A multi-physics, multi-domain simulations expert, Mandar’s vision for growth of technology is optimizing simulation techniques by integrating mathematical models from multiple domains. He has successfully completed various projects at the intersections of fluid flow, heat transfer, phase change, fluid-structure-interaction, electromagnetism, structural-electromagnetism, reactions and wireless power transfer. He has designed and developed various simulation apps. He is passionate about technology development through model, method and algorithm development, simulation strategy development, and solver development and optimization. Design, development, procurement and assembly, for prototyping and experimentation also interests him deeply.
From project conceptualization to project management and execution, Mandar has played an instrumental role in the completion of various simulation projects. In technology development projects, his role in model execution and integrating simulations with other mathematical models has been extremely important.
In technology development and simulation projects for medical devices, Mandar’s work in algorithm development, simulator development and integration of FEA simulations with algorithms and simulator has led to multiple journal publications and pending patents. His contributions in the fields of optimization of data analysis pipeline, deployment of computational models for optimization of wireless power transfer for charging, integration of optimization algorithms with simulations have been very valuable.
In simulation projects for automotive and chemical industry, Mandar has successfully deployed computational models for simulation led designs of motors, alternators and chemical processes. His deployment of a mathematical model for air entrapment simulation helped reduce the computational time from a couple of days to a couple of minutes!
Patents
Stimulation energy systems with current steering
Apparatus for delivering enhanced stimulation waveforms
Publications
Modeling the impact of the variation in peripheral nerve anatomy on stimulation
A novel current steering method for targeted spinal cord stimulation