Follow
Mohammed Saad Faizan Bangi
Mohammed Saad Faizan Bangi
Doctoral candidate, Texas A&M University
Verified email at tamu.edu
Title
Cited by
Cited by
Year
Deep hybrid modeling of chemical process: Application to hydraulic fracturing
MSF Bangi, JSI Kwon
Computers & Chemical Engineering 134, 106696, 2020
1382020
Operable adaptive sparse identification of systems: Application to chemical processes
B Bhadriraju, MSF Bangi, A Narasingam, JSI Kwon
AIChE Journal 66 (11), e16980, 2020
832020
Deep neural network-based hybrid modeling and experimental validation for an industry-scale fermentation process: Identification of time-varying dependencies among parameters
P Shah, MZ Sheriff, MSF Bangi, C Kravaris, JSI Kwon, C Botre, J Hirota
Chemical Engineering Journal 441, 135643, 2022
792022
Physics-informed neural networks for hybrid modeling of lab-scale batch fermentation for β-carotene production using Saccharomyces cerevisiae
MSF Bangi, K Kao, JSI Kwon
Chemical Engineering Research and Design 179, 415-423, 2022
702022
Deep hybrid model‐based predictive control with guarantees on domain of applicability
MSF Bangi, JSI Kwon
AIChE Journal 69 (5), e18012, 2023
372023
Deep reinforcement learning control of hydraulic fracturing
MSF Bangi, JSI Kwon
Computers & Chemical Engineering 154, 107489, 2021
362021
Enlarging the domain of attraction of the local dynamic mode decomposition with control technique: Application to hydraulic fracturing
MSF Bangi, A Narasingam, P Siddhamshetty, JSI Kwon
Industrial & Engineering Chemistry Research 58 (14), 5588-5601, 2019
272019
Dynamic modeling and offset-free predictive control of LNG tank
YP Jo, MSF Bangi, SH Son, JSI Kwon, SW Hwang
Fuel 285, 119074, 2021
232021
Multi‐rate observer design and optimal control to maximize productivity of an industry‐scale fermentation process
P Shah, MZ Sheriff, MSF Bangi, C Kravaris, JSI Kwon, C Botre, J Hirota
AIChE Journal 69 (2), e17946, 2023
222023
Deep neural network-based hybrid modeling and experimental validation for a full-scale bio-fermentation process: Identification of time-varying dependencies among parameters
P Shah, Z Sheriff, MSF Bangi, J Kwon, C Kravaris, C Botre, J Hirota
Available at SSRN 3978852, 2022
32022
Universal hybrid modeling of batch kinetics of aerobic carotenoid production using Saccharomyces Cerevisiae
MSF Bangi, JSI Kwon
2022 American Control Conference (ACC), 3716-3721, 2022
22022
Modeling, order-reduction, and controller design of hydraulic fracturing
P Shah, MSF Bangi, JS Kwon
Energy Systems and Processes: Recent Advances in Design and Control, 12-1, 0
2
Developing a hybrid model of a biochemical fermentation process
C Kravaris, J Kwon, P Shah, MZ Sheriff, MSF Bangi, C Botre, J Hirota
US Patent App. 18/037,296, 2024
12024
Control Lyapunov-Barrier function-based predictive control using a deep hybrid model with guarantees on domain of applicability
MSF Bangi, JSI Kwon
2023 American Control Conference (ACC), 1819-1824, 2023
2023
ORDER-REDUCTION, AND CONTROLLER DESIGN OF HYDRAULIC FRACTURING
P Shah, MSF Bangi, JSI Kwon
Energy Systems and Processes, 1, 2023
2023
Hybrid Modeling Using Universal Differential Equations for Lab-Scale Batch Production of β-Carotene Using Saccharomyces Cerevisiae
MSF Bangi, K Kao, J Kwon
2022 AIChE Annual Meeting, 2022
2022
Closed-Loop Optimal Control Operation of an Industry-Scale Bioreactor and Experimental Validation
P Shah, MZ Sheriff, MSF Bangi, J Kwon, C Kravaris, C Botre, J Hirota
2022 AIChE Annual Meeting, 2022
2022
Hybrid Model-Based MPC with Guarantees on Stability and Applicability Domain: Application to Chemical, Biochemical, and Hydraulic Fracturing Systems
MSF Bangi, J Kwon
2022 AIChE Annual Meeting, 2022
2022
Meta-Modeling-Based Sensitivity Analysis of Hybrid Models
SV Lakhwani, P Shah, MSF Bangi, J Kwon
2022 AIChE Annual Meeting, 2022
2022
Hybrid Modeling Approaches Integrating Physics-Based Models with Machine Learning for Predictive Control of Biological and Chemical Processes
MSF Bangi
Texas A&M University, 2022
2022
The system can't perform the operation now. Try again later.
Articles 1–20