| nr |
titel |
auteur |
tijdschrift |
jaar |
jaarg. |
afl. |
pagina('s) |
type |
| 1 |
A Comparison of Classical and Reinforcement Learning-based Tuning Techniques for PI controllers ⁎ ⁎ This work is part of the I+D+i TED2021-131655B-I00 research project funded by AEI/10.13039/501100011033/ and “Unión Euro-pea NextGenerationEU”
|
Abad-Alcaraz, V.
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58 |
7 |
p. 180-185
|
artikel
|
| 2 |
Adaptive PI control of temperature with natural ventilation in greenhouses using a bat algorithm variant ⁎ ⁎ This work is a result of the CyberGreen Project, PID2021-122560OB-I00, and the AgroConnect.es facilities, grant EQC2019-006658-P, both funded by MCIN/AEI/10.13039/501100011033 and by ERDF A way to make Europe.
|
García-Mañas, F.
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|
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58 |
7 |
p. 491-496
|
artikel
|
| 3 |
A MATLAB virtual laboratory to support learning of auto-tuning PID approaches
|
Rossiter, J.A.
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|
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58 |
7 |
p. 73-78
|
artikel
|
| 4 |
Analysis and design of PI-based controllers for the axes of European Solar Telescope
|
Ramirez-Cabrera, Airam
|
|
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58 |
7 |
p. 287-292
|
artikel
|
| 5 |
Analysis and Preliminary Results of a Feedback-Feedforward Controller for Depth of Anesthesia
|
Hegedus, Erwin
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|
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58 |
7 |
p. 216-221
|
artikel
|
| 6 |
An IMC decentralized PID controller retuning method based on frequency domain data
|
Ramos, Egydio T.G.
|
|
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58 |
7 |
p. 334-339
|
artikel
|
| 7 |
A Nonlinear Integrator Based on the First-Order Reset Element ⁎ ⁎ This work is supported by ASMPT.
|
van Eijk, Luke F.
|
|
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58 |
7 |
p. 382-387
|
artikel
|
| 8 |
Another Step Towards the Renaissance of Automatic Reset Based Control
|
Huba, M.
|
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58 |
7 |
p. 394-399
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artikel
|
| 9 |
A performant PID autotuner based on a short relay test ⁎ ⁎ This work was supported by a grant of the Romanian Ministry of Research, Innovation and Digitization, PN-III-P1-1.1-PD-2021-0204, within PNCDI III and Flanders Research Foundation, Postdoc grant 1203224N. This work was partly financed by a grant of the Romanian Ministry of Research, Innovation and Digitization, PNRR-III-C9-2022 – I9, grant number 760018/27.01.2023.
|
De Keyser, Robin
|
|
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58 |
7 |
p. 310-315
|
artikel
|
| 10 |
A PID-based control architecture for mobile robot path planning in greenhouses
|
Cañadas-Aránega, Fernando
|
|
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58 |
7 |
p. 503-508
|
artikel
|
| 11 |
A PID-based Structure for MISO Approach to Anaesthesia Control Problem
|
Pawlowski, A.
|
|
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58 |
7 |
p. 240-245
|
artikel
|
| 12 |
A PID Control Architecture Based on IEC 61499 ⁎ ⁎ This work was supported by the Spanish State Research Agency, MCIN/ AEI/10.13039/501100011033 under Grant PID2020-117890RB-I00 and Grant PID2020-115401GB-I00. The work of Guzmán González-Mateos was supported by a grant from the 2022 Edition of Research Programme of the University of León.
|
González-Mateos, Guzmán
|
|
|
58 |
7 |
p. 91-96
|
artikel
|
| 13 |
A proportional-integral observer protocol for secure communication
|
Cecilia, Andreu
|
|
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58 |
7 |
p. 305-309
|
artikel
|
| 14 |
Automated Tuning of Gain-Scheduled PI Controllers Based on SANARX Models
|
Kreutmayr, Fabian
|
|
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58 |
7 |
p. 120-125
|
artikel
|
| 15 |
Automating RTGC with PID Control: Utilizing Camera-Based Image Processing and Object Detection
|
Bandong, Steven
|
|
|
58 |
7 |
p. 299-304
|
artikel
|
| 16 |
Auto-Tuning Software Tool for Inverse Response Model Robust Tuning of 1-DoF PID and FOPID Controllers
|
Madrigal, S.
