Imran Tusar, Ph.D.
Education
- Ph.D. in Industrial Engineering (Major) and Applied Statistics (Minor), Louisiana State University (LSU), Louisiana, 2024
- MS in Manufacturing Engineering, Bangladesh University of Engineering and Technology (BUET), Dhaka, Bangladesh, 2019
- BS in Industrial and Production Engineering (IPE), Bangladesh University of Engineering and Technology (BUET), 2016
Academic Positions
- Assistant Professor, Bowling Green State University, Ohio (June 2024 - Present)
- Assistant Professor, Dhaka University of Engineering & Technology (DUET), Bangladesh, (August 2019 – June 2024)
- Lecturer, Dhaka University of Engineering & Technology (DUET), Bangladesh, (October 2016 – August 2019)
Industry Positions
- Senior Associate, Workforce Performance Improvement, Kaufman Hall & Associates, Chicago, IL 60606 (May 2023 – August 2023)
Areas of Research
- Modeling of Manufacturing and Supply Chain Systems
- Mathematical Programming, Operations Research, Statistical Process Control
- Facility Design, System Simulation, Process Improvement, Lean Manufacturing
Courses Taught
- SYE 4010: Facility Design and Plant Layout
- LSE 5020: Logistics Transportation Systems
- IE 4520: Supply Chain Logistics II
- IPE 4761: Operations Management
- IPE 4707: CAD/CAM
- IPE 3715: Operations Research
- IPE 3720: Product Design and Development
- IPE 2705: Engineering Economy
Tusar, M. I. H. and Sarker, B. R. (2022), “Maintenance cost minimization models for offshore wind farms: A systematic and critical review,” International Journal of Energy Research, 46(4): 3739-3765.
Tusar, M. I. H. and Sarker, B. R. (2022), “Spare parts control strategies for offshore wind farms: a critical review and comparative study,” Wind Engineering, 46(5): 1629-1656.
Tusar, M.I.H. and Sarker, B. R. (2023), “Developing the optimal vessel fleet size and mix model to minimize the transportation cost of offshore wind farms,” Ocean Engineering, 272: Article #114041. https://doi.org/10.1016/j.oceaneng.2023.114041
Tusar, M.I.H. and Sarker, B. R. (2023), “Location and turbine parameters selection for offshore wind power maximization,” Wind Engineering, 47(4):833-851. doi:10.1177/0309524X231165484
Tusar, M. I. H. and Sarker, B. R. (2024). Technician assignment in multi-shift maintenance schedules in an offshore wind farm. Renewable Energy Focus, 100616.
Tusar, I. H., Zaman, P. B., Mia, M., Saha, S. and Dhar, N. R. (2023), “Influence of grinding parameters on surface roughness and temperature under carbon nanotube assisted MQL,” Advances in Materials and Processing Technologies, 9(1): 92-115.
Zaman, P. B., Tusar, M. I. H. and Dhar, N. R. (2022), “Selection of appropriate process inputs for turning Ti-6Al-4V alloy under hybrid Al2O3-MWCNT nano-fluid based MQL,” Advances in Materials and Processing Technologies, 8(1): 380-400.
Saha, S., Zaman, P. B., Tusar, M. I. H. and Dhar, N. R. (2022), “Multi-objective genetic algorithm (MOGA) based optimization of high-pressure coolant assisted hard turning of 42CrMo4 steel,” International Journal on Interactive Design and Manufacturing (IJIDeM), 16(3): 1253-1272.
Azam, N. S., Alam, A. R., Roy, A., Hossain, M. J., Tusar, M. I. H. and Rahman, M. A. (2020), “Optimization of sewing line production rate and cost using taguchi signal-to-noise method,” Journal of Production Systems and Manufacturing Science, 1(1): 19-28.
Updated: 09/24/2024 09:50AM