| | |
Last updated on May 31, 2023. This conference program is tentative and subject to change
IFAC WC 2023 Keyword Index
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S
T
U
V
W
Y
| A | Top |
| Acoustic-based networked control and navigation | WeB03.6 |
| Active fault diagnosis | FrA17.1, MoA14.5 |
| Adaptive and robust control in marine system | TuC10.5, WeC03.1, WeC03.2 |
| Adaptive and robust control of automotive systems | FrA11.3, FrA11.5, FrB21.4, MoB14.1, MoB14.2, MoB14.3, MoB14.4, MoB14.5, MoB14.6, MoC14.4, MoC14.5, ThA12.1, ThA19.1, ThA23.4, ThA23.6, TuCT3.11, WeA20.3 |
| Adaptive automation | MoB20.1, MoCT3.13, ThB02.4, ThB02.5, ThB02.6, TuB17.1, TuB17.5, WeC09.4 |
| Adaptive control | FrA15.5, FrB05.2, FrB07.6, MoA18.1, MoB04.1, MoB04.5, MoB20.2, MoB20.4, MoB20.5, MoB21.6, ThA18.1, ThA18.2, ThA18.5, ThA18.6, ThB05.5, ThBT2.1, ThBT2.2, ThBT2.3, ThBT2.4, ThBT2.5, ThBT2.6, ThBT2.7, ThBT2.8, ThBT2.9, ThBT2.10, ThBT2.11, ThBT2.12, ThCT3.12, TuA05.1, TuA06.4, TuA09.1, TuBT2.14, TuCT1.6, WeA05.5, WeA12.2, WeA20.4, WeA20.5, WeB19.3, WeBT1.3, WeC07.5 |
| Adaptive control of multi-agent systems | FrA13.5, MoB17.2, MoB20.6, MoC17.3, ThB07.1, ThB13.1, ThB13.2, ThB13.3, ThB13.6, TuC19.2 |
| Adaptive gain scheduling autotuning control and switching control | MoB20.2, TuC03.3 |
| Adaptive neural and fuzzy control | MoBT3.4, MoC21.2, MoC21.4, MoC21.5, ThB14.3, WeB21.2 |
| Adaptive observer design | ThB13.1, ThB13.4, ThB13.5 |
| Additive manufacturing | MoC19.5, MoCT3.7, TuC23.1, TuC23.2, TuC23.3, TuC23.4, TuC23.5, TuC23.6, WeBT3.1, WeBT3.2, WeBT3.5, WeBT3.6, WeBT3.7, WeBT3.10, WeBT3.12 |
| Advanced control technology | ThB24.1, TuA11.6, TuA12.1, TuA12.2, TuA14.6, WeC17.2, WeC18.2 |
| Advanced manufacturing | FrA24.3, FrB24.3, TuC23.5, WeBT3.7 |
| Advanced planning and scheduling | FrB01.5, MoB09.1, TuA23.1, TuB21.5, TuBT1.10, WeA14.5, WeA23.5 |
| Advanced process control | FrB20.4, MoBT2.1, MoCT2.11, MoCT2.12, MoCT2.14, ThA15.6, TuA12.3, TuA12.4, TuA12.5, TuA12.6, WeB17.3, WeB17.6, WeC08.4 |
| Aerospace | FrB05.2, MoB16.6, MoC16.1, MoC16.6, MoCT2.10, ThBT3.8, ThC04.1, ThC04.2, ThC04.3, ThC04.4, ThC04.5, TuA06.2, TuA07.3, TuB04.2, WeCT1.7 |
| Agricultural robotics | ThB19.1, ThB19.2, ThB19.3, ThB19.4, ThB19.5, ThB19.6, ThC19.6, WeB21.6 |
| Agricultural solar energy use | WeSP1.1 |
| AI methods for FDI | FrA17.1, FrB17.6, FrB24.2, MoA15.4, MoA16.4, MoBT2.13, ThA06.5, ThA17.3, ThA17.4, ThA17.5, TuA11.4, TuC03.2, TuC20.5, TuC20.6, WeC16.1 |
| AI-based enterprise systems | MoA09.3, MoB02.1, MoB09.4, TuA23.1, WeC21.1, WeC21.4, WeC21.5 |
| Air quality planning and control | ThA24.3, ThA24.5, TuC21.5 |
| Alarm analysis | ThB09.3 |
| Analysis and control in deregulated power systems | MoA15.5, MoBT2.9, ThC24.5, WeA16.5, WeC17.6 |
| Analysis of reliability and safety | WeC17.4, WeC17.5 |
| Analytic design | ThC04.5, ThSP1.1, WeC19.1, WeC19.2, WeC19.3, WeC19.5, WeC19.6 |
| Anti-windup | MoC04.2, ThC20.1 |
| Application of mechatronic principles | MoC20.3, ThA08.4, ThC03.2, WeA12.1, WeB22.3, WeCT2.6 |
| Application of nonlinear analysis and design | FrA04.2, FrB08.1, FrB16.1, MoA05.1, MoA18.4, MoA20.1, MoB05.5, ThA16.4, ThA18.2, ThC18.2, ThC18.3, TuBT2.3, TuBT2.13, TuC15.1, WeB12.3, WeB22.2, WeBT1.3, WeBT1.4, WeBT1.5, WeBT1.6, WeBT1.7, WeBT1.8, WeC19.2, WeCT1.7, WeCT1.8 |
| Application of power electronics | MoA14.6, MoA17.1, MoA17.2, MoA17.3, MoA17.4, MoA17.6, MoBT2.10, MoCT2.1, MoCT2.5, ThA04.5, ThC24.1, TuA14.5, TuA15.3, TuC14.5 |
| Applications in advanced materials manufacturing | TuA11.2, WeB16.1, WeBT3.10 |
| Applications in semiconductor manufacturing | TuB23.1 |
| Applications of FDI and FTC | FrA11.4, MoA16.1, MoA16.2, MoA16.3, MoA16.5, MoA16.6, ThA17.1, ThA17.2, ThA17.3, ThA17.4, TuB16.2, TuB16.3, TuB16.4, TuB16.5, WeC17.1 |
| Artificial intelligence in mining, minerals and metals | MoCT2.13, WeB17.4 |
| Artificial intelligence in transportation | FrA11.6, MoC15.3, ThA23.2, TuB15.1, TuB15.2, TuB15.3, TuB15.4, TuB15.5, TuB15.6, TuCT2.2 |
| Artificial pancreas or organs | FrB12.1, FrB12.2, FrB12.3, ThB22.3, ThB22.4, ThC12.1, ThC12.2, ThC12.3, ThC12.4, ThC12.5, ThC12.6, WeBT2.5, WeBT2.11 |
| Assembly and disassembly | MoB02.2, MoB02.3, WeA09.4 |
| Assistive technology and rehabilitation engineering | FrB15.3, FrPL.1, MoB15.1, MoB15.2, MoB15.3, MoB15.4, MoB15.5, MoB15.6, ThC03.5, TuB17.3, TuC11.6, TuC15.5, WeC12.2, WeC12.3 |
| Asymptotic stabilization | MoB05.1, MoB21.6, MoB24.1, MoCT2.9, ThB08.1, ThB16.6, ThC08.2, TuC04.1, TuC04.3, WeCT1.15 |
| Automotive sensors and actuators | MoB14.1, MoC15.6, TuA21.4, TuCT3.1, TuCT3.2, TuCT3.6, TuCT3.10 |
| Automotive system identification and modelling | FrA11.1, FrA11.2, FrA12.4, FrA20.2, FrB02.1, FrB11.2, FrB11.4, MoB14.2, MoC14.2, MoC14.6, ThA23.5, ThB12.5, WeB15.1, WeB15.2, WeB15.3, WeB15.4, WeB15.5, WeB15.6 |
| Autonomous mobile robots | FrB21.1, FrB21.2, FrB21.5, ThA10.3, ThA10.4, ThA12.6, ThA16.3, ThC23.1, TuA21.2, TuCT2.4, TuCT2.6, WeB23.6, WeC03.1 |
| Autonomous mobility | FrA11.6, ThA12.4, TuA08.1, TuB15.4 |
| Autonomous robotic systems | FrA03.4, FrA08.5, FrA15.6, FrA21.5, FrB07.3, FrB10.3, MoA11.1, MoA11.6, MoB11.1, MoB11.3, MoB15.1, MoB20.1, MoB20.2, MoC20.1, MoC20.5, MoCT3.4, MoCT3.5, ThBT3.3, ThBT3.7, ThBT3.12, ThC15.3, TuB10.2, TuB11.1, TuB11.2, TuB11.3, TuB11.4, TuB11.5, TuB11.6, TuB17.5, TuC10.6, TuC11.1, TuC11.2, TuC11.3, TuC11.4, TuC11.5, TuC11.6, TuCT1.1, WeA01.2, WeA01.5, WeA11.5, WeB20.1, WeB20.3, WeC11.1, WeC11.2, WeC11.4, WeC11.6 |
| Autonomous surface vehicles | FrA21.3, MoB14.3, ThC23.5, TuC10.1, TuC10.2, TuC10.3, TuC10.6, WeB03.2, WeB03.3, WeC03.5 |
| Autonomous systems | MoA23.3, MoB12.4, MoB16.3, MoB16.4, ThC04.2, TuB03.5, TuC16.6, WeA21.6, WeB11.3, WeB11.6 |
| Autonomous systems and legal issues | TuB19.3 |
| Autonomous underwater vehicles | FrB14.5, TuC10.4, WeB03.1, WeB03.4, WeB03.5, WeC03.1, WeC03.2, WeC03.3, WeC03.6 |
| Autonomous vehicles | FrA05.5, FrA12.1, FrA21.1, FrA21.4, FrB05.6, FrB11.1, FrB11.3, FrB11.5, FrB21.3, FrB21.6, MoA23.4, MoA23.6, MoB14.5, MoB24.3, MoBT3.10, MoC23.1, MoC23.2, MoC23.3, MoC23.5, ThA10.1, ThA12.1, ThA12.2, ThA12.4, ThA12.5, ThB12.1, ThB12.2, ThB12.3, TuA16.2, TuA16.5, TuB10.1, TuB10.4, TuB10.5, TuC10.2, TuCT2.1, TuCT2.2, TuCT2.3, TuCT2.5, TuCT2.8, TuCT2.9, TuCT2.10, TuCT2.11, TuCT2.12, TuCT2.14, WeA21.3, WeA21.6, WeB01.1, WeB01.6, WeB06.2 |
| Avionics and on-board equipments | FrA14.3 |
| B | Top |
| Backstepping control of distributed parameter systems | ThA20.1, ThA20.2, ThA20.4, ThA20.5, ThA20.6, ThC20.1, ThC20.4, ThC20.5, TuB13.6 |
| Balance issues of theoretical-versus-practical training | MoCT1.1, ThC10.1, ThC10.2, TuC22.2, TuC22.3 |
| Batch and semi-batch process control | FrB17.1, MoA21.5, WeB16.4, WeB16.5 |
| Bayesian methods | FrA06.2, FrA06.3, FrA06.4, FrA06.5, FrA06.6, FrA20.3, MoA06.5, MoA10.3, MoA19.1, MoA19.4, MoA19.6, ThCT1.6, ThCT3.6, TuB12.5, WeA06.2, WeB09.2, WeC09.2, WeC20.2, WeC20.3 |
| Bio-signals analysis and interpretation | MoA21.4, MoC18.1, MoC18.6, ThA22.6, TuPL.1, WeA22.1, WeBT2.1, WeBT2.4, WeBT2.7, WeBT2.8, WeBT2.9, WeC22.1, WeC22.3, WeC22.4 |
| Bioinformatics | MoA21.3, WeB18.1, WeBT2.4 |
| Biomedical and medical image processing and systems | TuA24.2, TuA24.3, WeA22.1, WeA22.4, WeA22.5, WeA22.6, WeBT2.4, WeC12.1, WeC22.1, WeC22.2, WeC22.5, WeC22.6 |
| Biomedical mechatronics | FrA15.2, FrB15.1 |
| Biomedical system modeling, simulation and visualization | FrB12.2, MoC18.1, MoC18.2, MoC18.3, MoC18.4, MoC18.5, ThA22.1, ThA22.2, ThA22.3, ThA22.4, ThA22.5, ThA22.6, ThB22.5, ThC12.5, TuA24.1, TuC24.1, TuSP2.1, WeA22.5, WeBT2.3, WeBT2.7, WeBT2.11, WeC22.1, WeC22.2, WeC22.3, WeC22.4, WeC22.5, WeC22.6 |
| Blockchain | WeC24.5 |
| Brain-machine interaction | FrB15.2, FrB15.3, WeBT2.9 |
| Building automation | FrA17.5, FrA22.5, MoA12.1, MoA12.3, MoBT3.12, TuC22.6, WeC24.4 |
| Business and financial analytics | ThC02.5 |
| C | Top |
| Cellular, metabolic, cardiovascular, pulmonary, neuro-systems | WeC18.6 |
| Centralized Internet repository for control education | MoA12.4, ThC10.3, WeCT2.15 |
| Chemical engineering | FrA04.2, FrA04.6 |
| Chronic care and/or diabetes | FrB12.3, FrB12.4, ThB22.3 |
| Climate change | ThC21.4 |
| Climate change impact and adaptation measures | MoSP1.1, ThA24.4, ThC19.2, TuA17.3 |
| Clinical trial | TuC24.3, TuC24.6 |
| Clinical validation | ThB22.2 |
| Closed loop identification | FrB16.6, MoA06.3, ThB09.1, ThBT2.8, ThCT1.15, TuA04.6, TuBT3.1, TuBT3.10, WeB07.1, WeB07.2, WeC14.2 |
| Co-Learning and self-learning | ThB02.6, WeB20.1 |
| Cognitive aspects of automation systems and humans | MoB01.5, WePL.1 |
| Cognitive systems engineering | FrB15.2, FrB15.3 |
| Complex logistic systems | FrA01.6, FrA23.3, FrB01.6, FrB21.3, TuB21.1, WeA09.1, WeCT3.2, WeCT3.9, WeCT3.10 |
| Complex system management | FrA13.5, MoB10.1, MoC17.5, ThB09.2, TuA10.4, TuBT1.12, WeA07.4 |
| Complex systems | TuB09.5, TuC07.2, TuC07.3, TuC09.4, TuC15.6, WeC19.6 |
| Computational methods for FDI | FrA17.2 |
| Computational social sciences | MoB01.2 |
| Condition monitoring | FrA11.4, FrA17.4, FrB02.6, MoBT2.12, ThA17.5, TuC20.2, TuC20.5, WeB17.1, WeC17.4 |
| Conflict and post-conflict | FrA22.1 |
| Connected vehicles | MoCT1.9, TuA01.3 |
| Consensus | FrA07.2, FrA07.5, FrA10.5, FrB19.4, MoA10.4, MoB17.1, MoB17.2, MoB17.3, MoC03.1, MoC17.2, MoC17.3, MoC17.4, MoC17.6, ThB03.6, ThB07.6, ThCT2.2, ThCT2.14, ThCT2.15, ThCT3.9, TuBT1.13, TuC19.1, WeA08.2, WeA08.4, WeA10.3, WeB08.5, WeB10.4, WeB10.5 |
| Consensus and reinforcement learning control | FrB10.2, FrB12.6, FrB22.2, FrB22.4, MoB06.5, MoB17.4, MoBT3.12, MoC17.1, ThA06.4, TuA16.6, TuB13.5, TuBT2.2 |
