FrA16.4, FrA16.7, FrB16.8, FrC15.9, WeBT4.3
See also Control Applications
Stability of hybrid systemsFrA15.1, FrA15.2
See also Hybrid Systems
Stability of linear systemsFrA08.6, FrB14.8, ThBT4.3
See also Linear Systems
Stability of nonlinear systemsFrA14.10, FrB03.5, FrC05.6, FrC06.1, FrC09.5, FrC10.6, FrC11.5, ThAT3.2, ThBT3.4, WeBT4.2
Statistical learningFrA15.5, FrB04.5, FrB06.6, FrC01.6, FrC04.6, FrC14.8, ThAT4.1, WeBT2.6
See also Learning
Stochastic optimal controlFrA02.1, FrA02.4, FrA04.1, FrA04.2, FrA04.3, FrA04.4, FrA04.5, FrA08.3, FrB04.1, FrB04.2, FrB04.3, FrB04.4, FrB14.7, FrC04.3, FrC15.7, ThBT3.6, WeBT4.4
See also Stochastic Systems
Stochastic systemsFrA02.4, FrA04.4, FrA04.5, FrA08.5, FrB04.1, FrB04.2, FrB04.6, FrB06.3, FrC03.1, FrC03.2, FrC03.3, FrC04.1, FrC04.2, FrC04.3, FrC04.4, FrC04.5, FrC14.12, ThAT4.2, ThAT4.5, ThAT4.6, ThBT3.6, WeAT2.6, WeBT3.1
See also Stochastic Systems, Filtering, Game theory, Markov processes, Mean field games, Stochastic optimal control
Subspace methodsFrA15.8, FrA15.9, FrA15.11, FrC02.5, ThBT5.3
Supervisory controlFrA11.1, FrB05.3, FrB13.4, FrB13.5, WeBT2.4
See also Discrete Event Systems
Switched systemsFrA13.2, FrA13.3, FrA14.6, FrB04.3, FrB08.3, FrB08.5, FrC04.6, FrC06.2, ThAT3.3, ThAT3.5
See also Hybrid Systems
Systems biologyFrA08.2
See also Biological Systems
TTop
Time-varying systemsFrA14.7, FrA15.12, FrB12.2, FrC04.4, FrC05.2, FrC10.3, ThAT2.6, ThAT3.3, WeBT4.1
See also Linear Systems
Traffic controlFrB15.1, FrB15.8, FrB15.9, FrB16.10, ThBT4.4, WeBT1.4, WeBT2.3
Transportation networksFrB11.3, FrB15.9, FrB15.10, ThBT4.1
UTop
Uncertain systemsFrA01.5, FrA02.6, FrA03.3, FrA12.2, FrB01.1, FrB02.5, FrB02.6, FrB04.4, FrB14.9, FrB15.5, FrB16.3, FrC08.1, FrC08.2, FrC08.3, FrC08.4, FrC08.5, FrC08.6, ThAT1.4, ThAT4.4, WeAT3.5
See also Uncertain Systems, Randomized algorithms, Robust control
VTop
Variable-structure/sliding-mode controlFrB09.2, FrC09.3, ThBT2.5, ThBT3.4
Variational methodsFrB06.1, FrC06.2
See also Optimization
Vision-based controlFrA12.3, FrA14.4, FrC09.1
See also Control Applications
Visual servo controlFrA14.2

 
 

 
 

 

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