| Nome |
# |
|
Visualizing Classification Results: Confusion Star and Confusion Gear, file e40f7b8a-e590-afca-e053-6605fe0aeaf2
|
379
|
|
Model Predictive Control for systems with changing setpoints, file e40f7b89-4a3b-afca-e053-6605fe0aeaf2
|
313
|
|
Application of Model predictive control suitable for closed loop re-identification to a polymerization reactor, file e40f7b89-c058-afca-e053-6605fe0aeaf2
|
275
|
|
Economic model predictive control for energy management of a microgrid connected to the main electrical grid, file fdd8157e-825c-438d-a583-677fb3d636b9
|
247
|
|
MPC for tracking of constrained nonlinear systems, file e40f7b89-3fe2-afca-e053-6605fe0aeaf2
|
205
|
|
Distributed Model Predictive Control for Tracking: A Coalitional Clustering Approach, file e40f7b8a-5f4d-afca-e053-6605fe0aeaf2
|
178
|
|
i-Steps Closed-Loop Sets for Constrained Linear Systems under Model Predictive Control, file e40f7b89-bbbf-afca-e053-6605fe0aeaf2
|
161
|
|
Application of Model predictive control suitable for closed loop re-identification to a polymerization reactor, file e40f7b89-3ca0-afca-e053-6605fe0aeaf2
|
154
|
|
On Economic Optimality of Model Predictive Control, file e40f7b89-3afd-afca-e053-6605fe0aeaf2
|
143
|
|
Impulsive Zone MPC for Type I Diabetic Patients based on a long-term model, file e40f7b89-6152-afca-e053-6605fe0aeaf2
|
113
|
|
Discrete-time MPC for switched systems with applications to biomedical problems, file e40f7b89-4d12-afca-e053-6605fe0aeaf2
|
104
|
|
Suspended Load Path Tracking Control Strategy using a Tilt-rotor UAV, file e40f7b89-5fce-afca-e053-6605fe0aeaf2
|
104
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|
NMPC Strategy for a Quadrotor UAV in a 3D Unknown Environment, file e40f7b8b-7390-afca-e053-6605fe0aeaf2
|
99
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|
Path Following and Trajectory Tracking Model Predictive Control using Artificial Variables for Constrained Vehicles, file e40f7b89-46f2-afca-e053-6605fe0aeaf2
|
93
|
|
Discrete-time switching MPC with applications to mitigate resistance in viral infections, file e40f7b89-c3b9-afca-e053-6605fe0aeaf2
|
88
|
|
Control predictivo para seguimiento de sistemas no lineales. Aplicación a una planta piloto, file e40f7b89-3ca2-afca-e053-6605fe0aeaf2
|
86
|
|
MPC for tracking of constrained nonlinear systems, file e40f7b89-fd23-afca-e053-6605fe0aeaf2
|
80
|
|
A Modifier-Adaptation Approach to the One-Layer Economic MPC, file e40f7b89-a40c-afca-e053-6605fe0aeaf2
|
76
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|
NMPC Strategy for a Quadrotor UAV in a 3D Unknown Environment, file e40f7b89-46f5-afca-e053-6605fe0aeaf2
|
68
|
|
A robust Economic MPC for Changing Economic Criterion, file e40f7b89-46ea-afca-e053-6605fe0aeaf2
|
65
|
|
Model predictive control for optimal social distancing in a type SIR-switched model, file e40f7b8a-59cb-afca-e053-6605fe0aeaf2
|
64
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|
Minimizing the epidemic final size while containing the infected peak prevalence in SIR systems, file 2e808914-191b-4749-af8d-d61a35094fa2
|
62
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|
Model Predictive Control Structures for Periodic ON–OFF Irrigation, file cb4ef480-f920-4307-a667-b015baf656c6
|
57
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|