| Constrained control | FrA08.1, FrA08.2, FrA08.3, FrA08.4, FrB08.5, MoB05.2, MoB16.6, MoB18.1, MoB18.3, MoBT3.11, MoC16.2, MoC24.4, ThA05.1, ThA10.1, ThA16.3, ThB05.2, ThB20.5, ThC05.6, TuA09.2, TuA09.3, TuA19.2, TuB05.2, TuB11.3, TuBT1.9, TuCT1.9, WeA20.4, WeC07.3 |
| Constraint and security monitoring and control | FrB19.5, MoCT2.1, TuA11.1, TuA15.1 |
| Continuing control education in industry | MoCT1.1, MoCT1.2, MoCT1.3, MoCT1.4 |
| Continuous time system estimation | FrA16.2, FrB02.3, MoA06.4, MoC05.4, MoC12.6, ThC02.1, ThCT1.3, TuA04.2, TuC06.1, TuC06.2, TuC06.3, TuC06.4, TuC06.5, TuC06.6, WeA06.1, WeB06.5, WeB07.2, WeB09.3, WeC06.6, WeC14.4, WeC20.6 |
| Control and estimation of wave equations and systems of elasticity | ThA20.2, ThC20.2, ThC20.4, TuA19.1 |
| Control and estimation with data loss | TuBT1.7, TuBT1.8 |
| Control and optimization of supply chains | TuC14.6 |
| Control and scheduling of air transportation | WeC01.3 |
| Control architectures in automotive control | FrA11.3, FrA11.5, FrA11.6, FrA12.2, FrB11.1, FrB11.3, MoB14.1, MoB14.2, MoC15.4, ThA23.2, ThA23.3, TuA08.6, TuCT2.5, TuCT3.2, TuCT3.8, TuCT3.12 |
| Control architectures in marine systems | WeB03.1, WeC03.4 |
| Control education using laboratory equipment | FrB03.5, MoBT1.7, MoCT1.1, MoCT1.2, MoCT1.3, MoCT1.4, ThC10.1, ThC10.2, ThC10.4, ThC10.5, TuC22.5, TuC22.6, WeCT2.11, WeCT2.14, WeCT2.15 |
| Control in economics | MoC01.1, ThC02.2, ThC21.4, TuA01.4 |
| Control in neuroscience | MoA18.1, MoA18.2, MoA18.3, MoA18.4, MoA18.5, MoA18.6, TuA19.2, WeBT2.12 |
| Control in system biology | TuC01.6, WeA04.6, WeC02.1, WeC18.3, WeC18.4 |
| Control of bifurcation and chaos | MoA05.4, ThC16.1, TuBT2.14 |
| Control of constrained systems | FrA08.5, FrA08.6, FrB08.1, FrB08.2, FrB08.3, FrB08.4, FrB08.6, MoB18.1, TuB04.6 |
| Control of distributed systems | MoBT2.6, ThB24.5, TuA14.4 |
| Control of fluid flows and fluids-structures interactions | WeBT1.2 |
| Control of heat and mass transfer systems | FrB09.2, ThA20.4, ThB20.1, ThC20.3, TuB07.1, TuB07.2, TuB07.3, TuC07.5, WeB07.5 |
| Control of hybrid systems | ThA19.4, ThA19.5, TuA05.4 |
| Control of hyperbolic systems and conservation laws | ThA20.1, ThA20.6, ThC20.5, WeC18.2 |
| Control of interconnected systems | FrB08.4, FrB08.5, MoB08.2, ThC07.2, ThCT2.11, TuC07.2, TuC07.3, WeA04.1, WeA05.4 |
| Control of large-scale systems | ThB24.1, TuC14.3, WeC16.6 |
| Control of multi-scale systems | FrB17.1 |
| Control of networks | FrA07.6, FrA17.3, MoA05.3, MoB17.5, MoC03.1, ThB03.5, ThB03.6, ThB07.1, ThB13.3, ThCT2.9, TuA04.5, TuBT1.1, TuBT1.5, TuBT1.6, TuBT1.11, TuBT2.5, TuC05.3, TuC19.1, WeA10.1 |
| Control of particulate processes | MoCT2.8 |
| Control of physiological and clinical variables | FrB12.1, FrB12.3, ThB22.1, ThC12.2, ThC12.4, TuA24.4, TuA24.6, WeBT2.2, WeBT2.5, WeBT2.6, WeBT2.12 |
| Control of quantum and Schroedinger systems | MoB21.1, MoB21.2, MoB21.3, MoB21.4, WeB07.4, WeB07.5, WeB07.6 |
| Control of renewable energy resources | FrA18.1, FrA18.3, FrA18.4, FrA18.5, FrA18.6, FrA19.1, FrA19.4, FrA19.5, FrB18.1, FrB18.2, FrB18.3, FrB18.4, FrB18.5, FrB18.6, FrB19.1, FrB19.2, FrB19.5, MoA14.1, MoA14.2, MoA15.2, MoA15.5, MoA15.6, MoA17.6, MoBT2.11, MoCT2.2, MoPL.1, ThA04.3, ThA04.4, ThA04.5, ThA04.6, ThA14.1, ThA14.2, ThB04.1, ThB04.2, ThB04.3, ThB04.4, ThB04.5, ThB04.6, ThB24.3, ThB24.4, ThB24.5, ThB24.6, ThBT1.6, ThC24.4, ThC24.5, TuA11.1, TuA15.1, TuA15.2, TuA15.3, TuA15.4, TuA15.5, TuA15.6, TuC14.2, WeA14.1, WeA15.1, WeA15.2, WeA15.3, WeA15.4, WeA15.5, WeA15.6, WeC17.6 |
| Control of switched systems | TuC04.1, TuC04.2, TuC04.3, TuC04.4, TuC04.5, TuC04.6, WeA11.3, WeBT1.4 |
| Control of systems in vehicles | FrA14.2, FrB05.3, MoA23.3, MoB16.4, ThBT3.10, WeB11.1, WeC15.5 |
| Control of voluntary movements, respiration | FrA06.2, ThB22.1, WeBT2.3 |
| Control over networks | FrB03.3, MoB10.1, MoB10.5, MoC10.4, ThB03.1, ThB16.4, TuA10.6, TuBT1.8, TuBT1.9, TuBT1.12, TuBT1.15, WeB10.2, WeC02.4, WeC02.5 |
| Control problems under conflict and/or uncertainties | FrA08.4, MoA20.6, MoA24.4, ThA05.4, ThC06.3, TuA09.4, TuA15.5, TuA16.1, TuA17.5, TuBT2.1, TuCT1.11, WeA05.5 |
| Control software architecture | MoCT2.10, ThB17.1, TuB20.1, TuB20.2, TuB20.4 |
| Control software maturity and analysis | TuB20.4 |
| Control system design | FrA18.1, FrA18.2, FrA18.3, FrA18.4, FrA18.5, FrA18.6, FrA19.1, FrB18.2, FrB18.3, FrB18.4, MoA14.1, MoA14.2, MoA14.3, MoA14.6, MoA17.1, MoA17.3, MoA17.6, MoBT2.11, MoCT2.2, ThA04.1, ThA04.3, ThA04.4, ThA04.5, ThA04.6, ThA14.5, ThB04.1, ThB04.6, TuA12.1, TuA14.5, TuA15.3, TuA18.6, WeA15.3, WeA16.1 |
| Control under communication constraints | MoB17.3, MoB17.4, ThB07.2, ThCT2.2, ThCT2.15, TuA10.5, TuBT1.4, WeA10.1 |
| Control under communication constraints (nonlinearity) | ThBT2.9, TuA19.4 |
| Control under computation constraints | WeA07.1 |
| Controller constraints and structure | FrA03.3, FrA08.6, ThB05.2, ThBT1.4, ThC08.6, TuA05.5, TuA06.1, TuC08.2, WeB19.4 |
| Convex optimization | FrA07.1, FrA16.6, MoA04.3, MoC03.1, MoC03.2, MoC03.6, ThB08.3, ThC05.4, ThC08.4, ThC16.4, ThC20.6, TuA05.6, TuA06.5, TuA09.5, TuB04.3, TuBT2.5, TuCT1.4, WeA05.1, WeA08.3, WeA08.6, WeB05.1, WeB05.5, WeC14.6, WeCT1.11 |
| Cooperative control | FrA07.3, MoB14.4 |
| Cooperative logistics | TuA08.5, TuB15.1 |
| Cooperative navigation | ThA16.1, TuA16.4, WeA21.1, WeA21.2, WeA21.3 |
| Cooperative perception | WeCT2.10 |
| Coordination of multiple vehicle systems | FrA10.3, FrA13.1, FrA13.6, FrB07.2, MoA10.5, MoB17.6, ThA10.2, ThB07.2, ThB07.3, ThB07.4, ThB13.6, ThB17.1, ThC15.4, ThCT2.13, TuA10.2, TuA10.5, TuBT1.10 |
| Cultural impacts of automation technology | WeCT2.11 |
| Cyber physical social systems | MoB01.5, MoBT1.3, MoBT1.10 |
| Cyber physical system | FrA01.2, FrA14.5, FrB01.2, MoB02.1, ThA09.5, ThA21.1, ThA21.2, ThA21.3, TuB21.3, WeB23.5, WeC21.2, WeCT3.10 |
| Cyber-physical and human systems (CPHS) | MoA01.4, MoA12.2, MoB01.3, MoBT1.1, MoBT1.9, MoBT1.12, MoBT1.14, TuB19.1, TuB19.5, TuB19.6 |
| Cyber-physical production systems | MoC19.2, ThC17.5, WeA09.3, WeA23.6 |
| Cyber-physical-social systems | MoB02.1, ThA21.1, WeC21.5 |
| D | Top |
| Data fusion and data mining in control | FrB23.5, MoBT3.2, MoBT3.6, MoBT3.13, MoC02.1, ThB23.1, TuB24.6, TuC02.2, WeA18.6 |
| Data mining tools | WeB18.1 |
| Data visualization | MoCT2.10, TuA11.3, WeB17.2 |
| Data-based control | MoA18.2, MoA24.3, MoA24.5, MoA24.6, MoB07.4, MoB24.1, MoB24.2, MoB24.3, MoB24.4, MoB24.5, MoC12.5, MoC24.1, MoC24.2, MoC24.3, MoC24.4, MoC24.5, MoC24.6, ThA18.4, ThCT1.13, TuA05.4, TuA09.4, TuA12.5, TuA16.1, TuB03.5, TuC07.4, WeA05.1, WeA19.1, WeA19.2, WeA19.3, WeA19.4, WeA19.5, WeA19.6, WeB04.5, WeB19.1, WeB19.2, WeB19.6, WeC14.1 |
| Data-driven control | FrA17.6, FrA22.4, FrB07.6, FrB12.6, FrB22.1, FrPL.1, MoA01.2, MoA19.1, MoA19.4, MoB06.1, MoB10.4, MoB12.1, MoB12.2, MoB12.3, MoBT2.3, MoC12.4, MoC15.5, ThA06.4, ThA11.6, ThA15.3, ThC08.5, ThC17.6, ThCT1.1, ThCT1.2, ThCT1.8, ThCT1.9, ThCT1.10, ThCT1.11, ThCT1.12, ThCT1.13, ThCT3.8, ThCT3.11, TuA04.5, TuA06.3, TuBT3.13, TuCT3.3, WeA06.3, WeC06.1, WeC19.4 |
| Data-driven decision making | FrB24.6, MoBT1.2, MoBT1.6, MoC01.6, ThC02.2, ThC02.3, ThC02.4 |
| Data-driven optimal control | FrA08.6, MoA11.5, MoA18.2, MoA24.1, MoA24.2, MoA24.3, MoA24.5, MoA24.6, MoB12.4, MoB24.4, MoB24.6, MoC24.2, ThA19.3, ThBT1.3, TuBT2.1, TuBT2.4, TuC11.2, TuCT1.2, TuCT1.7, TuCT1.11, TuCT1.12, WeA19.6, WeB04.1, WeB04.2, WeB04.3, WeB04.4, WeB04.6, WeB19.5 |
| Data-driven robust control | MoB24.1, TuA05.2, TuA05.5, TuA05.6, TuC07.1, TuCT1.2, TuCT1.4, TuCT1.5, TuCT1.6, TuCT1.8, WeA20.5, WeB04.3, WeB05.4, WeB19.2 |
| Decentralized and distributed control | FrB10.5, MoC19.3, ThB03.1, ThB17.1, TuB14.1, TuB14.3, TuB14.4, TuB14.6, WeBT3.8, WeC23.5 |
| Decentralized autonomous organizations | MoBT1.11, MoC01.6 |
| Decentralized control | FrA10.6, MoB07.4, MoB18.2, MoC20.1, MoC24.1, ThA05.6, ThA16.1, ThA18.5, ThC04.4, TuA10.1, TuB05.1, WeA05.4, WeA05.6 |
| Decentralized control and large-scale systems | FrA13.3, FrA13.4, FrB03.4, MoB12.6, MoC10.5, ThB07.1, TuA10.4, TuB13.4, TuBT1.14, TuBT1.15 |
| Decentralized control and systems | FrA12.1, FrA12.3, FrB11.1, FrB21.2, TuA21.1, TuB10.2, TuB10.5, TuB10.6, WeC03.4 |
| Decentralized information systems | MoB06.5, WeC21.2 |
| Decision making and autonomy, sensor data fusion | FrA14.1, FrA14.2, MoB16.1, TuC16.2, TuC16.3, WeB11.4 |
| Decision support and control | FrB12.1, MoC18.5, ThA24.1, ThC12.3, ThC12.4, ThC12.6, TuA24.6, TuC01.4, TuC24.3, TuC24.6, WeA22.2, WeA22.4, WeA22.6, WeBT2.2, WeBT2.13 |
| Decision support systems | FrB12.5, ThC19.2 |
| Decision support systems in marine systems | FrB14.4, TuC10.1, TuC10.3 |
| Decision systems in autonomy and impacts | MoBT1.5 |
| Decoupling problems | TuB09.2 |
| Delay compensation for linear and nonlinear systems | MoB08.5, ThA20.5, WeC04.1 |
| Dependable manufacturing systems control | MoB19.1, TuC23.1, TuC23.2 |
| Descriptor systems | MoC07.3, ThBT1.12, ThC18.1 |
| Design methodologies | FrA09.1, FrA09.3, MoC20.3, MoCT3.4, ThA08.6, ThBT3.9, TuA08.2, TuC12.5, WeA11.1, WeB20.5, WeCT2.1 |
| Design of fault tolerant/reliable systems | MoA10.6, MoA16.4, TuB16.2 |
| Design, control and monitoring of autonomous transportation systems | FrA05.3, MoA23.5, MoC23.4, MoC23.5, WeB01.2, WeC01.3 |
| Design, modelling and analysis of HMS | MoB15.3, MoCT3.11, ThB02.2, ThC13.4, ThC13.5, TuB17.6, TuBT1.5, WeC12.3, WeC12.5 |
| Developments in measurement, signal processing | FrB12.4, MoC18.3, WeA22.2 |
| Diagnosis | ThB06.4, ThC06.1, TuA07.1, WeA20.1 |
| Diagnosis of discrete event and hybrid systems | MoA10.1, MoC10.6, ThB11.2, ThB11.4, ThB11.5, ThB11.6, ThC11.1, ThC11.3, ThC11.4, TuB18.2, TuB18.4, TuB18.5, TuC18.1, TuC18.2, TuC18.3, TuC18.5, WeB14.3 |