|
|
|
58 |
7 |
p. 67-72
|
artikel
|
| 17 |
Bridging Time and Frequency for Low-Order, Model-Based PID Control
|
Ortega, M.G.
|
|
|
58 |
7 |
p. 85-90
|
artikel
|
| 18 |
Cascade motion control with synchronised saturation ⁎ ⁎ The authors of this article acknowledge the support of IKERLAN Research Technology Centre (BRTA) and the Computational Intelligence group of UPV/EHU, accredited by the Basque Government (IT1689-22).
|
Bilbao-Moreno, Daniel
|
|
|
58 |
7 |
p. 31-36
|
artikel
|
| 19 |
Classic PID-based control strategies for raceway photobioreactor biomass concentration and water level ⁎ ⁎ This work has been financed by the PID2020–112709RB-C21 project financed by the Spanish Ministry of Science.
|
Otálora, Pablo
|
|
|
58 |
7 |
p. 497-502
|
artikel
|
| 20 |
Comparison of PI/PID/PIDD2 Controllers for Higher Order Processes ⁎ ⁎ Supported by the Starting Research Fund of North China University of Technology.
|
Li, Zhijun
|
|
|
58 |
7 |
p. 340-345
|
artikel
|
| 21 |
Contents
|
|
|
|
58 |
7 |
p. i-vi
|
artikel
|
| 22 |
Contribution to PID and PIDA Interactive Educational Tools
|
Žáková, Katarína
|
|
|
58 |
7 |
p. 115-119
|
artikel
|
| 23 |
Controller tuning with multi-objective optimization: benchmark definitions for SISO linear systems: A PI controller case ⁎ ⁎ This work was partially supported by the Conselho Nacional de Pesquisa e Desenvolvimento (CNPq) - Brazil - Finance Codes: [310195/2022-5-PQ2], [UNIVERSAL 4408164/2021-2].
|
Reynoso-Meza, Gilberto
|
|
|
58 |
7 |
p. 126-131
|
artikel
|
| 24 |
Coupled Continuous PID Controllers for the IFAC Benchmark on Vapor Compression Refrigeration on the Behavioural Setting
|
Hernández-Riveros, Jesús-Antonio
|
|
|
58 |
7 |
p. 484-490
|
artikel
|
| 25 |
Data-Driven Robust Servo Tuning Method Using Fractional-Order PID Controller
|
Jinai, K.
|
|
|
58 |
7 |
p. 436-441
|
artikel
|
| 26 |
Describing Function and Event Based Analysis of a General Class of Piecewise Feedback Control Systems ⁎ ⁎ PID2020-112658RBI00, PID2022-139187OBI00, MCIN/AEI/10.13039/501100011033 and PID2021-126001OB-C31.
|
Dormido, S.
|
|
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58 |
7 |
p. 364-369
|
artikel
|
| 27 |
Design of PD Controllers with Input Saturation for Postprandial Blood Glucose Regulation ⁎ ⁎ This work was partially supported by grant PID2019-107722RB-C21 funded by MCIN/AEI/10.13039/501100011033, CIPROM/2021/012 funded by Conselleria de Innovación, Universidades, Ciencia y Sociedad Digital from Generalitat Valenciana. Corresponding author: Jorge Bondia (jbondia@isa.upv.es).
|
Sanz, Ricardo
|
|
|
58 |
7 |
p. 198-203
|
artikel
|
| 28 |
Estimation of a SOPDT process transfer function for PID tuning
|
Veronesi, Massimiliano
|
|
|
58 |
7 |
p. 55-60
|
artikel
|
| 29 |
ETF dead-time compensation based multiloop control approach for multivariable processes
|
Aldhandi, Suresh
|
|
|
58 |
7 |
p. 25-30
|
artikel
|
| 30 |
Evaluation of GPTs for Control Engineering Education: Towards Artificial General Intelligence
|
de Moura Oliveira, P.B.
