Corinna Maria Spangler

Title: Corinna Maria Spangler: Innovator in Plant Damage Quantification and Chemical Production

Introduction

Corinna Maria Spangler is a notable inventor based in Ludwigshafen, Germany. She has made significant contributions to the fields of agricultural technology and chemical production. With a total of 4 patents to her name, her work focuses on innovative solutions that enhance efficiency and accuracy in these sectors.

Latest Patents

One of her latest patents is titled "Quantifying biotic damage on plant leaves, by convolutional neural networks." This invention aims to quantify biotic damage in the leaves of crop plants. A computer processes a leaf-image taken from a particular crop plant using a convolutional neural network (CNN). The CNN derives a segmented leaf-image that represents the main leaf of the plant. This technology has been trained using a variety of annotated leaf-images to identify main leaves accurately. Additionally, she has developed a patent for "Determining operating conditions in chemical production plants." This invention provides systems and methods for determining the operating conditions of a chemical production plant, including at least one catalytic reactor. It utilizes a communication interface to receive operating data and a catalyst age indicator, allowing for the determination of target operating parameters for monitoring and controlling the plant.

Career Highlights

Corinna is currently employed at BASF SE Corporation, where she applies her expertise in developing innovative solutions. Her work has been instrumental in advancing the company's capabilities in both agricultural and chemical production technologies.

Collaborations

Some of her notable coworkers include Artzai Picon Ruiz and Christian Klukas, who contribute to her projects and innovations.

Conclusion

Corinna Maria Spangler is a pioneering inventor whose work in quantifying plant damage and optimizing chemical production processes showcases her commitment to innovation. Her contributions continue to impact the fields she is involved in, making her a significant figure in modern technology.