| Differential or dynamic games | FrB03.6, FrB08.2, MoB07.1, MoB07.2, MoB07.3, MoB07.5, MoB07.6, MoC03.5, MoC07.1, MoC08.1, MoC08.2, MoC08.3, MoC08.4, MoC08.5, MoC08.6, ThCT1.8, TuA17.4, TuB17.3, WeA05.3, WeA05.4, WeA05.5 |
| Digital culture and cultural heritage | ThB21.4, ThB21.5, ThC21.2 |
| Digital implementation | FrA16.3, MoB11.5, MoB21.5, TuA19.4, TuA19.5, TuB05.4, WeB10.1, WeBT1.9 |
| Digital transformation | FrA01.4, FrB23.2, TuB21.4 |
| Digital twins for manufacturing | FrA02.5, FrA23.1, FrA23.2, FrA23.3, FrA23.4, FrA23.6, FrB23.3, FrB23.4, FrB23.5, MoA09.4, MoC19.2, TuA23.1, WeA23.1, WeA23.3, WeA23.5, WeA23.6, WeB23.1, WeB23.3 |
| Digital twins for power and process systems | WeB17.2, WeB17.5 |
| Discontinuous control | MoA04.1, ThA19.2, TuA19.6 |
| Discrete event modeling and simulation | FrA02.5, FrB07.4, FrB07.5, ThA11.1, ThA11.2, ThB08.4, ThB11.1, ThB11.2, ThB11.3, ThB11.4, ThB11.5, ThC11.1, TuC18.1, TuC18.3, TuC18.4, TuC18.5, TuC18.6, TuC19.5, WeB14.1, WeB14.2, WeB14.3, WeB14.4, WeB14.5, WeB14.6, WeC02.4, WeC02.5 |
| Discrete event systems in manufacturing | FrA23.3, FrB23.4, MoA07.4, MoB19.2, ThA09.4, WeA14.3, WeA23.3, WeCT3.13 |
| Distributed control and estimation | FrA07.2, FrA13.2, FrA16.2, FrB10.1, FrB10.6, MoB17.2, MoC03.2, MoC10.1, ThB07.3, ThB07.6, ThB16.5, ThB16.6, ThCT2.1, ThCT2.14, TuA10.6, TuBT1.13, TuBT1.14, TuBT3.4, WeA10.3, WeB08.1, WeB08.2, WeB10.3, WeB10.5, WeC09.5 |
| Distributed discrete-event systems | MoA23.1 |
| Distributed fault diagnosis | WeC17.3 |
| Distributed fault-tolerant Control | FrA17.3, TuA15.6 |
| Distributed navigation and control of unmanned autonomous vehicles | FrA10.4, TuB14.3 |
| Distributed nonlinear control | MoA04.3, MoB07.3, TuA19.1, TuBT1.2, TuC15.2 |
| Distributed optimization for large-scale systems | MoB12.1, MoB17.5, MoC10.1, ThB03.3, ThB13.2, ThCT3.9, TuB24.1, WeA08.1, WeA08.2, WeA08.3, WeA08.4, WeA08.5, WeA08.6, WeB08.1, WeB08.2, WeB08.3, WeB08.4, WeB08.5, WeB08.6 |
| Distributed robust controller synthesis | FrA03.3, ThBT2.6, ThBT2.9 |
| Disturbance estimation and sliding mode control of distributed parameter systems | FrB16.2, ThB20.6 |
| Disturbance rejection | FrB04.5, MoA05.4, ThA19.2, ThBT1.8, ThBT2.11, TuA07.6, TuC10.5, TuC17.2, TuC17.3, TuC17.4, TuC17.6, WeB22.5, WeBT1.12, WeCT2.5 |
| Disturbance rejection (linear case) | MoA14.3, ThB06.1, ThC16.6, ThC20.1, TuC17.1, TuC17.5, TuCT1.7, WeA12.2 |
| Dynamic interaction of power plants | MoCT2.4, MoCT2.6, ThA04.4 |
| Dynamic networks | FrA07.5, ThC07.6, ThCT1.3, ThCT2.9, TuA04.1, TuA04.3, TuA04.4, TuA04.6, TuB06.1 |
| Dynamic positioning | FrB14.1, TuC10.4, WeB03.2 |
| Dynamic resource allocation | FrA22.4, MoB01.4, MoB01.6, MoC01.4 |
| Dynamics and control | MoA21.4, MoA21.6, ThA24.1, ThC07.2, ThC19.1, TuC01.1, TuC01.2, TuC01.4, WeB18.1, WeB18.2, WeB18.3, WeB18.4, WeB18.5, WeB18.6, WeBT2.13 |
| E | Top |
| E-learning in control engineering | ThC10.1, ThC10.6, TuC22.4 |
| EAgriculture | MoCT1.5, MoCT1.11 |
| Econometric models and methods | MoBT1.14 |
| Efficient strategies for large scale complex systems | FrB01.6, MoC09.1, ThCT2.3, ThCT2.8, ThCT2.11, WeC23.6 |
| EHealth and telemedicine | FrA22.6 |
| Electric and solar vehicles | FrA11.2, FrA12.2, FrA12.6, FrB02.2, FrB11.4, FrB21.4, MoC19.3, ThB12.5, ThB12.6, TuA08.2, TuA08.3, TuA08.4, WeB15.5, WeB15.6, WeC01.1, WeC01.2, WeC01.5, WeC15.1, WeC15.2, WeC15.3, WeC15.6 |
| Embedded computer architectures | ThB17.4 |
| Embedded computer control systems and applications | ThB17.2, ThB17.3, ThB17.6, ThC10.4, ThC10.5, TuB20.1, WeCT2.9 |
| Embedded robotics | ThB17.3, TuB12.2 |
| Energy and distribution management systems | MoA12.3, MoC01.2, MoC01.3, MoC01.4, MoC01.5, MoC01.6, TuA01.5, TuA08.3, TuC05.1, TuC05.2, WeC24.1, WeC24.2, WeC24.3, WeC24.4, WeC24.5, WeC24.6 |
| Energy control in transportation | FrA05.1, FrA12.1, FrA12.3, FrA12.5, MoC14.3, MoC15.1, MoC15.2, ThB12.4, ThB12.6, WeC01.1, WeC01.3, WeC01.4, WeC01.6, WeC15.1, WeC15.4, WeC15.5 |
| Energy storage operation and planning | MoB01.4, MoC01.3, MoC01.5 |
| Energy systems | FrA04.5, FrA20.3, FrB04.5, MoA17.2, TuA15.5, TuC15.2, WeBT1.9, WeBT1.10, WeBT1.11, WeBT1.12 |
| Engine modelling and control | FrA12.4, MoC14.3, MoC14.6, ThA23.1, ThA23.3, ThA23.4, ThA23.5, ThA23.6, TuB03.2, TuCT3.3, TuCT3.4 |
| Engineering ethics | MoA12.5, ThB21.3, ThB21.5, ThB21.6, TuC22.4 |
| Enterprise integration | WeBT3.8 |
| Enterprise interoperability | ThA21.2, WeC21.1, WeC23.4 |
| Enterprise Reference Models and Their Verification, Validation, and Accreditation | WeC21.5 |
| Environmental decision support systems | ThA24.3 |
| Environmental, mobility, energy, health and safety implications of automation | MoA01.1, MoB01.3, MoBT1.5, MoBT1.7, MoBT1.12, TuB19.5 |
| Equality, diversity, and inclusion | MoA12.5, ThB21.1, ThB21.2, ThB21.6 |
| Equipment condition monitoring | FrA20.4, FrB20.5, WeB17.1, WeC16.4 |
| Errors in variables identification | TuBT3.15 |
| Estimation and control in biological systems | MoCT2.9, TuC20.1, WeB16.4, WeC18.3, WeC18.5 |
| Estimation and fault detection | FrA07.4, FrA18.1, FrA20.6, FrB06.4, FrB17.1, FrB17.2, FrB20.1, MoA14.4, MoBT2.13, ThA06.5, ThB04.3, TuA18.5, TuB16.1, TuC20.6 |
| Estimation and filtering | FrA06.1, FrA15.3, MoA10.6, MoB06.4, MoB06.6, MoC17.4, ThA06.3, ThA16.6, ThB03.2, ThB07.5, ThB18.1, ThB18.3, ThCT1.10, ThCT3.1, ThCT3.2, ThCT3.5, ThCT3.6, TuBT1.14, TuBT3.3, TuC16.3, WeA07.2, WeB02.2, WeB02.3, WeB02.5, WeB09.1, WeB09.2, WeB09.3, WeB09.4, WeB09.5, WeB09.6, WeB16.5, WeC09.1, WeC09.2, WeC09.3, WeC09.4 |
| Estimation theory | FrA02.6, FrB13.6, ThB03.4, ThB07.5, ThBT2.8, TuB13.1, TuBT3.15, WeB06.6, WeB09.2, WeB09.4, WeC09.2 |
| Ethical issues in CPHS | MoA12.2 |
| Event-based control | FrB09.5, ThA11.1, ThA11.3, ThC11.2, ThC11.6, TuB18.1, TuB18.3, TuC19.3, WeA10.3, WeB14.6, WeC02.1 |
| Event-triggered and self-triggered control | MoA10.5, MoB06.2, MoB17.3, ThCT3.12, TuA07.4, TuC06.1, WeA08.5, WeA10.1, WeA10.2, WeA10.4, WeA10.5, WeB10.1, WeB10.2, WeB10.3, WeB10.4 |
| Evolutionary algorithms in control and identification | TuB02.4, WeA01.6 |
| Experiment design | FrB02.2, FrB02.4, TuA04.4 |
| Expert systems | FrB20.2 |
| Explicability and transparency in CPHS | MoA01.2 |
| Extremum seeking and model free adaptive control | FrB07.6, MoC12.6, ThB15.2, ThCT3.9, ThCT3.11, ThCT3.12, TuA08.4, WeA16.6, WeB11.2 |
| F | Top |
| Facility planning and materials handling | FrA01.5, FrB23.1, MoA09.2, MoB02.4 |
| Fault accommodation and Reconfiguration strategies | MoA16.3, MoA16.6, TuA15.6, WeA15.5, WeC17.1 |
| Fault detection and diagnosis | FrA17.6, FrB02.5, FrB03.1, FrB06.1, FrB06.2, FrB06.3, FrB06.4, FrB06.5, FrB06.6, FrB17.2, FrB17.3, MoB10.2, MoC10.6, MoCT3.7, ThA06.1, ThA06.2, ThA06.3, ThA06.6, ThC11.1, TuA20.1, TuA20.2, TuA20.3, TuA20.4, TuA20.5, TuA20.6, TuB06.4, TuB18.2, TuB23.3, TuC03.1, TuC03.5, TuC18.2, WeB07.4, WeB10.6, WeC20.5 |
| Fault detection, diagnosis, identification, isolation and tolerance for autonomous vehicles | TuCT2.10, WeC15.6, WeCT2.10 |
| Fault diagnosis | MoB03.2, WeBT2.1 |
| Fault-tolerant | FrB16.1, FrB22.3, ThA19.4, ThB17.5, TuA07.1, TuB18.6, TuC12.2, WeA15.2, WeA20.2, WeA20.3, WeA20.4, WeA20.5, WeA20.6 |
| FDI and FTC for networked systems | TuB16.3, WeC17.3 |
| FDI based on qualitative models | ThA17.3, TuC20.2 |
| FDI for hybrid systems | FrB06.5 |
| FDI for nonlinear Systems | FrB17.4, MoA14.5, MoA16.3, MoA16.6, ThA17.1, ThA17.2, TuB16.3 |
| Field robotics | FrA15.4, FrA21.5, ThBT3.1, ThBT3.2, ThBT3.4, ThBT3.5, ThBT3.6, ThBT3.11, ThC22.2, TuB11.5 |
| Filtering and change detection | MoA14.5 |
| Filtering and estimation for FDI | FrB17.4, WeC17.3 |
| Filtering and smoothing | MoA05.4, ThB18.1, ThB18.4, ThC10.2, ThCT3.2, ThCT3.3, ThCT3.4, ThCT3.7, TuBT3.14 |
| Financial systems | ThC02.1, ThC02.2, ThC02.5 |
| Flexible and reconfigurable manufacturing systems | FrA24.1, MoA09.1, MoB02.2, MoC19.2, ThA09.2, WeA09.5, WeA23.4 |
| Flying robots | FrA14.4, FrB13.3, MoCT3.5, MoCT3.9, ThBT3.3, ThBT3.7, ThBT3.8, ThBT3.9, ThBT3.10, ThBT3.12, TuA07.5, WeB20.1, WeB20.2, WeB20.3, WeB20.4, WeB20.5 |
| Food engineering | WeB18.2, WeB18.3 |
| Forecasting | FrA22.1 |
| Fractional systems | MoA06.4, TuB09.1, TuB09.2, TuB09.3, TuB09.4, TuB09.5, TuC09.1, TuC09.2, TuC09.4, TuC09.6, WeC19.5, WeCT1.10 |
| Fractional-order systems | TuC09.2, TuC09.5 |
| Frequency domain identification | FrA06.2, TuBT3.1, TuBT3.11, TuCT1.4, WeA06.4, WeB06.1, WeC20.4 |
| Fuzzy and neural systems relevant to control and identification | MoBT3.4, MoC02.3, MoC21.1, MoC21.2, MoC21.4, MoC21.5, ThB14.1, ThB14.2, ThB14.4, ThB14.5, TuC02.3, TuC02.5, WeB21.2 |
| Fuzzy control systems | WeBT3.10 |
| G | Top |
| Game theories | FrA10.1, MoA10.4, MoBT1.11, MoC08.2, MoC08.4, ThA05.6, ThC02.3, ThC02.4, TuA01.4, TuA17.1, TuA17.2, TuA17.3, TuA17.4, TuA17.5, TuC05.1, TuC05.2, TuC05.4, WeB08.3 |
| General automobile/road-environment strategies | FrB02.3, FrB11.3, MoC14.2, TuCT3.5, TuCT3.8 |
| Graph-based methods for networked systems | FrA07.3, FrA10.3, FrA13.1, ThA11.5, ThB09.2, ThC07.6, TuBT1.1, TuBT1.6, TuBT1.15, TuC03.1, WeA08.1, WeB08.3, WeC09.5 |
| Greenhouse control | ThC19.3 |
| Grey box modelling | MoA19.6, ThA11.5, ThC02.5, ThCT1.14, TuA20.3, TuB06.5, TuBT3.12, TuC06.4, TuCT3.4, WeB06.5, WeBT2.10, WeC06.2, WeC06.5, WeC20.5, WeCT2.4 |
| Guidance navigation and control | FrA15.1, FrA15.2, MoB11.3, MoB20.3, MoC20.4, MoCT3.9, MoCT3.13, ThBT3.7, ThBT3.8, ThC03.1, ThC06.5, ThC15.5, TuB04.3, TuB11.1, TuC11.3, TuC11.4, WeA11.4, WeB20.5, WeC06.2, WeC11.1, WeC11.2, WeC11.3, WeC11.4, WeC11.5, WeC11.6 |
