Company Filing History:
Years Active: 2019
Title: **Inventor Profile: Mintae Kim**
Introduction
Mintae Kim is an innovative engineer and inventor based in Warwick, Rhode Island, USA. He has made significant contributions in the field of finite element analysis through his pioneering patent. His work focuses on enhancing computational methods in engineering, showcasing his expertise and commitment to advancing technology.
Latest Patents
Mintae Kim holds a patent titled "Substructure generation using automated multilevel substructuring." This groundbreaking patent details a computer-implemented method designed for finite element analysis of three-dimensional (3D) representations of physical objects. The methodology involves several steps, including the combination of retained degrees of freedom to form a root substructure, reduction of the structure to an automated multilevel substructuring (AMLS) subspace, and computation of eigenmodes and condensed operators. Additionally, it generates substructures based on these calculations and stores the resultant data in a memory area, which significantly enhances engineering simulations.
Career Highlights
Mintae Kim is currently employed at Dassault Systèmes Simulia Corp., a leading company in engineering simulation software. His involvement in this company demonstrates his ability to apply academic knowledge to practical solutions in high-tech environments. His patent reflects his substantial understanding of complex engineering principles and computational methods.
Collaborations
Throughout his career, Mintae has collaborated with notable colleagues, including Vladimir Belsky and Mikhail Belyi. These collaborations likely enriched his research and development endeavors, contributing to the success and efficacy of his innovative projects.
Conclusion
Mintae Kim's contributions to the field of finite element analysis through his patent highlight his role as a significant innovator in engineering and technology. With his experience at Dassault Systèmes Simulia Corp. and collaborative efforts with experienced professionals, Kims' work continues to influence advancements in automated multilevel substructuring methods, paving the way for future innovations in simulation technologies.