|
|
|
58 |
7 |
p. 97-102
|
artikel
|
| 31 |
Feedforward PID Controller Design For a Parabolic Trough Solar Collector ⁎ ⁎ This work has been funded by the National R+D+i Plan Project PID2021-126889OB-I00 of the Spanish Ministry of Science and Innovation and EIE funds.
|
Leal, Marta
|
|
|
58 |
7 |
p. 49-54
|
artikel
|
| 32 |
First-Hand Design of a Fractional order PID for Controlling the Depth of Hypnosis during Induction
|
Mihai, Marcian
|
|
|
58 |
7 |
p. 186-191
|
artikel
|
| 33 |
Fractional Order PID Control of Propofol Dosage and Optimization in Lean and Obese Patients
|
Ynineb, Amani R.
|
|
|
58 |
7 |
p. 228-233
|
artikel
|
| 34 |
Fractional-Order PID Optimal Tuning Rule based on a FOPDT Process Model with Robustness Constraints
|
Madrigal, S.
|
|
|
58 |
7 |
p. 358-363
|
artikel
|
| 35 |
Frequency data driven optimal design of different PI control structures for a multivariable process ⁎ ⁎ This work was supported by Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq).
|
de A. Aguiar, Anna Paula V.
|
|
|
58 |
7 |
p. 376-381
|
artikel
|
| 36 |
Gain Scheduled PI controller design using Multi-Objective Reinforcement Learning
|
Kumar P, Kranthi
|
|
|
58 |
7 |
p. 132-137
|
artikel
|
| 37 |
Generalized Haalman tuning of PIDA controllers ⁎ ⁎ Project co-funded by the European Union – Next Generation Eu - under the National Recovery and Resilience Plan (NRRP), Mission 4 Component 1 Investment 4.1 - Call for tender No. 2333 (22nd December 2023) of Italian Ministry of University and Research; Concession Decree No. 118 (2nd March 2023) adopted by the Italian Ministry of University and Research, Project code D93C23000450005, within the Italian National Program PhD Programme in Autonomous Systems (DAuSy).
|
Campregher, Francesco
|
|
|
58 |
7 |
p. 406-411
|
artikel
|
| 38 |
Genetic PI Controller Tuning to Emulate a Pole Assignment Design ⁎ ⁎ This work was supported by the Bavarian Ministry of Economic Affairs, Regional Development and Energy (StMWi) under Grant DIK0397/03.
|
Ramos, Marco Paz
|
|
|
58 |
7 |
p. 138-143
|
artikel
|
| 39 |
Give us PID controllers and we can control the world ⁎ ⁎ This work has been financed by the following projects: PID2020–112709RB-C21 project financed by the Spanish Ministry of Science.
|
Hägglund, Tore
|
|
|
58 |
7 |
p. 103-108
|
artikel
|
| 40 |
Hierarchical Model-Based Irrigation Control for Vertical Farms
|
Daniels, Annalena
|
|
|
58 |
7 |
p. 472-477
|
artikel
|
| 41 |
Higher-Order Sinusoidal-Input Describing Function Analysis of Fractional-Order Hybrid Integrator-Gain Systems ⁎ ⁎ This work is supported by ASMPT.
|
Hosseini, S. Ali
|
|
|
58 |
7 |
p. 400-405
|
artikel
|
| 42 |
IMC-based tuning of PIDA controllers: a comparison with PID control ⁎ ⁎ This work was supported in part by the Spanish State Research Agency (AEI) under the Project PID2020-112658RBI00/AEI/10.13039/501100011033
|
Visioli, Antonio
|
|
|
58 |
7 |
p. 1-6
|
artikel
|
| 43 |
Improved MOMI tuning method for integrating processes
|
Vrančić, Damir
|
|
|
58 |
7 |
p. 328-333
|
artikel
|
| 44 |
Improving the relay feedback identification by using a gain-changing non-linearity ⁎ ⁎ This work was supported by the research project UJI-B2021-45/21I596 from Universitat Jaume I, Spain, and by the State Research Agency under projects PID2020-112658RBI00 and PID2022-1398187OB-I00.
|
Romero-Pérez, Julio-Ariel
|
|
|
58 |
7 |
p. 418-423
|
artikel
|
| 45 |
Inducing Anaesthesia via Exact Feedback Linearization control
|
Pintea, Paul A.