| Guidance, navigation and control of vehicles | FrA05.2, FrA14.3, FrA14.4, FrB05.1, FrB05.2, FrB05.3, MoB16.1, MoB16.2, MoB16.3, MoB16.4, MoB16.5, MoB16.6, MoC16.1, MoC16.2, MoC16.3, MoC16.4, MoC16.5, MoC16.6, TuC16.1, TuC16.2, TuC16.3, TuC16.4, TuC16.5, TuC16.6, WeA21.4, WeB11.1, WeB11.3, WeB11.4, WeB11.5 |
| H | Top |
| Hardware-in-the-loop simulation | TuC12.1, WeCT2.2 |
| Health monitoring and diagnosis | FrA14.1, FrA14.2, MoC08.6, TuA21.3, WeB15.4 |
| Healthcare management, disease control, critical care | FrB12.2, FrB12.5, MoC18.2, MoC18.3, MoSP1.1, ThA22.4, ThB22.2, TuA24.5, TuC01.3, TuC01.5, TuC24.1, TuC24.5, WeA04.6 |
| High accuracy pointing | WeB11.2, WeB11.4 |
| Holonic manufacturing systems | FrA24.2 |
| Human and vehicle interaction | MoA23.6, MoSP2.1, ThA12.1, TuB10.6, TuCT2.3, TuCT2.15, TuCT3.11, WeB01.2, WeB01.4 |
| Human factors in traffic and transportation control | FrA05.3, FrA11.2, FrB05.5, WeB01.4 |
| Human mechatronics | ThC22.4, TuA08.6, WeC09.4 |
| Human operator support | MoB15.2, MoB15.3, MoCT3.11, ThB02.3, ThC03.1, ThC13.2, ThC13.3, TuB10.2, WeC12.1 |
| Human robot collaboration | ThC19.6, WeB21.4, WeC07.6 |
| Human values and value systems | MoCT1.7, ThB21.3, ThB21.4, ThB21.5, ThC21.3 |
| Human-automation integration | MoA07.1, MoB02.4, MoB02.5, ThA21.3, ThA21.4, WeA23.2, WeC21.4 |
| Human-centered systems engineering | MoA01.1, MoBT1.1, MoBT1.8, MoBT1.9, MoBT1.12, MoBT1.13, MoCT1.7, ThC21.2, TuB19.1, TuB19.2, TuB19.5 |
| Human-centred automation and design | MoB15.5, MoB20.1, MoCT3.11, ThB02.1, ThC03.5, ThC13.1, ThC13.2, ThC13.4, ThC13.5, ThC13.6, TuB17.1, TuC11.6, WeC12.4, WeC12.5 |
| Human-centred computing | WeC12.4, WeC12.6 |
| Human-centric manufacturing | MoA07.1, MoA07.5, MoB02.2, MoB02.3, MoC09.2, ThA21.3, WeA23.2, WeA23.6, WeB23.2, WeCT3.5, WeCT3.6 |
| Human-in-the-loop in multiple time scales | MoB01.1, MoBT1.1, TuB19.3 |
| Hybrid and alternative drive vehicles | FrA05.1, FrA12.3, FrB11.6, MoC14.1, MoC14.3, MoC14.4, TuA08.6, WeC02.3, WeC15.4 |
| Hybrid and distributed system identification | MoA06.1, ThB11.3 |
| Hybrid and switched systems modeling | MoA06.1, MoA10.2, ThB11.1, ThB11.3, ThC11.2, ThSP2.1, TuC06.3, TuC18.4, TuC19.6, WeC02.1, WeC02.2, WeC02.4, WeC02.5, WeC02.6 |
| Hybrid computational intelligence techniques | MoBT3.2, MoBT3.13, MoC02.2, MoC02.6, TuB24.6, TuC02.3 |
| Hydroinformatics | MoB03.3 |
| I | Top |
| Identifiability | FrA06.4, MoA21.2, MoC06.4, ThC14.1, ThCT3.4, TuA04.4, TuA04.6, TuB07.4, TuBT3.2, TuBT3.15, TuC06.5, WeB02.2, WeC20.4 |
| Identification and control methods | FrA09.2, FrB06.4, MoCT3.2, ThA08.5, ThB02.1, ThB17.6, ThC03.3, ThC03.4, TuB17.5, TuC12.1, TuC12.4, WeA12.5, WeB12.1, WeB12.2, WeB12.3, WeB12.4, WeB12.5, WeB12.6, WeCT2.2, WeCT2.14 |
| Identification and model reduction | FrB01.2, FrB01.6, ThA07.3, ThA07.4, ThCT2.8, TuB14.2 |
| Identification and validation | MoC18.4, MoC18.6, ThA22.1, ThA22.6, ThC12.2, ThC12.5, ThC12.6, TuA24.5, WeBT2.10 |
| Identification for control | FrA06.1, FrB06.6, FrB08.3, FrB11.4, MoA06.2, MoA21.3, MoB12.6, MoC06.1, MoC06.2, MoC06.3, MoC06.4, MoC17.6, ThA06.2, ThB15.2, ThC14.2, ThC17.6, ThCT2.12, ThCT3.13, TuA04.3, TuBT3.2, TuBT3.6, TuBT3.7, TuBT3.8, TuBT3.13, TuC06.6, WeA07.3, WeB09.1, WeC20.4 |
| Impact of deregulation on power system control | MoBT2.9, TuB24.1 |
| In-vehicle communication networks | TuCT3.6 |
| Industrial applications of optimal control | ThC05.2, TuB02.1, TuB04.4, TuB04.6, TuC12.2 |
| Industrial applications of process control | FrA20.1, FrA20.5, FrB20.1, FrB20.3, MoBT2.13, ThA15.1, ThA15.2, TuA11.6, TuA12.1, TuA18.1, TuB16.1, WeB16.2, WeB16.3, WeB17.6, WeC16.2, WeC16.3 |
| Industrial biotechnology | MoA21.1, ThC14.5, WeC18.3 |
| Industry 4.0 | FrB03.5, MoA07.2, MoBT3.3, MoCT3.12, ThB14.4, ThB14.5, ThB23.5, ThC17.1, ThC17.2, ThC17.3, ThC17.4, ThC17.5, ThC17.6, TuB20.2, TuB20.4, TuB20.5, TuB20.6, TuB23.1 |
| Industry 4.0 | FrA01.1, FrA01.4, FrA23.1, FrA23.4, FrA23.5, FrB23.1, FrB23.2, FrB24.4, MoA09.2, MoA09.3, MoB02.3, MoB02.4, MoB19.4, ThA09.1, ThA09.5, TuA23.3, TuA23.4, TuB21.3, TuB21.4, TuB21.6, WeBT3.3, WeBT3.4, WeBT3.5 |
| Infinite-dimensional multi-agent systems and networks | ThC20.5 |
| Infinite-dimensional systems (linear case) | FrB09.1, FrB09.2, FrB09.3, FrB09.4, FrB09.5, FrB09.6, MoA08.4, MoA18.4, ThB20.3, ThB20.4, ThC20.3, TuA11.5, WeC05.2, WeC05.3, WeC05.6, WeC14.6, WeCT2.3 |
| Information and sensor fusion | MoC05.4, MoCT3.6, MoCT3.8, ThBT3.2, ThBT3.5, TuA07.2, TuB11.1, WeA01.1, WeA11.1 |
| Information displays/system | TuA21.5, WeB15.1 |
| Infrastructure (including energy, telecoms, political, physical, etc.) | MoBT1.5, WeB09.6 |
| Innovation management | FrA22.3, ThC09.4, ThC21.2, ThC21.3 |
| Input and excitation design | FrB02.2, MoC06.2, MoC06.4, WeB19.3 |
| Input-to-state stability | FrB13.6, MoA08.1, MoA08.6, MoB08.6, MoC11.3, ThC07.5, ThC08.1, TuBT2.7, TuC15.3, WeBT1.6, WeCT1.9 |
| Instrumentation and control systems | TuA14.5 |
| Integrated assessment modelling | ThA24.5 |
| Integrated monitoring, control and security for critical infrastructure systems | ThA07.5 |
| Intelligent control of power systems | FrA18.2, FrA19.3, FrA19.4, MoA14.1, MoA15.2, MoA15.3, MoA15.4, MoA15.5, MoA17.5, ThA04.2, ThA14.4, ThB04.2, ThB04.6, ThC23.6, ThC24.3 |
| Intelligent decision support systems | ThB24.2, WeB17.5 |
| Intelligent decision support systems in manufacturing | FrB01.4, MoB09.5, WeB23.4 |
| Intelligent driver aids | TuCT2.7, TuCT3.5, TuCT3.10, TuCT3.11, TuCT3.12 |
| Intelligent interfaces | WeC12.6 |
| Intelligent maintenance systems | FrB24.2, MoB19.4, MoB19.5, MoC19.1, ThB09.2, ThB09.3, TuB23.2, TuBT3.3, TuC23.5, WeBT3.9, WeBT3.13, WeCT3.3, WeCT3.4, WeCT3.12 |
| Intelligent manufacturing systems | FrA24.3, MoB09.1, MoC09.2, MoC19.5, ThA09.6, TuA23.2, TuA23.3, TuB23.3, TuB23.4, TuC23.2, WeA23.1, WeA23.2, WeB23.2, WeBT3.11, WeC23.4, WeCT3.6 |
| Intelligent robotics | FrA15.5, MoA11.1, MoB11.1, MoB20.3, MoCT3.7, ThBT3.1, ThBT3.11, ThC23.2, TuB11.4, TuC11.1, TuC11.3, WeA01.1, WeA01.2, WeA01.3, WeA01.6, WeA11.3, WeC11.3 |
| Intelligent system techniques and applications | FrA01.1, FrB24.3, ThCT2.4, WeBT3.9 |
| Intelligent transportation | MoA01.5, MoCT1.10, MoCT1.14, TuA01.1, TuA01.2, TuA01.3, TuCT3.14 |
| Intelligent Transportation Systems | FrA05.6, FrB05.5, MoA23.4, MoA23.5, MoB14.6, MoBT3.10, MoC23.4, TuA08.1, TuA16.6, TuB10.6, TuB15.3, TuB15.4, TuB15.5, TuCT2.2, TuCT2.8, TuCT2.15, WeA21.5, WeB01.5, WeB03.3, WeB10.6 |
| Intensive and chronic care or treatment | MoC18.4, MoC18.5, ThB22.3, ThB22.4, TuA24.6 |
| International development & developing regions | MoA12.5 |
| Internet based teaching of control engineering | MoA12.4, ThC10.6 |
| Internet of services and service science | ThA21.2, TuB21.2 |
| Internet of Things | MoBT3.9, ThC17.2, ThC17.4, ThCT2.6, ThCT2.7 |
| Internet-of-Things and sensing enterprise | FrB01.1, ThA09.2, ThA21.1, WeC21.2 |
| Interoperability standards | ThC17.1 |
| Inventory control | FrA01.1, MoB09.3, MoC09.3, MoC09.4, ThA07.6, ThB09.5, WeA14.6 |
| Iterative and repetitive learning control | FrB22.5, MoB12.1, MoB12.2, MoB12.3, MoB12.4, MoB12.5, MoB12.6, MoC12.1, MoC12.2, MoC12.3, MoC12.4, MoC12.5, MoC12.6, TuCT1.3 |
| J | Top |
| Job and activity scheduling | MoA07.1, MoA09.5, MoB09.4, ThA09.1, ThB09.4, WeA14.2, WeA14.3 |
| K | Top |
| Kalman Filtering | FrB06.1, MoB06.6, ThA06.3, ThA16.6, ThB18.1, ThB18.2, ThB18.3, ThB18.4, ThB18.5, ThCT2.8, ThCT2.14, ThCT3.7, TuBT1.7, WeA15.4, WeB02.3, WeB09.4, WeB09.5, WeC06.4 |
| Kalman filtering techniques in automotive control | FrA20.2, TuCT3.6, TuCT3.13, WeB02.5 |
| Kalman filtering techniques in marine systems control | FrB14.4, FrB14.5 |
| Kinetic modeling and control of biological systems | MoA21.6, ThC19.1, WeBT2.1, WeBT2.12 |
| Knowledge discover (data mining) | ThA07.5, ThCT2.5, WeC21.3, WeCT3.5 |
| Knowledge modelling and knowledge based systems | MoCT3.12, ThC13.2 |
| Knowledge networks | ThC21.1, ThC21.3, TuC05.5 |
| Knowledge society | FrA22.3, FrA22.6, ThB21.2, ThB21.3, ThB21.4, ThC21.1, ThC21.5 |
| Knowledge-based control | MoBT3.2, MoBT3.7, MoC02.6, MoCT3.12, ThB09.3, ThB23.2, TuB24.3 |
| L | Top |
| Lagrangian and Hamiltonian systems | FrA04.3, MoB20.4, MoC08.1, ThB08.3, ThC07.4, ThC08.1, TuA19.1, TuBT2.11, TuBT2.12, WeC05.4, WeC05.5, WeC09.1, WeCT1.15 |
| Large scale optimization problems | FrA08.2, FrB04.4, MoB07.6, MoB18.4, MoB18.5, MoB18.6, MoC03.4, MoC03.6, MoC24.1, TuB04.1, TuB05.1, TuC21.1, TuCT1.13, WeB07.5, WeB08.4 |
| Learning and adaptation in autonomous vehicles | MoSP2.1, ThA12.3, ThA12.5, ThA12.6, ThB12.2, ThB12.3, TuA16.1, TuA16.2, TuA16.3, TuA16.4, TuA16.5, TuB03.1, TuCT2.3 |
| Learning for control | FrA22.5, FrB10.6, FrB22.3, MoA19.1, MoA19.2, MoA19.3, MoA19.4, MoA19.5, MoB06.1, MoB06.2, MoB06.3, MoB12.3, MoB12.5, MoC06.1, MoC06.2, MoC06.5, MoC12.2, MoC12.4, ThA06.4, ThA11.6, ThA15.4, ThC22.6, ThCT1.4, ThCT1.5, ThCT1.6, ThCT1.7, ThCT1.8, ThCT1.9, ThCT1.14, TuA04.5, TuBT3.13, TuC03.4, TuCT1.1, TuCT1.5, WeA10.2, WeA10.5, WeA19.2, WeB19.1, WeB19.3, WeB19.4, WeC07.6, WeCT2.8 |
| Life-cycle control | MoB19.2, MoC19.4 |
| Linear multivariable systems | FrA16.5, MoC07.2, MoC07.3, MoC07.4, MoC07.5, MoC07.6, MoC11.5, ThB13.5, ThBT1.2, ThBT2.1, ThC05.5, ThC08.6, TuB07.6, TuB08.3, TuC08.6, WeA04.4 |
| Linear parameter-varying systems | FrA03.2, FrA07.4, FrB13.3, MoB24.2, MoC24.6, ThA16.2, ThB23.4, TuB04.2, TuC08.2, TuC16.1, TuC16.5, WeC04.6 |
| Linear systems | FrA16.4, FrB09.6, MoA06.4, MoA08.4, MoA08.5, MoA24.2, MoB07.5, MoB08.3, MoB10.5, MoC07.1, MoC08.3, MoC08.5, MoC20.2, ThA18.6, ThA19.6, ThB06.1, ThB06.3, ThB06.6, ThB18.2, ThBT1.7, ThC16.3, ThSP1.1, TuA05.6, TuA09.4, TuA10.3, TuB08.2, TuB08.4, TuB08.5, TuB08.6, TuB09.5, TuBT3.11, TuC08.1, TuC08.4, TuC08.5, TuC09.2, TuC15.6, TuCT1.12, WeA04.2, WeA04.3, WeA04.5, WeA19.3, WeA19.4, WeA20.1, WeA20.2, WeA20.6, WeB09.6, WeB19.2, WeCT1.12, WeCT1.13, WeCT1.14 |