Artificial pancreas under stable pulsatile MPC: improving the closed-loop performance, file e40f7b89-4cb3-afca-e053-6605fe0aeaf2
|
57
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|
Nonlinear MPC for Tracking Piecewise-Constant Reference Signals: the Positive Semidefinite Stage Cost Case, file 044431d8-631e-4763-acde-51f7ceddab3e
|
56
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On stability of nonzero set-point for non linear impulsive control systems, file e40f7b89-925e-afca-e053-6605fe0aeaf2
|
56
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Optimal single-interval control for SIR-type systems, file 578b74dd-e172-4119-ba10-6e31a6056111
|
55
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|
Artificial pancreas under periodic MPC for trajectory tracking: handling circadian variability of insulin sensitivity, file 842397f3-8f1b-4eb4-90c1-d14d4c730e95
|
53
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|
Nonlinear MPC for tracking piece-wise constant reference signals, file e40f7b89-46e4-afca-e053-6605fe0aeaf2
|
49
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|
A robust gradient-based MPC for integrating Real Time Optimizer (RTO) with control, file e40f7b89-37c2-afca-e053-6605fe0aeaf2
|
48
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|
Determining the Importance of Physicochemical Properties in the Perceived Quality of Wines, file 2ba2b92b-02e7-46ff-ba20-be116e09cbb2
|
47
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Extended MPC for Closed-Loop re-identification based on probabilistic invariant sets, file e40f7b89-362b-afca-e053-6605fe0aeaf2
|
47
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|
Tube-based MPC with Nonlinear Control for Load Transportation using a UAV, file e40f7b89-62ff-afca-e053-6605fe0aeaf2
|
44
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|
MPC with State Window Target Control in Linear Impulsive Systems, file e40f7b89-362d-afca-e053-6605fe0aeaf2
|
43
|
|
Impacts of Quantifying Social Distancing Measures on Mpc Performance for Sir-Type Systems, file 017cb010-4850-469e-8a25-b2f7ec52880a
|
42
|
|
A zone control strategy for stochastic model predictive control, file e40f7b89-3629-afca-e053-6605fe0aeaf2
|
42
|
|
Model Predictive Control Suitable for closed-loop re-identification, file e40f7b89-3e4b-afca-e053-6605fe0aeaf2
|
42
|
|
MPC for tracking with maximum domain of attraction, file e40f7b89-489e-afca-e053-6605fe0aeaf2
|
42
|
|
Cooperative distributed MPC for tracking, file e40f7b89-90c1-afca-e053-6605fe0aeaf2
|
41
|
|
MPC for tracking of constrained nonlinear systems, file e40f7b89-924c-afca-e053-6605fe0aeaf2
|
41
|
|
Economic Model Predictive Control for energy management in a microgrid, file e40f7b89-5cb9-afca-e053-6605fe0aeaf2
|
40
|
|
Probabilistic Invariant Set for closed-loop re-identification, file e40f7b89-77bf-afca-e053-6605fe0aeaf2
|
40
|
|
Cooperative distributed MPC for tracking, file e40f7b89-3e35-afca-e053-6605fe0aeaf2
|
37
|
|
A gradient-based Economic MPC suitable for industrial applications, file e40f7b89-3e4d-afca-e053-6605fe0aeaf2
|
36
|
|
Distributed MPC for tracking. Application to a 4 tanks plant, file e40f7b89-90b9-afca-e053-6605fe0aeaf2
|
34
|
|
GLISp-r: a preference-based optimization algorithm with convergence guarantees, file 064a3f4b-0d72-4a9b-ac3f-5a2314c1230b