|
|
|
58 |
7 |
p. 246-251
|
artikel
|
| 46 |
Intermediate Tuning Proposal for Fractional Order PID Controllers with Balanced Servo/Regulation Operation
|
Madrigal, S.
|
|
|
58 |
7 |
p. 352-357
|
artikel
|
| 47 |
i-pIDtune 2.0: An Updated Interactive Tool for Integrated System Identification and PID Control
|
Guzmán, J.L.
|
|
|
58 |
7 |
p. 61-66
|
artikel
|
| 48 |
Marine Wind Turbine PID-PID Torque Control with Vibration Reduction
|
Muñoz-Palomeque, Eduardo
|
|
|
58 |
7 |
p. 509-514
|
artikel
|
| 49 |
Modeling and control scheme of the absorption machine of a solar cooling plant. ⁎ ⁎ This work has been carried out within the framework of the project ”Optimal Station Control based on Solar Energy with Storage for Electric Vehicle Charging (CONSOLVE)”. Grant PID2020-115561RB-C32 funded by MCIN/AEI/10.13039/501100011033 and by “ERDF A way of making Europe”.
|
Satué, M.G.
|
|
|
58 |
7 |
p. 478-483
|
artikel
|
| 50 |
Model Parametrisation and Rule Selection for Problem-tailored PID Autotuning
|
Leva, Alberto
|
|
|
58 |
7 |
p. 43-48
|
artikel
|
| 51 |
MOMI tuning method based on frequency-response data
|
Vrančić, Damir
|
|
|
58 |
7 |
p. 322-327
|
artikel
|
| 52 |
Multi-objective Machine Learning for control performance assessment in PID control loops ⁎ ⁎ This study was financed in part by the Conselho Nacional de Desenvolvimento Científco e Tecnológico (CNPq) via the projects PQ-2/310195/2022-5 & Universal/408164/2021-2.
|
Reynoso-Meza, Gilberto
|
|
|
58 |
7 |
p. 168-173
|
artikel
|
| 53 |
Multiobjective Optimization for PI-based Control Strategies for HVAC Systems in Coaches
|
Delgado, María Luisa
|
|
|
58 |
7 |
p. 156-161
|
artikel
|
| 54 |
Multi-objective Parameter Tuning and Performance Comparison of PI and FOPI Controllers for a Children’s Anesthesia Administration System ⁎ ⁎ This work was partially funded by the National Council of Scientific and Technological Development of Brazil (CNPq) through the grants PQ-2/310195/2022-5 & Universal/408164/2021-2.
|
Arpi, Paul
|
|
|
58 |
7 |
p. 252-257
|
artikel
|
| 55 |
Multiobjective Robust PI Synthesis in Plants with Uncertain Poles
|
Kagami, Ricardo Massao
|
|
|
58 |
7 |
p. 174-179
|
artikel
|
| 56 |
Navigating Language and Terminology in Automatic Control Literature ⁎ ⁎ This work was partially supported by the Wallenberg AI, Autonomous Systems and Software Program (WASP) funded by the Knut and Alice Wallenberg Foundation. All authors from the department of automatic control, Lund university, are members of the ELLIIT Strategic Research Area.
|
Bauer, M.
|
|
|
58 |
7 |
p. 109-114
|
artikel
|
| 57 |
NC-SIMC: Neuro-Controller Simple Internal Model Control
|
Costa, Erbet Almeida
|
|
|
58 |
7 |
p. 162-167
|
artikel
|
| 58 |
Neuron-based back-calculation anti-windup strategy: first results
|
Serrano-Balbontín, Andrés J.
|
|
|
58 |
7 |
p. 388-393
|
artikel
|
| 59 |
Non-linear PI control of a Ladle Furnace
|
Ramírez-Mendoza, M.
|
|
|
58 |
7 |
p. 263-268
|
artikel
|
| 60 |
Nonlinear PID-based temperature control techniques in greenhouses using natural ventilation ⁎ ⁎ This work is a result of the CyberGreen Project, PID2021-122560OB-I00, and the Agroconnect (www.agroconnect.es) facilities, grant EQC2019-006658-P, both funded by MCIN/AEI/ 10.13039/501100011033 and by ERDF A way to make Europe.