| Localization | FrA15.3, FrA21.4, FrB05.1, MoC05.5, ThB18.5, TuA21.6 |
| Logistics in manufacturing | FrA01.5, FrB23.1, MoA09.2, MoB09.3, MoB09.5, MoC09.4, ThC23.1, TuB04.1, WeA09.1, WeA09.2, WeA14.2, WeB23.5 |
| LPV system identification | FrB16.6, MoA06.5, ThB13.4, WeA06.4, WeBT3.12 |
| Lyapunov methods | FrA03.6, FrA04.1, FrA08.1, FrA10.4, FrA10.6, FrA16.1, FrB09.3, MoA04.2, MoA04.5, MoA08.5, MoA20.5, MoB05.3, MoB05.4, MoB05.5, MoB08.6, MoB11.5, MoB17.1, MoB18.4, MoC04.4, MoC05.2, MoC05.6, MoC11.3, ThA16.3, ThA18.1, ThA20.5, ThB06.2, ThBT2.3, ThC07.3, ThC11.5, ThC15.5, ThC16.1, ThC16.5, ThC18.6, TuBT2.6, TuC04.4, TuC09.3, TuC15.1, TuC15.2, TuC15.3, TuC15.4, TuC15.5, WeA04.1, WeA20.3, WeBT1.3, WeBT1.5, WeC05.5, WeC07.1, WeC09.6, WeC14.3, WeC18.5 |
| M | Top |
| Machine learning | FrA02.4, FrA02.5, FrA02.6, FrA06.3, FrA06.6, FrA17.1, FrA17.4, FrA17.6, FrA22.5, FrB02.1, FrB02.6, FrB06.3, FrB12.6, FrB14.3, FrB16.6, FrB22.2, MoA19.2, MoA19.3, MoA19.5, MoB06.3, MoB06.5, MoB10.2, MoBT2.3, MoC17.6, MoCT3.8, ThA06.1, ThA06.6, ThB09.4, ThB23.2, ThC02.1, ThC02.4, ThCT1.2, ThCT1.5, ThCT1.7, ThCT1.15, TuA04.2, TuA10.1, TuA20.1, TuA20.2, TuA20.3, TuA20.5, TuB03.6, TuB06.1, TuB06.5, TuB06.6, TuB13.1, TuB17.6, TuB23.4, TuBT3.9, TuC03.2, TuC03.4, TuC19.6, TuC21.2, TuSP1.1, WeA06.5, WeA06.6, WeA10.6, WeB02.5, WeB06.2, WeB06.3, WeB06.6, WeB07.1, WeB07.3, WeB21.5, WeC06.1, WeC06.3, WeC06.5, WeC20.2, WeC20.3, WeCT2.4, WeCT2.8 |
| Machine learning and data analytics in process control | FrA20.1, FrA20.5, FrB20.3, MoA14.4, MoCT2.7, MoCT2.8, ThA04.2, ThA15.1, ThA15.2, ThA15.3, ThA15.4, TuA14.4, TuA14.6, TuA18.1, TuA18.2, TuA18.3, TuA18.4, TuA18.5, TuA18.6, TuB16.1, TuC14.6, WeB17.2, WeC08.6, WeC16.1, WeC16.5 |
| Machine learning for environmental applications | ThA24.2, ThA24.3, ThA24.6, ThB10.1, ThB10.2, TuC21.2 |
| Machine learning in modelling, prediction, control and automation | FrB22.1, MoBT3.1, MoBT3.3, MoBT3.4, MoBT3.5, MoBT3.6, MoBT3.13, MoC02.1, MoC02.2, MoC02.3, MoC02.4, MoC02.5, ThA15.4, ThB14.1, ThB14.2, ThB23.1, ThB23.3, ThB23.4, ThB23.5, ThBT1.3, ThC15.6, ThC17.1, ThCT1.5, ThCT1.6, TuB03.1, TuB03.2, TuB03.3, TuB03.4, TuB03.5, TuB03.6, TuB24.2, TuB24.3, TuB24.4, TuB24.5, TuB24.6, TuC02.1, TuC02.2, TuC02.3, TuC02.4, TuC02.5, TuC02.6, WeA18.1, WeA18.2, WeA19.6, WeB06.4, WeB21.1, WeBT1.1 |
| Machine learning methods and applications | MoBT2.2, MoCT2.13, MoCT2.14, ThA15.5, ThA15.6, ThB04.3, TuA18.3, TuC20.3, WeB17.4, WeC08.3 |
| Maintenance engineering and management | FrA24.4, FrB24.5, MoA07.6, MoB19.2, MoB19.3, MoB19.4, TuB23.2, WeBT3.3, WeBT3.4, WeBT3.9, WeBT3.13, WeBT3.14, WeCT3.3, WeCT3.4, WeCT3.12 |
| Maintenance models and services | FrA23.2, FrB24.5, MoA07.6, MoB19.3, MoB19.5, MoC19.1, WeBT3.13, WeCT3.3, WeCT3.4 |
| Maintenance scheduling and production planning | TuA11.2 |
| Man-machine interfaces | TuA21.5, TuCT3.10 |
| Man-machine systems in agriculture | ThC19.6 |
| Manufacturing plant control | FrA24.1, FrA24.2, FrA24.3, FrA24.4, FrA24.5, FrA24.6, MoA01.3, MoB09.1, ThA09.6, TuA23.2, TuA23.3, WeA23.4, WeA23.5, WeCT3.6 |
| Map building | FrB05.4, MoC05.5, TuA21.3, TuA21.6, TuCT2.12 |
| Marine system identification and modelling | FrB14.1, FrB14.2, FrB14.3, TuB15.2 |
| Marine system navigation, guidance and control | FrB14.2, FrB14.4, FrB14.5, FrB14.6, TuC10.3, TuC10.4, WeB03.2, WeB03.6, WeC03.3 |
| Maritime transportation planning and control | ThA10.5 |
| Max-plus algebra | ThA11.3, ThB11.1, WeCT1.5 |
| Measurement and instrumentation | MoCT2.13, WeB17.1 |
| Mechanical and aerospace estimation | FrA02.3, FrA14.3, FrB23.5, ThCT3.5, TuC16.2, WeB09.1 |
| Mechanical design of autonomous vehicles | FrA14.4 |
| Mechatronic systems | FrA09.3, FrA09.5, MoA11.6, MoB11.4, MoCT3.3, MoCT3.6, ThB15.1, ThB15.4, ThB15.5, ThBT2.5, ThC03.5, ThC03.6, ThC10.4, ThC10.5, ThC15.1, ThC23.2, TuB12.1, TuB12.2, TuB12.3, TuB12.4, TuB12.5, TuB12.6, TuC12.1, TuC12.2, TuC12.3, WeA11.5, WeA12.3, WeA12.4, WeA12.6, WeB12.1, WeB20.6, WeB22.4, WeCT2.7 |
| Mechatronic systems in social systems | MoCT1.10, TuB19.6 |
| Mechatronics | FrA09.2, MoCT3.1, ThA08.1, ThA10.6, ThB15.5, ThB17.2, ThC15.1, ThC22.4, TuB12.3, TuB12.4, WeA12.4, WeA12.5, WeB12.1, WeB12.4, WeB12.6, WeC11.4, WeCT2.1, WeCT2.4, WeCT2.6 |
| Mechatronics for mobility systems | MoCT3.1, ThA08.6, ThB17.6, TuB11.4, WeB12.5 |
| Medical imaging and processing | ThB22.2, ThB22.5, TuA24.2, TuA24.3, WeA22.2, WeA22.3, WeA22.4, WeA22.5, WeA22.6, WeC22.2, WeC22.5, WeC22.6 |
| Metabolic engineering | MoA21.6 |
| Methods based on neural networks and/or fuzzy logic for FDI | FrA17.4, FrB17.3, FrB17.6, ThA17.4 |
| Micro and nano mechatronic Systems | FrA09.1, FrA09.4, ThA08.5, ThB15.6, ThC03.4, TuC12.4, WeB12.2 |
| Microbial technology | MoA21.4, ThC14.5 |
| Mission control and operations | FrB05.3 |
| Mission planning and decision making | FrA05.5, MoC23.2, ThA10.1, ThA10.2, ThA10.3, ThA10.4, ThA12.4, TuB10.4 |
| Mobile robots | FrA10.2, FrA15.6, FrB07.2, FrB10.5, MoB15.5, MoB20.3, MoB20.6, MoC20.1, MoC20.2, MoC20.3, MoC20.4, MoC20.5, MoC20.6, ThA10.3, ThB02.3, ThB16.1, ThC15.3, ThC15.5, WeA01.1, WeA01.4, WeA01.6, WeA11.2, WeB22.2, WeB22.5, WeC06.2, WeC11.1, WeC11.5 |
| Model driven engineering of control systems | MoBT3.1, MoBT3.7, TuA23.5, TuB20.2, TuB20.3, TuB20.5, TuB24.3 |
| Model following control | WeCT1.4 |
| Model formulation, experiment design | ThC12.3, TuC24.4, WeBT2.8 |
| Model predictive and optimization-based control | FrA22.2, MoA17.3, MoB14.6, MoBT2.6, MoC03.4, MoCT2.11, MoCT2.12, ThA04.2, ThA05.3, ThA14.1, ThB04.5, ThC19.5, ThC23.4, TuA12.4, TuA14.1, TuA14.2, TuA14.3, TuA14.4, TuA14.6, TuA15.1, TuA18.2, TuA18.4, TuB05.2, TuB05.6, TuC04.4, TuC14.1, TuC14.2, TuC14.3, TuC14.4, TuC14.6, TuC21.6, TuCT2.6, WeB16.2, WeC16.3, WeC16.5, WeCT1.3 |
| Model predictive control for distributed parameter systems | ThB20.5, TuC07.5 |
| Model predictive control of hybrid systems | WeB02.1, WeBT1.1, WeC02.3 |
| Model reduction | FrA04.1, FrB08.4, MoC05.3, ThC07.4, TuB05.6, TuC07.1, TuC07.2, TuC07.3, TuC07.4, TuC08.3, WeC09.3 |
| Model reduction and dynamic emulation | ThA24.4, ThA24.5, ThA24.6 |
| Model reduction of distributed parameter systems | TuBT2.3, TuC07.5 |
| Model reference adaptive control | MoC17.3, ThB13.3, ThCT1.14, ThCT3.10, ThCT3.13, TuCT1.6, WeC07.2 |
| Model validation | ThC06.3, TuB05.6, TuBT2.12 |
| Model-driven systems engineering | MoC09.1, TuB21.1 |
| Modeling | FrB15.5, MoB11.4, MoCT3.5, ThA05.2, ThA08.2, ThC03.4, ThC03.6, ThC22.5, TuB12.6, TuC11.2, WeA11.2, WeA11.4, WeB12.5, WeB20.6, WeB23.6, WeC19.6, WeCT2.3 |
| Modeling and control of agriculture | MoB03.3, ThC19.1, ThC19.4, ThC19.5, WeA10.6, WeB06.3, WeB16.4 |
| Modeling and control of road traffic networks | TuC05.3 |
| Modeling and identification | FrB12.5, MoA21.3, ThA22.2, ThA22.5, ThC14.1, ThC14.2, ThC14.3, ThC14.4, ThC14.5, ThC14.6, ThCT3.14, TuA24.3, TuC01.1, TuC01.2, TuC24.1, WeB18.2, WeB18.4, WeB18.6 |
| Modeling and identification of environmental systems | MoB03.4, ThA24.2, ThA24.4, ThA24.6, ThB10.5, ThB10.6, TuC01.4, TuC21.4, TuC21.5 |
| Modeling and simulation of power systems | FrA17.2, FrA19.2, FrA19.3, FrA19.4, FrA19.6, FrB18.3, FrB18.5, FrB18.6, MoA14.3, MoA14.6, MoA15.2, MoA15.3, MoA15.6, MoA17.1, MoA17.5, MoBT2.8, MoCT2.1, MoCT2.2, MoCT2.3, MoCT2.4, MoCT2.5, ThA04.3, ThA14.2, ThA14.3, ThA14.4, ThB04.1, ThB04.4, ThB24.3, ThB24.4, ThC24.1, ThC24.2, ThC24.3, TuBT3.8, WeA15.3, WeA15.6, WeA16.1, WeA16.2, WeBT1.14, WeC17.6 |
| Modeling and simulation of transportation systems | MoA01.5 |
| Modeling of human performance | ThB02.1, ThB02.2, ThC13.3, ThC13.6 |
| Modeling of manufacturing operations | FrB23.3, MoA09.4, ThA07.1, ThA07.2, ThA09.3, ThA09.4, WeA14.5 |
| Modeling, supervision, control and diagnosis of automotive systems | FrB02.5, FrB06.1, FrB06.2, MoC14.1, MoC14.2, MoC14.4, MoC15.6, MoC19.3, MoC23.1, TuB15.1, TuCT3.2, TuCT3.12, WeB15.1, WeB15.3, WeB15.5, WeB15.6, WeC01.2, WeC15.1, WeC15.3, WeC15.5 |
| Modelling and control of road traffic networks | FrA05.3, FrA05.4, FrB05.5, WeA21.5, WeB01.4, WeC01.6 |
| Modelling and decision making in complex systems | FrA01.5, FrB01.3, FrB23.3, FrB23.4, MoB09.2, MoC09.1, ThA07.5, ThA21.4, ThCT2.3, ThCT2.4, ThCT2.5, TuB14.2, TuB14.5, TuB21.1, TuC23.1, WeBT3.2, WeC21.3, WeC23.1, WeC23.3, WeC23.4, WeC23.6, WeCT3.2 |
| Modelling complexity | MoBT1.2, ThC07.2, WeB21.3, WeC24.2 |
| Modelling social and environmental change | MoCT1.12, TuC05.4 |
| Monitoring | MoA21.1, MoA21.5, MoB03.2, ThB10.4 |
| Monitoring and performance assessment | FrB20.3, MoCT2.7, TuA18.5, TuC20.2, TuC20.6, WeC16.1, WeC16.2 |
| Monitoring of product quality and control performance | MoCT2.7, TuC20.3, TuC20.4, WeC16.4 |
| Monitoring of transport systems | FrB02.6, MoA23.1, ThA10.5 |
| Motion control | FrA21.2, FrB05.6, ThB12.1, ThB12.4, ThB15.5, TuCT2.9, TuCT2.14, WeA21.2, WeC15.4 |
| Motion control systems | FrA09.1, FrA09.2, FrA09.4, FrA09.5, FrA09.6, FrB06.3, FrB16.4, MoB24.2, MoC20.4, MoCT3.1, MoCT3.2, MoCT3.3, ThA08.1, ThA08.2, ThA08.3, ThB15.1, ThB15.2, ThB15.3, ThB15.4, ThB15.6, ThBT2.5, ThBT3.10, ThC03.2, ThC22.4, ThC22.5, TuB12.1, TuB12.4, TuC12.3, TuC12.4, WeA12.2, WeA12.3, WeA12.6, WeB12.3, WeB12.4, WeB12.6, WeB20.3, WeB20.6, WeB22.3, WeB22.4, WeCT2.1, WeCT2.5, WeCT2.7 |
| Motion planning for distributed parameter systems | WeC18.2 |
| Multi agent systems | MoBT3.1, MoBT3.8, ThC17.5, TuB02.2, TuB20.1, TuB20.3, WeA18.3, WeA18.4, WeA18.5, WeA18.6 |
