Marie Christin Platenius-Mohr

Title: Innovations by Marie Christin Platenius-Mohr

Introduction

Marie Christin Platenius-Mohr is an accomplished inventor based in Hirschberg an der Bergstrasse, Germany. She has made significant contributions to the field of technology, particularly in the area of interoperable communication and industrial process control systems. With a total of 3 patents, her work showcases her expertise and innovative spirit.

Latest Patents

Her latest patents include a "System and method for interoperable communication between entities with different structures." This invention describes a computer-implemented method for data exchange between two real-world entities connected to the same communication network. The method evaluates predefined mapping strategies to ensure effective communication between digital representations of these entities.

Another notable patent is the "Method of channel mapping in an industrial process control system." This method involves discovering devices within an industrial system, obtaining signal characteristics, and determining channel mapping for effective signal transmission. This innovation enhances the efficiency of industrial processes by optimizing communication between devices.

Career Highlights

Marie Christin Platenius-Mohr is currently employed at Abb Schweiz AG, where she continues to develop her innovative ideas. Her work at Abb Schweiz AG has allowed her to apply her expertise in real-world applications, contributing to advancements in technology and industrial processes.

Collaborations

Throughout her career, she has collaborated with talented individuals such as Somayeh Malakuti and Thomas Goldschmidt. These collaborations have fostered a creative environment that encourages the exchange of ideas and the development of groundbreaking technologies.

Conclusion

Marie Christin Platenius-Mohr is a remarkable inventor whose contributions to technology are noteworthy. Her patents reflect her commitment to innovation and her ability to solve complex problems in communication and industrial processes. Her work continues to inspire future advancements in these fields.