|
32
|
|
CHoKI-based MPC for blood glucose regulation in artificial Pancreas, file 45ad60a5-d32e-4e46-af8c-2fb1974111b5
|
32
|
|
Artificial Pancreas under a Zone Model Predictive Control based on Gaussian Process models: toward the personalization of the closed loop, file a6757a29-8bb3-47ec-a47f-28691072e858
|
31
|
|
Application of Model predictive control suitable for closed loop re-identification to a polymerization reactor, file e40f7b89-c17d-afca-e053-6605fe0aeaf2
|
31
|
|
Finite-time convergence results in robust Model Predictive Control, file e40f7b89-6163-afca-e053-6605fe0aeaf2
|
30
|
|
On Economic Optimality of Model Predictive Control, file e40f7b89-a42a-afca-e053-6605fe0aeaf2
|
30
|
|
MPC for tracking with optimal closed-loop performance, file e40f7b89-3fcf-afca-e053-6605fe0aeaf2
|
29
|
|
Closed-loop MPC-based artificial pancreas: Handling circadian variability of insulin sensitivity, file e40f7b89-5978-afca-e053-6605fe0aeaf2
|
29
|
|
MPC for tracking of constrained nonlinear systems, file e40f7b89-9247-afca-e053-6605fe0aeaf2
|
29
|
|
A gradient-based Economic MPC suitable for industrial applications, file e40f7b89-fd80-afca-e053-6605fe0aeaf2
|
29
|
|
Distributed MPC for tracking. Application to a 4 tanks plant, file e40f7b89-dd0b-afca-e053-6605fe0aeaf2
|
28
|
|
Model Predictive Control Suitable for closed-loop re-identification, file e40f7b89-dd0c-afca-e053-6605fe0aeaf2
|
27
|
|
Characterization of SARS-CoV-2 dynamics in the host, file e40f7b8b-484f-afca-e053-6605fe0aeaf2
|
27
|
|
MPC for tracking target sets, file e40f7b89-3fd7-afca-e053-6605fe0aeaf2
|
26
|
|
MPC for tracking of constrained nonlinear systems, file e40f7b89-fd24-afca-e053-6605fe0aeaf2
|
25
|
|
Optimal MPC for tracking of constrained linear systems, file e40f7b89-3e4f-afca-e053-6605fe0aeaf2
|
23
|
|
Probabilistic Invariant Sets for Closed-Loop Re-Identification, file e40f7b89-761c-afca-e053-6605fe0aeaf2
|
23
|
|
Robust and Stochastic MPC for tracking: a performance comparison, file e40f7b89-46ef-afca-e053-6605fe0aeaf2
|
22
|
|
Modeling a residential microgrid for energy management, file e40f7b89-64d1-afca-e053-6605fe0aeaf2
|
22
|
|
L-Band SBQP-based MPC for supermarket refrigeration systems, file e40f7b89-3fd5-afca-e053-6605fe0aeaf2
|
21
|
|
Offset-free multi-model economic model predictive control for changing economic criterion, file e40f7b89-6154-afca-e053-6605fe0aeaf2
|
21
|
|
Steady-state target optimization designs for integrating real-time optimization and model predictive control, file e40f7b89-90ad-afca-e053-6605fe0aeaf2
|
21
|
|
Input-to-state stability: an unifying framework for robust model predictive control, file e40f7b89-9245-afca-e053-6605fe0aeaf2
|
20
|
|
Robust tube-based MPC for tracking applied to the quadruple tank process, file e40f7b89-3fdc-afca-e053-6605fe0aeaf2
|
18
|
|
Enhanced robust NMPC based on nominal predictions, file e40f7b89-90c3-afca-e053-6605fe0aeaf2
|
18
|
|
Finite-time convergence results in robust Model Predictive Control, file e40f7b89-46ec-afca-e053-6605fe0aeaf2
|
17
|
|
Tuning Methodology for Industrial Predictive Controllers Applied to Natural Gas Processing Unit, file e40f7b89-3625-afca-e053-6605fe0aeaf2
|
16
|
|
Integrating the RTO in the MPC: an adaptive gradient-based approach., file e40f7b89-3e3b-afca-e053-6605fe0aeaf2