| Multi source environmental data integration | ThB10.6 |
| Multi-agent systems | FrA07.3, FrA07.6, FrA10.1, FrA10.2, FrA10.3, FrA10.5, FrA13.2, FrA13.3, FrA13.4, FrA13.5, FrA13.6, FrA17.3, FrB03.2, FrB03.3, FrB07.2, FrB10.1, FrB10.2, FrB10.4, FrB10.5, FrB10.6, MoB10.6, MoB17.1, MoB17.4, MoB17.5, MoB17.6, MoC08.4, MoC10.2, MoC10.5, MoC17.1, MoC17.2, ThB03.5, ThB07.2, ThB07.4, ThB16.1, ThB16.2, ThB16.3, ThB16.4, ThB16.5, ThB16.6, ThC06.6, ThC15.4, ThCT2.1, ThCT2.2, ThCT2.10, ThCT2.12, ThCT2.13, ThCT2.15, ThPL.1, TuA10.1, TuA10.2, TuA10.3, TuA10.4, TuA10.5, TuA10.6, TuA16.6, TuB05.3, TuB13.5, TuBT1.2, TuBT1.12, TuBT3.2, TuC19.1, TuC19.3, WeA08.1, WeA08.2, WeA08.3, WeA08.4, WeA08.5, WeA10.4, WeA21.1, WeB08.5, WeB08.6, WeB10.2, WeB10.3, WeB11.6, WeB21.4, WeC09.5 |
| Multi-agent systems applied to industrial systems | FrA24.2, FrB01.5, TuA23.4, TuB02.1 |
| Multi-modal interaction | FrB15.2, WeC12.6 |
| Multi-vehicle systems | MoA23.6, MoC23.4, ThA10.2, ThB03.1, ThCT2.12, TuA16.4, TuA21.1, TuB10.1, TuB10.3, TuB10.4, TuB10.5, TuCT2.5, TuCT2.14, TuCT3.7, WeA21.1, WeA21.2, WeA21.3, WeB01.5, WeC03.6 |
| Multiagent systems | FrA23.6, FrB01.2, TuB14.1, TuB14.3, TuB14.4, TuB14.5, TuB14.6, WeB23.5, WeB23.6, WeC23.1, WeC23.5, WeCT3.1, WeCT3.2 |
| N | Top |
| N-dimensional systems | FrB09.6, MoC07.5, TuC08.1, TuC08.4, TuC15.6 |
| Natural and environmental systems | ThA24.2, ThB10.1, ThB10.2, TuC21.3 |
| Navigation and guidance | ThB19.6 |
| Navigation, guidance and control | FrA21.2, MoC23.1, MoC23.5, TuA07.5, WeB01.6, WeC03.6 |
| Networked embedded control systems | ThB13.6, TuC19.4 |
| Networked robotic system modeling and control | FrB10.3, MoC20.5, ThB16.1, ThC15.4, TuBT1.1 |
| Networked robotic systems | FrA10.2, FrA13.1, FrA13.2, FrA13.3, FrB10.1, FrB10.2, FrB10.3, FrB10.4, MoB06.2, MoB17.6, ThB13.2, ThB16.3, ThB18.3, ThCT2.10, ThCT2.13, TuC19.4, WeB10.4 |
| Networked systems | FrB19.4, MoA18.5, MoA18.6, MoB07.2, ThA18.5, ThB08.2, ThC07.1, ThC07.3, ThC07.4, ThC07.5, ThC16.2, TuA05.2, TuBT1.3, TuCT1.12, WeA05.3, WeA05.6, WeBT1.11 |
| Networks (structural properties) | TuA17.5, TuBT1.6, TuC08.6 |
| Networks of robots and intelligent sensors | TuA16.3, TuA21.1, WeC03.4, WeCT2.10 |
| Neural and fuzzy adaptive control | TuCT1.9, WeC07.1, WeC07.2, WeCT2.8 |
| Neural networks | FrA11.1, MoA05.3, ThA12.2, ThC23.5, TuB03.2, TuB15.2, WeB01.3, WeB03.4, WeB11.5, WeC06.3 |
| Neural networks in process control | ThA14.1, ThB24.2, TuC20.3, WeC08.3, WeC16.3 |
| Neurodynamic optimization and adaptive dynamic programming | WeA18.2, WeA18.4, WeC07.4 |
| New technologies for the environment | MoCT1.8, ThC09.3 |
| Non-smooth and discontinuous optimal control | TuB04.4 |
| Nonlinear adaptive control | MoA19.3, MoB12.5, ThCT2.9, TuA12.5, TuB11.3, TuBT2.4, WeA12.6, WeC07.1, WeC07.2, WeC07.3, WeC07.4, WeC07.5, WeC07.6 |
| Nonlinear and optimal automotive control | FrA12.2, FrA12.4, FrA12.5, FrB11.5, FrB11.6, ThA23.2, ThA23.3, ThA23.4, ThA23.6, TuA08.2, TuB10.3, TuCT2.1, TuCT3.1, TuCT3.7, TuCT3.8, TuCT3.9, TuCT3.14, WeBT1.8, WeC01.2 |
| Nonlinear and optimal marine system control | ThA10.6, TuB04.6, TuC10.1, WeB03.5, WeC03.2 |
| Nonlinear cooperative control | FrB16.5, ThA16.2, ThB16.3, TuBT1.4 |
| Nonlinear model reduction | WeC08.6 |
| Nonlinear observers and filter design | FrB16.3, FrB16.4, FrB16.5, MoA11.3, MoA21.5, MoC05.2, MoC05.3, MoC05.4, MoC05.5, MoC05.6, ThB06.2, ThB06.5, ThB07.6, ThC08.2, ThC18.2, ThC18.5, TuA06.6, TuA07.2, TuB07.5, TuBT2.10, TuBT2.13, WeA19.1, WeC04.2, WeC04.3, WeC04.4, WeC04.5, WeC09.6 |
| Nonlinear predictive control | FrB04.3, MoA24.1, ThC04.3, TuB05.3, TuB05.4, TuBT1.2, TuBT1.4, TuBT2.2, TuBT2.5, TuCT3.14, WeA05.2, WeB04.4, WeB04.6, WeB18.5, WeB19.5, WeB21.1, WeBT2.13, WeCT1.6 |
| Nonlinear process control | WeA15.6, WeB19.6, WeC09.3, WeC16.5 |
| Nonlinear system identification | FrA06.4, FrB14.3, MoB06.6, MoB10.4, MoC12.2, ThB13.4, ThCT1.15, TuA04.3, TuA06.3, TuA20.2, TuB06.5, TuB06.6, TuBT3.9, TuCT3.3, TuCT3.4, WeA06.1, WeA06.2, WeA06.3, WeA06.4, WeA06.5, WeA06.6, WeB06.1, WeB06.2, WeB06.3, WeB06.4, WeB06.5, WeB06.6, WeB12.2, WeC06.1, WeC06.3, WeC06.4, WeC06.5, WeC06.6, WeC19.2, WeC20.1, WeC20.3, WeC20.5 |
| Nonlinear time-delay systems | FrA04.6, FrB16.5, MoA08.2, MoB08.5, ThB08.2, ThB08.6, ThC18.4, ThC22.1, TuBT2.6, TuBT2.7, WeB10.1 |
| Nonparametric methods | FrA02.1, FrA06.3, FrA06.5, FrA06.6, MoA11.5, MoA19.2, MoA19.5, MoA19.6, ThA11.6, TuBT3.1, TuBT3.5, TuBT3.6, TuC06.1, TuC06.5, WeA06.2, WeB02.3, WeB10.6, WeC20.2 |
| Numerical methods for optimal control | FrA03.3, FrA08.2, FrB04.2, FrB04.4, FrB11.6, MoA11.4, MoB18.3, MoB18.5, MoB18.6, MoC03.3, MoC03.5, MoC16.1, ThC05.5, ThC05.6, TuA19.2, TuCT1.9, TuCT1.11, TuCT1.13, TuCT1.14, TuCT1.15, WeB19.5, WeCT1.1, WeCT1.2, WeCT1.3, WeCT1.5, WeCT1.6, WeCT1.13 |
| O | Top |
| Observer based and parity space based methods for FDI | FrA17.5, ThA06.5 |
| Observer design | FrA07.1, FrA16.1, FrA16.2, FrA16.3, FrA16.5, FrA16.6, FrB16.1, FrB16.3, MoA21.2, MoC05.1, ThA19.1, ThA20.6, ThB20.4, ThB20.6, ThBT2.11, ThC06.1, ThC06.2, ThC06.4, ThC07.3, ThC08.3, ThC18.3, ThC18.4, ThC18.5, ThC18.6, ThC20.3, TuA09.6, TuB07.5, TuB09.4, TuC07.4, TuC17.3, TuC17.6, WeA11.3, WeA19.1, WeB19.4, WeC04.2, WeC04.4, WeC18.5, WeCT2.14 |
| Observers for linear systems | FrA16.4, FrB13.5, MoC05.6, ThB18.2, ThBT2.2, ThC06.5, ThC06.6, ThC18.1, TuB17.2, WeA04.4, WeA10.2 |
| Operations research | FrA24.5, FrB01.5, MoA07.2, MoA09.5, MoC09.5, ThA07.6, ThB09.5, TuB21.5, WeA09.2, WeA09.6, WeA14.4, WeA14.6, WeCT3.9 |
| Optimal control and operation of water resources systems | MoB03.1, MoB03.2, MoB03.3, MoB03.4, MoB03.5, ThB10.3, ThC19.2, TuC21.1, TuC21.3, TuC21.4, WeSP1.1 |
| Optimal control of discrete event and hybrid systems | FrB07.3, FrB07.5, ThA11.3, ThC11.4, TuC18.3 |
| Optimal control of hybrid systems | FrB08.1, WeCT1.1, WeCT1.2 |
| Optimal control of partial differential equations | MoB21.3, MoB21.6, ThA20.3, ThC04.4, TuB07.1, WeCT1.10 |
| Optimal control theory | FrB02.4, FrB22.2, MoB11.6, MoB18.1, MoB18.5, MoBT3.11, MoC07.2, MoC07.6, MoC08.1, MoC08.6, MoC20.2, ThA20.3, ThB05.6, ThC04.5, ThC07.1, ThC16.6, TuA09.3, TuA09.5, TuA10.3, TuA17.3, TuB04.5, TuB05.5, TuB08.5, TuB13.4, TuB17.4, TuC01.6, TuC04.2, TuC21.5, WeB18.4, WeC09.1, WeCT1.4, WeCT1.5, WeCT1.7, WeCT1.8, WeCT1.9, WeCT1.10, WeCT1.11, WeCT1.12, WeCT1.13, WeCT1.14, WeCT1.15 |
| Optimal operation and control of power systems | FrA18.2, FrA18.3, FrA18.4, FrA18.5, FrA18.6, FrA19.1, FrA19.2, FrA19.5, FrA19.6, FrB02.4, FrB18.2, FrB18.4, FrB19.1, FrB19.2, MoA14.2, MoBT2.4, MoBT2.8, MoBT2.9, MoBT2.10, MoBT2.11, MoC17.5, ThA04.6, ThA14.3, ThA14.5, ThB04.2, ThB04.4, ThB05.3, ThB24.6, ThC23.6, ThC24.2, ThC24.3, ThC24.4, TuA15.4, WeA15.1, WeA16.3, WeA16.4, WeA16.5 |
| Optimization and control of large-scale network systems | FrB01.3, ThCT1.11, TuB14.1, TuB14.2, TuB14.6, TuBT3.7, WeA04.5, WeC23.2, WeC23.3 |
| Output feedback control | FrB08.6, MoCT2.9, ThA10.6, ThA19.2, ThB08.6, ThB20.2, ThBT1.5, ThC07.5, ThC08.1, ThC08.2, ThC08.3, ThC08.4, ThC08.5, TuC04.1, WeC07.3 |
| Output feedback control (linear case) | FrB09.1, FrB09.4, MoB08.4, MoB24.4, ThB08.5, ThBT1.11, ThBT2.4, ThBT2.12, ThC08.6, TuB12.6, TuC09.6, WeA15.4, WeA19.2 |
| Output regulation | FrA16.1, MoB08.4, ThCT3.8, TuA05.5, TuA19.6, WeA05.1 |
| Output regulation for distributed parameter systems | FrB16.2, ThB20.2, TuB07.3 |
| P | Top |
| Parameter and state estimation | MoA21.2, ThA19.1, ThA22.1, ThA22.5, ThB10.4, ThC14.1, ThC14.2, ThC14.6, TuA09.6, TuB17.6, TuC01.1, TuC01.2, WeA12.1, WeB16.5 |
| Parameter estimation based methods for FDI | FrB17.5, ThA17.1, ThA17.2, WeA15.5 |
| Parameter-varying systems | ThC04.1, ThC06.5 |
| Parametric optimization | FrA03.1, FrB04.5, MoC04.3, ThCT1.11, TuB08.6, WeB04.5, WeB04.6, WeC24.1, WeCT2.7 |
| Particle filtering/Monte Carlo methods | MoC17.4, ThA05.3, ThCT3.6, TuBT3.7, TuC03.3, TuC06.2 |
| Passivity-based control | FrA04.4, MoC11.1, ThB08.1, ThB08.2, ThB08.3, ThB08.4, ThB08.5, ThB08.6, ThBT1.1, TuA19.5, TuBT1.5, WeBT1.11, WeBT1.14, WeC05.1 |
| Pattern recognition and artificial intelligence in agriculture | ThB19.1, ThB19.4, ThB19.5 |
| Perception and sensing | FrA05.2, FrA15.1, FrA15.2, FrA15.3, FrA15.5, FrA15.6, MoA11.3, MoCT3.6, MoCT3.10, ThA16.5, ThBT3.2, ThBT3.4, ThBT3.5, ThBT3.11, ThBT3.12, ThC22.6, TuC11.5, WeA01.3, WeA01.5, WeB20.2 |
| Perspectives of e-learning versus traditional learning | MoA12.1 |
| Petri nets | MoC10.6, ThA11.1, ThA11.2, ThB11.2, ThB11.4, ThC11.2, ThC11.3, TuC18.2, TuC18.4, WeB14.5 |
| Pharmaceutical processes | MoA21.1 |
| Pharmacokinetics and drug delivery | ThB22.4, ThCT1.12, TuA24.1, TuA24.4, WeBT2.6 |
| Physiological Model | MoC18.2, MoC18.6, ThA22.2, TuA24.5, TuC24.4, TuC24.5, WeBT2.5, WeBT2.8, WeBT2.11, WeC22.3, WeC22.4 |
| Planning and control problems in freight transportation networks | FrA05.6 |
| Planning and management of ports and terminals | TuB21.4 |
| Planning and management of public transportation | WeC01.4, WeC01.5 |
| Plant factories | WeB21.6 |
| Policy and political decision making | FrA22.1 |
| Polynomial methods | MoC24.3, TuBT2.8 |
| Port Hamiltonian distributed parameter systems | TuBT2.12, WeBT1.2, WeC05.1, WeC05.2, WeC05.3, WeC05.6 |
| Positioning systems | FrB05.1, MoB16.1, ThB12.4, ThCT3.7, TuCT2.12, WeB01.6 |
| Positive systems | MoA01.5, ThBT2.6, TuC01.6, WeA04.2, WeA04.3, WeA04.4, WeA04.5 |
| Post-harvesting and food processing | ThC15.2 |
| Power systems | FrA10.6, MoA17.2, MoB05.2, MoB08.2, ThBT1.5, ThBT1.6, WeBT1.1, WeBT1.13, WeBT1.14 |
| Power systems stability | FrB18.5, MoA17.5, MoBT2.12, MoCT2.4, MoCT2.5, MoCT2.6, ThA14.5, WeA16.4, WeBT1.13 |
