Structural Engineering · Lehigh University
Faisal Nissar Malik
Ph.D. Candidate working on multi-physics real-time cyber-physical (hybrid) simulation, machine learning for structural dynamics, and sustainable and resilient infrastructure.
My research focuses on advancing the assessment and design of infrastructure systems subjected to extreme loading through the development of real-time hybrid simulation (RTHS) frameworks that couple physical experiments with high-fidelity computational models. My work emphasizes multi-physics cyber-physical simulations incorporating soil-structure, fluid-structure, and aeroelastic interaction effects using neural-network based surrogate models and real-time digital twins. The insights gained from these frameworks are applied toward the design and experimental validation of resilient structural systems, including shape-memory-alloy damping systems, nonlinear damping devices, mass timber structures among others.
RTHS & Digital Twins
Real-time cyber-physical simulation with online model updating.
Multi-physics Simulations
Soil-structure, fluid-structure, and aeroelastic interaction.
Resilient Structures
SMA dampers, nonlinear damping devices, and mass timber systems.
News
- Real-time hybrid simulations of mass timber CLT rocking walls with sand and shape memory alloy-based friction dampers
- Hybrid Simulation 101: Short Course on Theory, Implementation, and Application of Real-time Hybrid Simulation by James Ricles, Faisal Nissar Malik and Thomas Marullo
- MS students, Mr. Aditya Raj and Mr. Malik Faisal Nissar, have been awarded the First Prize in the INSDAG Steel Design Competition