Miklos E. Mincsovics

Assistant Professor at Budapest University of Technology and Economics

Dr. Miklós E. Mincsovics is an Assistant Professor at BME, where his research primarily focuses on numerical methods for ordinary and partial differential equations (ODEs and PDEs).

Dr. Mincsovics is currently an Assistant Professor at the Budapest University of Technology and Economics (BME), Institute of Mathematics, Department of Analysis and Operations Research, a position he has held since December 2014. Prior to this, he worked as an Assistant Research Fellow at BME (2013-2014), at the MTA-ELTE NUMNET Research Group (2012-2016), and at the Institute of Mathematics, ELTE (2009-2013).

His research primarily focuses on numerical methods for ordinary and partial differential equations (ODEs and PDEs), with particular interest in the stability of linear multistep methods, generalizations of the Lax equivalence theorem, and discrete maximum principles.

Related Events

Related Articles

How COMSOL Multiphysics Leads R&D Breakthroughs in CEE (3 User Stories)

COMSOL Multiphysics leads in modeling and simulation in CEE. Its Application Builder simplifies complex simulations, surrogate models boost efficiency, and SciEngineer’s expert support ensures success, making it ideal for industries like audio, electronics, and automotive, as it drives innovation and accelerates project timelines.

COMSOL Multiphysics in 15 minutes

COMSOL Multiphysics in 15 Minutes

Join the electronics industry experts who have benefited from COMSOL Multiphysics. From improving sound quality to reducing battery design time by 70%. In this 15 minute read, you will learn how COMSOL Multiphysics can elevate your team’s efficiency and unlock new possibilities in product design.

Multiphysics Modeling of Batteries, From Cell to Pack Level

From electric vehicles to renewable energy storage, the need for reliable, high-performance batteries is critical. Our latest whitepaper delves into the principles of battery modeling, offering a comprehensive guide to optimizing energy density, thermal management, and safety. Discover how multiphysics simulations can enhance battery design and performance, empowering industries like automotive, aerospace, and renewable energy to tackle modern challenges.