| Precision agriculture | ThB19.2, ThB19.4, ThB19.6, ThBT3.4, ThC19.4, ThC19.5, WeA10.6 |
| Precision farming | ThB19.3 |
| Predictive control | FrA03.5, FrA10.4, FrA22.2, FrA22.4, FrB08.2, FrB21.5, MoA20.1, MoA20.6, MoA24.1, MoA24.2, MoA24.3, MoB18.6, MoB24.6, MoC15.1, ThA05.1, ThA05.2, ThA05.3, ThA05.4, ThA05.5, ThA05.6, ThB05.1, ThB05.2, ThB05.3, ThB05.4, ThB05.5, ThB05.6, ThB07.4, ThC05.1, ThC05.2, ThC05.3, ThC05.4, ThC05.5, ThC05.6, ThC10.3, ThC16.2, ThC19.4, ThCT1.1, ThCT1.2, ThCT1.7, TuA09.3, TuA09.5, TuB05.1, TuB05.3, TuB05.4, TuB05.5, TuB07.6, TuBT1.7, TuBT2.2, TuC14.5, TuC21.6, TuCT1.2, TuCT3.7, TuCT3.9, WeA05.6, WeA19.3, WeB02.6, WeB04.1, WeB04.2, WeB04.3, WeB04.4, WeBT1.12, WeCT1.3, WeCT1.4 |
| Probabilistic robustness | FrA03.2, FrA03.5, ThA20.1, ThBT1.9, TuB04.1 |
| Process control | FrA04.1, MoC04.3, TuB07.6, TuB08.1, TuB09.2, WeB19.6, WeC19.5 |
| Process control applications | TuA12.2, TuA12.6, TuA14.1, TuA14.2, TuA14.3, TuA18.3, TuA18.4, TuA18.6, TuC14.3, WeB16.1, WeB16.2, WeB16.3, WeB17.6, WeC08.2, WeC08.4, WeC16.2, WeC16.6 |
| Process modeling and identification | FrA20.5, FrB20.1, FrB20.2, MoCT2.8, ThA15.1, ThA15.2, TuA14.1, TuA14.3, TuA18.1, TuA18.2, TuB07.4, TuC20.1, WeC06.4, WeC08.1, WeC08.2, WeC08.3, WeC08.4, WeC08.5, WeC08.6 |
| Process monitoring and fault diagnosis | FrB20.4, FrB20.5, WeB16.6, WeC16.4 |
| Process observation and parameter estimation | FrA20.6, FrB20.4, TuC20.4, WeB17.4 |
| Process optimisation | MoCT2.11, ThA15.6, TuA11.1, TuA11.2, TuA11.3, TuA12.3, TuA12.4, WeB17.5 |
| Process performance monitoring/statistical process control | FrB17.6, ThA17.5, TuA11.4 |
| Process supervision | FrB24.4, MoB19.1, ThA07.1, WeBT3.6 |
| Production activity control | MoB02.5, ThA07.1, ThA21.4 |
| Production planning and control | FrA01.2, FrA24.4, MoA09.4, MoA09.5, MoC09.3, ThA09.2, ThA09.3, ThA09.4, WeA09.6, WeA14.1, WeA14.2, WeA14.3, WeA14.4, WeA14.5, WeA14.6, WeBT3.11, WeC23.6, WeCT3.13 |
| Prognostics & health management | FrB24.1, FrB24.2, FrB24.3, FrB24.4, FrB24.5, FrB24.6, MoB19.1, MoB19.3, MoB19.5, MoC19.1, TuB23.1, TuB23.2, TuB23.3, TuB23.5, WeBT3.3, WeBT3.4, WeBT3.11, WeCT3.7, WeCT3.8, WeCT3.11, WeCT3.12 |
| Programmable logic controllers | TuB20.3, TuB20.5 |
| Protocols and information communication | WeBT3.8 |
| Q | Top |
| Quality assurance and maintenance | FrA24.5, TuB23.4, WeA09.5, WeB23.4, WeBT3.1 |
| Quantification of physiological parameters for diagnosis and treatment assessment | MoC18.1, ThB22.5, TuC24.3, TuC24.4, TuC24.5, TuC24.6, TuPL.1, WeBT2.10 |
| Quantized control | MoB04.3, TuA05.4, TuBT2.9, WeB08.1 |
| Quantized systems | TuBT1.3, TuC06.2, WeA18.2 |
| Queuing systems and performance model | TuB21.2 |
| R | Top |
| Rail transportation modelling and control systems | MoC15.1, MoC15.2, TuB15.6, TuB17.2, WeBT1.8 |
| Randomized algorithms | ThB05.4, WeB02.6 |
| Randomized methods for modeling, identification and signal processing | FrA02.1, FrA02.2, MoC15.5, TuB06.2 |
| Randomized methods for stochastic systems | TuB13.3, TuC18.6, WeC24.3 |
| Reachability analysis, verification and abstraction of hybrid systems | FrB04.1, FrB04.6, MoA10.1, MoA10.2, ThA11.4, ThCT2.11, TuB18.6, TuC10.5, WeB14.1 |
| Real time control of environmental systems | ThB10.1, ThB10.2, TuC21.3, TuC21.4 |
| Real time optimization and control | MoBT2.1, MoBT2.2, MoBT2.3, MoBT2.5, MoBT2.6, MoBT2.7, MoC04.3, ThBT1.6, ThC23.4, TuA11.5, TuA11.6, TuC14.1, TuC20.1, WeA16.6, WeB16.3, WeC16.6 |
| Real time simulation and dispatching | MoA15.3, ThB24.4, TuA15.4, WeCT2.9 |
| Real-time algorithms, scheduling, and programming | ThB14.4, ThB17.2, ThB17.3, ThB17.5, ThCT2.3, ThCT2.6, TuC10.6, WeA18.3, WeB21.1 |
| Real-time optimal control | FrA03.4, MoA08.1, MoA11.4, MoC03.5, ThC04.2, ThC05.2, ThC22.3, TuA09.2, TuB04.3, TuB08.5, TuCT1.1, TuCT1.13, WeA05.2, WeCT1.1, WeCT1.2, WeCT1.6 |
| Realization theory | TuB13.2, TuC08.3, WeA07.4 |
| Reconfigurable control, sensor and actuator faults | MoA16.2 |
| Recursive identification | FrA02.6, FrB03.6, FrB11.2, MoB10.3, ThB05.4, ThB13.5, ThCT1.1, ThCT3.1, TuB06.2, TuBT3.3, TuBT3.5, TuBT3.11, TuBT3.14 |
| Regulation (linear case) | FrB09.1, MoC07.6, ThB13.1, ThBT2.12, TuB08.1, TuCT1.14 |
| Rehabilitation engineering and healthcare delivery | WeBT2.3, WeBT2.7 |
| Reinforcement learning and deep learning in control | FrA24.1, FrB22.1, MoA01.2, MoBT3.6, MoBT3.8, MoBT3.10, MoBT3.11, MoBT3.12, MoC02.2, MoC16.4, MoC17.1, ThA15.3, ThB14.5, ThB23.1, ThB23.2, ThB23.3, ThB23.4, ThB23.5, ThC08.5, ThC15.6, ThC23.1, ThC23.2, ThC23.3, ThC23.4, ThC23.5, ThC23.6, ThC24.5, TuB02.1, TuB02.2, TuBT1.3, TuBT2.4, TuC02.5, WeA18.1, WeA18.4, WeA18.5, WeB21.2 |
| Remote and distributed control | ThB14.3, ThC22.1, TuB02.5 |
| Remote sensor data acquisition | ThB03.2, TuB02.6, WeBT2.6 |
| Renewable energy system modeling and integration | MoA12.3, MoC01.3, MoC01.4, MoC01.5 |
| Risk management | FrB01.1, FrB01.4 |
| Robot navigation, programming and vision | ThA12.2, ThA12.6, TuA21.5, TuA21.6, TuCT2.7 |
| Robotics | MoCT3.8, ThC03.6, WeC17.2 |
| Robotics technology | FrA15.4, MoCT3.3, MoCT3.10, MoCT3.13, ThA08.3, ThB02.6, ThBT3.3, ThBT3.6, ThC15.2, ThC15.3, ThC15.6, ThC22.2, TuC11.5, TuCT3.9, WeA01.2, WeA01.5, WeB20.4 |
| Robots manipulators | FrA15.1, FrB15.4, MoA11.1, MoA11.2, MoA11.3, MoA11.4, MoA11.5, MoA11.6, MoB11.1, MoB11.2, MoB11.3, MoB11.4, MoB11.5, MoB11.6, MoB15.4, MoB20.4, MoB20.5, ThA11.4, ThA16.5, ThB15.3, ThBT1.11, ThC03.1, ThC03.2, ThC03.3, ThC15.1, ThC22.3, ThC22.6, ThCT1.9, TuB11.5, TuB11.6, TuC11.1, TuCT2.13, WeA11.1, WeA11.2, WeA11.4, WeA11.5, WeA11.6, WeB22.1, WeC11.3 |
| Robust control | FrB08.3, MoA04.4, MoB05.4, MoC04.2, MoC04.4, MoC16.2, MoC24.5, ThA16.2, ThBT1.3, ThBT1.4, ThBT1.5, ThBT1.8, ThBT2.10, TuB04.2, TuC09.3, TuC09.4, TuC15.4, TuC15.5, TuC17.2, TuC17.3, TuC17.4, WeCT2.5 |
| Robust control (linear case) | FrB13.2, FrB13.4, MoA20.6, MoB14.3, MoB16.5, MoC07.4, MoC11.2, MoC11.4, ThA05.5, ThB05.1, ThBT1.2, ThBT1.7, ThBT1.9, ThBT1.10, ThBT1.11, ThBT1.12, TuB05.2, TuC04.6, TuC17.5, WeA20.2, WeB22.6, WeBT1.6 |
| Robust control applications | FrA03.1, MoA20.4, MoC11.2, TuC14.4, TuC16.5, TuC17.2 |
| Robust controller synthesis | FrA03.4, FrB13.2, FrB13.5, MoA20.3, MoA20.4, MoB16.5, MoB18.3, ThBT1.1, ThBT1.8, WeBT1.9, WeCT2.9 |
| Robust estimation | FrA02.1, FrA16.4, FrA16.5, FrB13.1, FrB13.3, FrB13.6, FrB17.4, MoB04.4, ThA19.3, ThB06.2, ThB06.3, ThB06.4, ThB06.5, ThB06.6, ThC06.1, ThC06.2, ThC06.3, ThC06.4, ThC16.4, ThC18.1, TuA09.6, TuBT2.10, WeC04.5, WeC04.6 |
| Robust learning systems | FrB13.1, MoB24.5, ThB05.5, TuA05.2 |
| Robust linear matrix inequalities | MoA20.2, MoA20.3, ThA19.5, ThBT1.1, ThBT1.10, TuC08.2, TuCT1.8, WeB05.3, WeB05.4, WeC14.5 |
| Robust neural and fuzzy control | MoC21.1, MoC21.2, MoC21.3, MoC21.4, MoC21.6 |
| Robust time-delay systems | MoA08.2 |
| Robustness analysis | FrB09.2, FrB13.1, FrB13.4, FrB13.5, MoB21.5, MoC03.6, MoC04.5, MoC08.2, MoC11.4, MoC11.5, MoC11.6, TuA05.3, TuA07.4, TuB08.3, TuBT2.15, TuC17.4, WeB05.1, WeB05.2, WeB05.3, WeB05.4, WeB05.5, WeB05.6, WeC04.6, WeC18.1 |
| Robustness and resilience of human-machine systems (HMS) | ThC13.1, WeC12.3, WeC12.4 |
| S | Top |
| Safety and security in transportation systems | FrA08.4, MoC15.3, TuA08.4, TuC10.2, TuCT2.8, TuCT2.15, TuCT3.13 |
| Sampled-data control | FrB09.5, MoC04.5, MoC04.6, ThB08.5, ThC05.1, ThC08.3, ThC16.1, ThC16.2, ThC16.3, ThC16.4, ThC16.5, ThC16.6, TuA06.4, TuA19.3, TuA19.4, TuA19.5, WeA05.3, WeA19.5, WeBT1.4 |
| Scheduling and optimization of transportation systems | FrA05.4, FrA05.6, ThA10.5, ThB09.4, TuA08.1, TuB15.6, TuBT1.10, WeC01.4, WeC01.5, WeC01.6 |
| Scheduling, coordination, optimization | MoB03.1, MoB03.4, ThA24.1, ThB10.4, WeB18.3, WeB18.6 |
| Security and privacy | FrA22.2, FrB03.6, MoB20.6, ThB03.4, TuC18.5 |
| Security and safety of HMS | ThA11.4, ThB02.2, ThC22.3, WeC12.2, WeC12.5 |
| Security in networked control systems | FrB03.1, FrB03.2, FrB03.3, FrB03.4, FrB06.6, MoA10.2, MoA10.3, MoA10.4, MoA10.5, MoA10.6, MoB10.1, MoB10.2, MoB10.3, MoB10.4, MoB10.5, MoB10.6, MoC10.2, MoC10.3, MoC10.4, MoC10.5, ThB03.2, ThB03.3, ThB03.5, ThB03.6, ThB11.5, TuB18.1, TuB18.5, TuC19.5, TuC19.6, WeB08.2 |
| Security of stochastic systems | FrA07.5, FrB03.1, MoA10.3, MoC06.5, TuC18.6 |
| Semigroup and operator theory | ThB20.2, ThB20.3 |
| Sensing | MoB06.4, TuA16.3, TuA21.2, TuA21.3, WeB03.4, WeC03.5, WeC15.6 |
| Sensor integration and perception | TuCT2.7, TuCT2.10, TuCT3.13, WeB01.5, WeC03.5 |
| Sensor networks | FrA07.1, FrA07.2, FrA07.4, FrB03.2, FrB10.4, MoB10.6, MoC17.2, ThC17.3, TuBT1.13, TuBT3.4, WeB02.2, WeB10.5 |
| Sensors and actuators | TuB12.5 |
| Service engineering applications | MoBT1.8, TuB21.2 |
| Shared control, cooperation and degree of automation | ThB02.4, ThB02.5, ThC13.4, TuB17.1, TuB17.2, TuB17.3, TuB17.4 |
| Signal and identification-based methods | FrA11.4, FrB02.5, FrB17.5 |
| Simulation tools and commercial software | WeC15.3 |
| Singularities in optimization | MoA11.2, MoC03.3, TuA06.1, WeCT1.8, WeCT1.11 |
| Sliding mode control | FrA08.1, MoA04.1, MoA04.2, MoA04.3, MoA04.4, MoA04.5, MoA05.6, MoB04.1, MoB04.2, MoB04.3, MoB04.4, MoB04.5, MoB05.6, MoC04.1, MoC04.2, MoC04.4, MoC04.6, ThA18.3, ThA19.3, ThA19.5, ThB16.5, TuA06.1, TuA06.2, TuA06.3, TuA06.4, TuA06.5, TuA06.6, TuB03.4, TuBT2.10, TuC09.3, TuC17.1, WeA15.2 |
| Smart assembly | WeA09.4 |
| Smart energy grids | MoBT3.7, TuB03.6, TuB24.1 |
| Smart factory | ThC15.2, TuA23.2, TuA23.4, WeA14.4 |
| Smart grids | FrA17.2, FrA19.2, FrA19.3, FrA19.5, FrA19.6, FrB19.1, FrB19.2, FrB19.3, FrB19.4, MoA15.4, MoBT2.12, ThA14.2, ThA14.3, ThA14.4, ThA14.6, ThB05.3, ThB24.1, ThB24.2, ThB24.3, ThB24.6, ThC24.1, ThC24.4, TuA08.3, TuC14.2, WeA16.1, WeA16.2, WeA16.5, WeA16.6, WeB08.4 |
