Company Filing History:
Years Active: 2014
Title: Carlie J Coats: Innovator in Flood Modeling Systems
Introduction
Carlie J Coats is a notable inventor based in Chapel, NC (US). She has made significant contributions to the field of flood modeling through her innovative patent. Her work focuses on creating systems and methods that enhance the understanding and management of flood events.
Latest Patents
Carlie holds a patent for "Systems and methods for modeling floods." This flood modeling system defines virtual cells of a geographic region. Some of the cells, referred to as 'channel cells,' represent areas within a channel for a moving body of water, such as a stream or river. Other cells, referred to as 'land cells,' represent areas external to the channels within the geographic region. The flow of water through the geographic region is modeled as a virtual flow of water through the channel cells and the land cells. For each time step, the system calculates the amount of water that virtually flows out of one cell into adjacent cells. The water estimated to virtually flow above ground represents flood water, and the estimates of such water can be used to generate an inundation map or initiate flood warnings. Carlie has 1 patent to her name.
Career Highlights
Carlie J Coats has established herself as a key figure in the field of flood modeling. Her innovative approach to understanding flood dynamics has garnered attention and respect within the scientific community. She works at Baron Service, Inc., where she continues to develop and refine her flood modeling systems.
Collaborations
Carlie collaborates with her coworker, John N McHenry, to further enhance the capabilities of their flood modeling systems. Their teamwork exemplifies the importance of collaboration in driving innovation.
Conclusion
Carlie J Coats is a pioneering inventor whose work in flood modeling systems is making a significant impact in the field. Her innovative patent and collaborative efforts highlight her commitment to advancing technology for better flood management.