|
Berenguel, Manuel
|
|
|
58 |
7 |
p. 454-459
|
artikel
|
| 61 |
On the hybrid MRAC-PID control: A comparison study ⁎ ⁎ This work is a result of the CyberGreen Project, PID2021-122560OBI00, and the Agroconnect (www.agroconnect.es) facilities, grant EQC2019-006658-P, both funded by MCIN/AEI/10.13039/501100011033 and by ERDF A way to make Europe. Igor M. L. Pataro acknowledges the financial support of the National Council for Scientific and Technological Development (CNPq, Brazil) under grant 201143/2019 - 4.
|
Gil, Juan D.
|
|
|
58 |
7 |
p. 37-42
|
artikel
|
| 62 |
Optimal operation of a combined cooling system ⁎ ⁎ This publication is part of the R&D project PID2021-126452OA-I00, funded by MCIN/ AEI/10.13039/501100011033/ and “ERDF A way of making Europe”. The authors would like to thank the Plataforma Solar de Almería for providing access to its facilities.
|
Serrano, Juan Miguel
|
|
|
58 |
7 |
p. 460-465
|
artikel
|
| 63 |
Overactuation for Active Damping in Compliant Positioning Stage using Piezoelectric Transducers
|
Natu, A.M.
|
|
|
58 |
7 |
p. 269-274
|
artikel
|
| 64 |
Pareto Analysis of PI Tuning in Direct Digital Control of Multi-phase Drives ⁎ ⁎ This work is part of the Grant TED2021-129558B-C22 funded by MCIN/AEI/10.13039/501100011033 and by the “European Union NextGenerationEU/PRTR”. Also, the authors want to thank the support provided by project I+D+i/PID2021-125189OB-I00, funded by MCIN/AEI/10.13039/501100011033/ by “ERDF A way of making Europe”.
|
Satué, Manuel G.
|
|
|
58 |
7 |
p. 144-149
|
artikel
|
| 65 |
Performance Comparison of Robust PID and FOPID for an Inverse Response Process Model
|
Meneses, H.
|
|
|
58 |
7 |
p. 13-18
|
artikel
|
| 66 |
PI-based Active Tower Damper for Offshore Wind Turbines
|
López-Romero, M.A.
|
|
|
58 |
7 |
p. 515-520
|
artikel
|
| 67 |
PI-based cascade control for Fresnel solar collectors in wastewater reclamation
|
Rodríguez-García, D.
|
|
|
58 |
7 |
p. 466-471
|
artikel
|
| 68 |
PIDA control of depth of hypnosis in total intravenous anesthesia
|
Milanesi, Marco
|
|
|
58 |
7 |
p. 192-197
|
artikel
|
| 69 |
PID algorithm based on GPC for second-order models with input and output constraints ⁎ ⁎ The authors thank the Brazilian agencies CNPq and CAPES that have partially funded the research under projects: CNPq 403949/2021-1, CNPq 406477/2022-1, CNPq 304032/2019-0, and CAPES/Print-UFSC
|
da Silva, Lucian Ribeiro
|
|
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58 |
7 |
p. 7-12
|
artikel
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| 70 |
PID and Model Predictive Control Approach for Drug Dosage in Anesthesia During Induction: a Comparative Study ⁎ ⁎ This work has been partially supported by the LabEx PERSYVAL-Lab (ANR-11-LABX-0025-01) funded by the French program Investissement d’avenir.
|
Aubouin–Pairault, Bob
|
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58 |
7 |
p. 210-215
|
artikel
|
| 71 |
PID control of data-driven patient response with fixed ratio co-administration of drugs for depth of hypnosis
|
Ionescu, Clara M.
|
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|
58 |
7 |
p. 222-227
|
artikel
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| 72 |
PID Control of DC Actuators. Consideration to Energy Robotic Design
|
Garcia-Chica, Antonio
|
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58 |
7 |
p. 258-262
|
artikel
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| 73 |
PID/FOPID Tuning Rule Based on a Second Order Inverse Response Process Model with Robustness Considerations
|
Madrigal, S.
