MUMBAI, India, June 26 -- Intellectual Property India has published a patent application (202641071275 A) filed by Dr. Madhusudhan Ck; Dr. Pavithra H M; Ms. Roopa J; and Harisha Cs on June 08, 2026, for Mathematical Electromagnetic Field Mapping And Flux Optimization System.
Inventors include Dr. Madhusudhan Ck; Dr. Pavithra H M; Ms. Roopa J; and Harisha Cs.
The application for the patent was published on June 19, 2026, under issue no. 25/2026.
Abstract: ABSTRACT “Mathematical Electromagnetic Field Mapping and Flux Optimization System" The present invention relates to a Mathematical Electromagnetic Field Mapping and Flux Optimization System for analyzing, visualizing, and optimizing electromagnetic field distribution and magnetic flux behavior in electrical and electronic systems. The invention integrates mathematical computation, electromagnetic modeling, and adaptive optimization techniques to generate accurate multidimensional field representations and improve electromagnetic performance. The system includes a field mapping module configured to identify magnetic flux concentration regions, leakage zones, interference areas, and inefficient electromagnetic pathways using computational analysis and vector-based mathematical processing. The invention further comprises a flux optimization engine capable of dynamically adjusting electromagnetic parameters through predictive algorithms and iterative computational techniques to improve flux alignment, reduce power loss, minimize electromagnetic interference, and enhance thermal stability. The disclosed system supports both simulation-based analysis and real-time electromagnetic monitoring through sensor-integrated processing architectures. The proposed invention can be implemented in applications including electric motors, transformers, wireless power transfer systems, inductive charging platforms, industrial automation equipment, communication infrastructures, and intelligent energy systems. Unlike conventional electromagnetic analysis methods that primarily depend on static simulations and manual calibration, the present invention provides an adaptive and automated framework capable of continuously refining field accuracy and optimization efficiency. Accordingly, the invention offers a scalable, reliable, and computationally efficient solution for electromagnetic field mapping, predictive flux analysis, and intelligent electromagnetic optimization, thereby improving operational efficiency, energy utilization, and system reliability in modern electrical and electronic technologies.
Disclaimer: Curated by HT Syndication.