| Smart manufacturing | FrA23.1, FrB23.2, MoA07.5, ThA09.6, ThB09.1, TuB21.6, TuC23.4, WeA09.3, WeA09.4, WeA23.1, WeA23.4, WeB23.1, WeB23.2, WeB23.4, WeBT3.5 |
| Smart manufacturing systems | FrA01.2, FrA23.4, MoA07.5, ThA09.1, TuB21.3, WeBT3.6, WeC21.3, WeCT3.5 |
| Smart parking | MoB01.6, TuA01.5, WeC24.1 |
| Smart structures | ThA08.1, ThA08.2, ThA08.3, ThA08.4, ThA08.5, ThA08.6, TuC12.5, WeA12.1, WeB22.6, WeCT2.3 |
| Social and environmental sustainability | FrA22.3, MoA12.1, MoB01.1, ThB21.6, ThC09.2, ThC21.4, ThC21.5 |
| Social and societal aspects of CPHS, and impact evaluation | MoA12.2, MoB01.4, MoB01.5 |
| Social computing | WeC24.6 |
| Social networks for automation | TuC05.4 |
| Social networks for smart cities | MoA01.6, MoB01.1, MoB01.2, MoBT1.6, MoC01.1, ThC09.1, ThC09.2, ThC09.3, ThC09.4, ThC09.5, WeC24.2, WeC24.6 |
| Social resource planning and management | MoBT1.14, TuC05.1, TuC05.5 |
| Social signal processing | MoB01.2, MoBT1.6 |
| Soft computing in control | MoC02.3, MoC21.5, ThB14.1, ThB14.2, TuB02.4 |
| Software for system identification | TuBT3.8 |
| Software sensors in agriculture | ThB19.1 |
| Space exploration and transportation | ThBT1.4, WeB11.2, WeB11.3, WeB11.5 |
| Stability and stabilization of hybrid systems | ThC11.5, ThC11.6, WeB02.4, WeC09.6 |
| Stability of delay systems | FrA04.6, MoA08.3, MoA08.6, MoB08.1, MoB08.5, ThC20.6, TuB13.6, WeB22.1, WeC14.5 |
| Stability of distributed parameter systems | FrA04.5, FrB09.3, FrB09.4, FrB16.2, ThB20.1, ThC20.2, ThC20.6, TuB07.3, TuC17.1 |
| Stability of hybrid systems | ThBT2.7, TuBT2.15 |
| Stability of nonlinear systems | FrA03.6, FrB04.3, FrB14.6, MoA04.1, MoA04.2, MoA04.4, MoA05.2, MoA05.3, MoA05.5, MoA05.6, MoA08.2, MoA18.6, MoA20.5, MoB04.3, MoB05.1, MoB05.2, MoB05.3, MoB05.4, MoB05.5, MoB05.6, MoB21.1, MoC11.1, MoC11.3, MoC24.5, MoCT2.6, ThA16.4, ThB08.1, ThB08.4, ThB20.1, ThBT2.10, ThC08.4, ThC16.5, ThC18.6, TuA05.3, TuA06.2, TuA06.6, TuA07.6, TuBT2.6, TuBT2.7, TuBT2.11, TuBT2.13, TuBT2.15, TuC04.5, TuC15.1, TuC15.3, WeA04.1, WeA05.2, WeB05.3, WeB19.1, WeBT1.5, WeC07.5, WeC14.3, WeCT1.9 |
| Standardisation in agriculture | ThB19.2 |
| Statistical analysis | ThC17.4, ThCT3.5, TuB13.1 |
| Statistical inference | FrA02.2, MoB06.4, ThB03.4, ThB07.5, ThCT1.3, TuBT3.12 |
| Statistical methods/signal analysis for FDI | FrA17.5, FrB17.3, FrB17.5, FrB20.5, MoA16.5, TuA11.4, WeB16.6 |
| Stochastic adaptive control | MoC06.6, ThCT1.4, TuA20.6, WeB07.6 |
| Stochastic control | FrA03.2, MoC06.6, ThA05.1, ThCT1.4, TuB13.2, TuB13.3, TuB13.4, TuB13.5, TuB13.6, TuBT1.11, TuC03.3, WeA07.1, WeA07.3, WeA07.4, WeA07.5, WeB07.6, WeC02.3, WeC24.5 |
| Stochastic hybrid systems | ThC11.5, WeB02.4 |
| Stochastic optimal control problems | FrA14.5, FrB04.1, FrB04.2, FrB04.3, FrB04.4, FrB04.6, MoA24.6, MoB07.1, MoB07.2, MoB07.6, MoC03.4, TuA05.1, TuBT1.11, TuCT1.7, WeC24.3 |
| Stochastic system identification | FrA02.2, MoC06.1, MoC06.3, TuC06.6, WeB09.3, WeB09.5 |
| Stochastic system identification in signal processing | MoA06.2, ThCT3.1, TuBT3.4, WeB06.1, WeC14.4 |
| Structural analysis and residual evaluation methods | MoA16.2, MoA16.5, TuB16.5 |
| Structural properties | MoC07.3, ThA19.6, ThB20.3, ThC04.1, TuB08.6, TuBT2.8, TuC08.3, TuC08.4, WeC05.2 |
| Subspace methods | FrA02.3, MoA06.2, TuB06.3, TuBT3.9, TuBT3.10, WeC14.2, WeC20.6 |
| Sum-of-squares | FrA03.6 |
| Supervision and testing | ThB06.1 |
| Supervisory control and automata | FrB07.1, FrB07.3, FrB07.4, FrB07.5, MoA10.1, MoC06.6, ThC11.4, TuB18.1, TuB18.3, TuB18.5, TuC19.5, WeB14.1, WeB14.3, WeB14.4, WeB14.5, WeB14.6 |
| Supply chain management | FrA01.4, FrA01.6, FrA23.5, FrA23.6, FrB01.1, FrB01.4, MoA09.1, MoB09.2, MoB09.3, MoC09.3, MoC09.5, ThA07.6, ThA09.3, ThA09.5, ThB09.5, ThCT2.4, TuC23.6, WeA09.6, WeBT3.2, WeCT3.1 |
| Supply chains and networks | FrA01.3, FrA01.6, FrA23.5, MoA07.2, MoA09.1, MoA09.3, MoB09.2, MoB09.5, MoC09.4, MoC09.5, TuC23.6, WeA09.1, WeA09.2, WeCT3.1, WeCT3.9, WeCT3.10 |
| Sustainable Manufacturing | MoA07.3, MoA07.6, MoB02.5, ThB09.1, TuB21.5, TuB21.6, WeA14.1 |
| Swarm robotics | FrA13.6 |
| Switching stability and control | MoB11.2, ThA19.4, ThA19.6, ThBT2.7, ThC11.6, TuA06.5, TuA17.4, TuBT2.14, TuC04.3, WeA20.6, WeC07.4 |
| Synthesis of stochastic systems | TuB13.3, WeA07.1, WeA07.3, WeA07.5, WeB02.4 |
| System analysis and optimization | FrA09.3, FrA09.6, FrB15.1, MoCT3.2, MoCT3.4, MoCT3.9, ThA05.2, ThA08.4, ThB15.1, ThBT3.9, ThCT2.5, TuB12.1, TuB18.6, WeB05.2 |
| System identification and adaptive control of distributed parameter systems | ThA18.1, TuB07.4, WeC05.6 |
| System identification and modelling | FrA20.1, FrA20.2, FrA20.3, FrA20.4, FrA20.6, FrB20.2, MoCT2.12, MoCT2.14, ThB04.5, TuC14.1, TuC14.4, TuC20.4, WeA16.2, WeC08.2 |
| System integration and supervision | FrA12.6 |
| Systems biology | MoA18.1, MoA18.5, WeA04.6, WeC04.5, WeC18.1, WeC18.6 |
| Systems interoperability | WeC21.1 |
| Systems theory | MoBT1.2, MoBT1.4, MoCT1.12, MoCT1.13, TuB19.4, WeB21.3 |
| Systems with saturation | FrB08.6, ThB16.2, TuB08.4 |
| T | Top |
| Task and functional allocation | ThB02.4, ThC13.5, WeC12.1 |
| Teaching curricula developments for control and other engineers | MoA12.4, ThC21.1, TuC22.1, TuC22.2, TuC22.3, TuC22.4, TuC22.5, WeCT2.12 |
| Technologies for control in transportation | FrA05.4, MoA23.5, MoB15.2, MoC15.2, ThB12.6 |
| Tele-maintenance | TuB02.6 |
| Tele-medicine | TuB17.4 |
| Tele-robotics | TuB02.4, TuB02.6 |
| Telecommunication-based automation systems | ThC17.2, ThC17.3, ThCT2.7, TuB02.3, TuB02.5 |
| Teleoperation | FrB05.6, WeA21.4, WeB03.1 |
| Telerobotics | FrA15.4, ThB02.3, ThC22.1, ThC22.2, ThC22.5 |
| Test and documentation | FrB19.5 |
| Thermal and process control applications of distributed parameter systems | FrA04.5, ThA20.4, TuB07.5, TuBT2.3, TuC07.1, WeBT1.2 |
| Time series modelling | FrB24.6, ThA06.6, TuA04.2, TuA20.1, TuA20.5, TuB03.1, TuB06.1, TuB06.2, TuB06.3, TuB06.4, TuB06.6, WeB06.4, WeBT2.9 |
| Time-delay systems | MoA08.1, MoA08.3, MoA08.4, MoA08.5, MoA08.6, MoB04.5, MoB07.1, MoB08.1, MoB08.2, MoB08.3, MoB08.4, MoB08.6, MoB10.3, MoC24.2, ThB20.4, ThBT1.12, ThBT2.1, ThC16.3, TuA05.1, TuB08.2, TuB09.1, TuC04.6, TuC08.5, WeC04.1, WeC14.1, WeC14.2, WeC14.3, WeC14.4, WeC14.5, WeC14.6 |
| Time-invariant systems | MoA20.2, MoB08.3, MoC07.2, MoC07.4, MoC07.5, MoC24.3, ThB06.6, ThBT1.2, ThC06.6, TuA05.3, TuB08.3, TuC08.6, WeA19.4, WeA20.1, WeCT1.12 |
| Time-varying systems | FrB08.5, MoA05.6, MoB05.1, MoB05.6, MoB24.3, ThA05.5, ThB16.4, ThBT2.2, ThC07.1, TuA19.3, TuB09.1, TuBT3.5, TuC16.1, TuC17.5, WeA04.2, WeB05.6 |
| Tracking | FrA10.5, FrB14.6, MoA04.5, MoC12.5, MoC20.6, ThA16.4, ThA16.5, ThA16.6, ThA18.4, ThB16.2, ThB18.5, ThBT2.4, ThC05.3, ThC05.4, TuB04.5, TuBT2.11 |
| Traffic control systems | ThB14.6, ThCT2.7, TuB02.5, WeA18.1, WeA18.5 |
| Trajectory and path planning | FrA05.5, FrA11.3, FrA21.1, FrA21.2, FrA21.3, FrA21.4, FrA21.5, FrB21.1, FrB21.2, FrB21.3, FrB21.5, FrB21.6, MoA11.2, MoA23.4, MoC16.3, MoC23.2, ThA10.4, ThA12.3, ThA12.5, ThA16.1, ThBT3.1, TuA16.2, TuB10.1, TuC16.6, TuCT2.4, TuCT2.6, TuCT2.13, WeB03.3 |
| Trajectory tracking and path following | FrB11.5, FrB21.1, FrB21.4, MoB14.5, MoC20.6, ThA05.4, ThA12.3, ThB12.1, TuA21.2, TuCT2.1, TuCT2.4, WeA21.6, WeC05.5 |
| U | Top |
| UAVs | FrA14.1, FrB22.3, MoB06.1, MoC05.2, ThA18.2, TuA07.1, TuA07.2, TuA07.3, TuA07.4, TuA07.5, TuA07.6, TuB03.4, TuB04.5, WeB21.5, WeC04.1 |
| UAVs in agriculture | FrA16.6, ThB19.3, ThB19.5 |
| Uncertain systems | FrA03.1, FrA03.5, FrB06.2, MoA20.1, MoA20.2, MoA20.3, MoA20.4, MoA20.5, MoA24.5, MoB04.4, MoB06.3, MoB21.5, MoC03.2, MoC04.5, MoC04.6, MoC11.2, MoC11.4, MoC11.5, MoC11.6, MoC24.4, ThB05.1, ThB06.3, ThB06.4, ThB06.5, ThB20.5, ThB20.6, ThBT1.7, ThBT1.10, ThC06.2, ThC06.4, ThCT2.1, ThCT3.13, TuA19.6, TuC08.5, TuC17.6, TuCT1.8, TuCT1.10, WeB05.1, WeB05.5, WeB05.6, WeC18.1 |
| Underwater robotics | FrPL.1, TuC11.4, WeC11.2 |
| Universal access to technology and the digital divide | ThB21.1, ThB21.2 |
| University-industry co-operation in control engineering education | MoCT1.2, MoCT1.3, MoCT1.4, TuC22.6 |
| Unmanned marine vehicles | WeB03.5, WeB03.6, WeC03.3 |
| Unmanned traffic management systems | MoA23.1 |
| Urban healthcare | MoA01.6, MoBT1.8, MoCT1.7, ThC09.1, ThC09.3, ThC09.4 |
| Urban mobility | MoA01.1, MoB01.3, MoC01.1, MoCT1.10, MoCT1.12, ThC09.5, TuA01.3, TuA01.4, TuA01.5, TuC05.3 |
| Urban mobility systems | FrA14.5, MoC15.3 |
| V | Top |
| Vehicle dynamic systems | FrA11.5, FrB02.1, FrB02.3, FrB11.2, MoA23.2, MoB14.4, MoC15.4, MoC15.5, MoC15.6, ThB12.5, TuB10.3, TuCT3.1, WeB01.1, WeB01.2, WeB01.3 |
| Vibration and modal analysis | FrA02.3, FrA06.1, MoA06.5, MoB11.6, ThBT1.9, TuC06.4 |
| Vibration control | FrA09.4, FrA09.5, FrA09.6, FrB16.4, ThB15.6, ThC03.3, TuB12.3, TuC12.3, TuC12.5, WeB22.1, WeB22.2, WeB22.3, WeB22.4, WeB22.5, WeB22.6, WeCT2.2 |
| Virtual and remote labs | FrB03.5, ThC10.3, ThC10.6, WeCT2.12, WeCT2.13, WeCT2.15 |
| Virtual classes, departments, laboratories and schools | WeCT2.12 |
| W | Top |
| Wastewater treatment processes | ThC14.6, WeB18.5 |
| Water quality and quantity management | MoB03.5, MoC17.5 |
| Water supply and distribution systems | FrB01.3, TuC21.1, TuC21.6 |
| Well-posed distributed parameter systems | ThC20.4 |
| Wireless sensing and control systems | FrB03.4, TuBT1.8, TuBT1.9, TuC19.4, WeA10.4 |
| Work in real and virtual environments | MoB20.5, ThBT3.6, ThC13.1, WeC12.2 |
| Y | Top |
| Young engineers in control | MoBT1.7, MoBT1.13, MoCT1.5, MoCT1.6, MoCT1.8, MoCT1.11, MoCT1.13, MoCT1.14, ThB21.1, WeB21.3 |
| |