1 |
The integration of scheduling and control: Top-down vs. bottom-up Caspari A, Tsay C, Mhamdi A, Baldea M, Mitsos A Journal of Process Control, 91, 50, 2020 |
2 |
Decomposition of integrated scheduling and dynamic optimization problems using community detection Mitrai I, Daoutidis P Journal of Process Control, 90, 63, 2020 |
3 |
Optimal demand response scheduling of an industrial air separation unit using data-driven dynamic models Tsay C, Kumar A, Flores-Cerrillo J, Baldea M Computers & Chemical Engineering, 126, 22, 2019 |
4 |
Production scheduling and linear MPC: Complete integration via complementarity conditions Simkoff JM, Baldea M Computers & Chemical Engineering, 125, 287, 2019 |
5 |
A simulation-based optimization framework for integrating scheduling and model predictive control, and its application to air separation units Dias LS, Pattison RC, Tsay C, Baldea M, Ierapetritou MG Computers & Chemical Engineering, 113, 139, 2018 |
6 |
Integrated scheduling of rolling sector in steel production with consideration of energy consumption under time-of-use electricity prices Zhao SN, Grossmann IE, Tang Lx Computers & Chemical Engineering, 111, 55, 2018 |
7 |
An efficient MILP framework for integrating nonlinear process dynamics and control in optimal production scheduling calculations Kelley MT, Pattison RC, Baldick R, Baldea M Computers & Chemical Engineering, 110, 35, 2018 |
8 |
Dynamic models and fault diagnosis-based triggers for closed-loop scheduling Touretzky CR, Harjunkoski I, Baldea M AIChE Journal, 63(6), 1959, 2017 |
9 |
Integrated production scheduling and model predictive control of continuous processes Baldea M, Du J, Park J, Harjunkoski I AIChE Journal, 61(12), 4179, 2015 |
10 |
A time scale-bridging approach for integrating production scheduling and process control Du J, Park J, Harjunkoski I, Baldea M Computers & Chemical Engineering, 79, 59, 2015 |