|
|
|
58 |
7 |
p. 346-351
|
artikel
|
| 74 |
PI Tracking Control of a Nonlinear plant ⁎ ⁎ This work was supported by the UPV.
|
Albertos, P.
|
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|
58 |
7 |
p. 275-280
|
artikel
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| 75 |
Prediction method for closed-loop data for emulated linear time-varying system
|
Kinoshita, Takuya
|
|
|
58 |
7 |
p. 412-417
|
artikel
|
| 76 |
Reference Implementation of the PID Controller ⁎ ⁎ This work was partially supported by the Wallenberg AI, Autonomous Systems and Software Program (WASP) funded by the Knut and Alice Wallenberg Foundation. All authors are members of the ELLIIT Strategic Research Area.
|
Sundström, E.
|
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58 |
7 |
p. 370-375
|
artikel
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| 77 |
Resilient Frequency-shifted IMC-PID Scheme for Mitigating Scaling and Random Attacks in Thermal Plants Amid Delay
|
Aryan, Pulakraj
|
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58 |
7 |
p. 293-298
|
artikel
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| 78 |
Robust FOPID Control of an After-Cooler Heat Exchanger with TES
|
Schiavo, Michele
|
|
|
58 |
7 |
p. 281-286
|
artikel
|
| 79 |
Robust Fractional Order PID Controller Coupled with a Nonlinear Filtered Smith Predictor for Solar Collector Fields ⁎ ⁎ This work has been funded by the National R+D+i Plan Projects PID2020-112709RB-C21, PID2021-126889OB-I00 of the Spanish Ministry of Science and Innovation and EIE funds. Igor M. L. Pataro acknowledges the financial support of the National Council for Scientific and Technological Development (CNPq, Brazil) under grant 201143/2019-4.
|
Pataro, Igor M.L.
|
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|
58 |
7 |
p. 234-239
|
artikel
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| 80 |
Robust PID controller tuning using bilevel optimization
|
Cammann, Lucas
|
|
|
58 |
7 |
p. 316-321
|
artikel
|
| 81 |
Seamless PID–MPC Hybrid Control ⁎ ⁎ This work was partially supported by the Wallenberg AI, Autonomous Systems and Software Program (WASP) funded by the Knut and Alice Wallenberg Foundation. All authors are members of the ELLIIT Strategic Research Area.
|
Norlund, F.
|
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58 |
7 |
p. 19-24
|
artikel
|
| 82 |
sic!PI – simple intuitive PI controller
|
Bratek, Waldemar
|
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58 |
7 |
p. 448-453
|
artikel
|
| 83 |
SIR Epidemic Control Using a 2DoF IMC-PID with Filter Control Strategy
|
Rivera, D.E.
|
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58 |
7 |
p. 204-209
|
artikel
|
| 84 |
Sliding Mode Control Approach for H2 Purity Regulation in High-Pressure Alkaline Electrolyzers
|
Uribe, Jorge
|
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|
58 |
7 |
p. 424-429
|
artikel
|
| 85 |
Study of the feasibility regions for a kind of event-based PI controllers ⁎ ⁎ This work was supported by Universitat Jaume I project UJI-B2021-45/21I596, and by Spanish Research Agency under grants PID2021-125634OB-I00, and TED2021-130120B-C22, ERDF, EU
|
Miguel-Escrig, Oscar
|
|
|
58 |
7 |
p. 442-447
|
artikel
|
| 86 |
Teaching PID to Future Professionals as a Contribution to Fill a Historical Gap
|
Leva, Alberto
|
|
|
58 |
7 |
p. 79-84
|
artikel
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| 87 |
Transient Response Analysis of Reset PID Control Systems ⁎ ⁎ This work was not supported by any research agency.
|
Zhang, Xinxin
|
|
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58 |
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p. 430-435
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Utopian robust efficiency indicator for robust PID multi-objective tunning ⁎ ⁎ This work was supported in part by the grant PID2021-124908NB-I00 founded by MCIN/AEI/10.13039/50110001 1033/ and by “ERDF A way of making Europe”; by grant PRE2019-087579 funded by MCIN/AEI/ 10.13039/501100 011033 and by “ESF Investing in your future”; and by the Generalitat Valenciana regional government through project CIAICO/2021/064.
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Veyna, Uriel
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