|
16
|
|
Control by pulses under MPC schemes, with applications to artificial pancreas, file e40f7b89-46f7-afca-e053-6605fe0aeaf2
|
15
|
|
Obstacle Avoiding Path Following based on Nonlinear Model Predictive Control using Artificial Variables, file e40f7b89-4b1c-afca-e053-6605fe0aeaf2
|
15
|
|
MPC for tracking with optimal closed-loop performance, file e40f7b89-3fde-afca-e053-6605fe0aeaf2
|
11
|
|
Application of Model Predictice Control suitable for closed-loop re-indentification to a polymerization reactor, file e40f7b89-48a8-afca-e053-6605fe0aeaf2
|
11
|
|
Impulsive Zone Model Predictive Control with Application to Type I Diabetic Patients, file e40f7b89-46e0-afca-e053-6605fe0aeaf2
|
10
|
|
Control Strategies for Non-zero Set-point Regulation of Linear Impulsive Systems, file e40f7b89-46e2-afca-e053-6605fe0aeaf2
|
10
|
|
Stochastic model predictive control for tracking linear systems, file e40f7b89-488e-afca-e053-6605fe0aeaf2
|
10
|
|
Editorial Model Predictive Control for Energy Systems: Economic and Distributed Approaches, file e40f7b89-6d96-afca-e053-6605fe0aeaf2
|
10
|
|
Economic MPC for a changing economic criterion, file e40f7b89-3fcb-afca-e053-6605fe0aeaf2
|
9
|
|
A robust economic MPC for changing economic criterion, file e40f7b89-3627-afca-e053-6605fe0aeaf2
|
8
|
|
Stable impulsive zone model predictive control for type 1 diabetic patients based on a long-term model, file e40f7b89-4890-afca-e053-6605fe0aeaf2
|
8
|
|
One-layer gradient-based MPC+RTO of a propylene/propane splitter, file e40f7b89-6158-afca-e053-6605fe0aeaf2
|
8
|
|
MPC for tracking zone regions, file e40f7b89-90c7-afca-e053-6605fe0aeaf2
|
8
|
|
Economic MPC for a changing economic criterion for linear systems, file e40f7b89-3af5-afca-e053-6605fe0aeaf2
|
7
|
|
Model predictive control suitable for closed-loop re-identification, file e40f7b89-3c99-afca-e053-6605fe0aeaf2
|
7
|
|
Model predictive control suitable for closed-loop re-identification, file e40f7b89-3e37-afca-e053-6605fe0aeaf2
|
7
|
|
Robust MPC for tracking zone regions based on nominal predictions, file e40f7b89-3e3f-afca-e053-6605fe0aeaf2
|
7
|
|
Economic performance assessment and monitoring in LP-DMC type controller applications, file e40f7b89-4549-afca-e053-6605fe0aeaf2
|
7
|
|
Model Predictive Periodic Output Path Following, file e40f7b89-5cb8-afca-e053-6605fe0aeaf2
|
7
|
|
On Economic Optimality of Model Predictive Control, file e40f7b89-3af9-afca-e053-6605fe0aeaf2
|
6
|
|
A gradient-based strategy for the one-layer RTO+MPC controller, file e40f7b89-706f-afca-e053-6605fe0aeaf2
|
6
|
|
Impulsive Zone Model Predictive Control (iZMPC) for Therapeutic Treatments: Application to HIV Dynamic, file e40f7b89-46de-afca-e053-6605fe0aeaf2
|
5
|
|
Robust MPC suitable for closed-loop re-identification, based on probabilistic invariant sets, file e40f7b89-46e8-afca-e053-6605fe0aeaf2
|
5
|
|
Optimal MPC for tracking constrained linear systems, file e40f7b89-9252-afca-e053-6605fe0aeaf2
|
5
|
|
Economic optimality in MPC: A comparative study, file e40f7b89-3631-afca-e053-6605fe0aeaf2
|
4
|
|
Sistemas domóticos inalámbricos, file e40f7b89-37c6-afca-e053-6605fe0aeaf2
|
4
|
|
A robust gradient-based MPC for integrating Real Time Optimizer (RTO) with control, file e40f7b89-43a2-afca-e053-6605fe0aeaf2
|
4
|
| Totale |
5.113 |