Company Filing History:
Years Active: 1989-1996
Title: Marie A. Stoffer: Innovator in Intervisibility Calculation and Address Generation
Introduction
Marie A. Stoffer is a notable inventor based in Rio Rancho, NM (US). She has made significant contributions to the fields of intervisibility calculation and address generation, holding a total of 2 patents. Her work is particularly relevant in the context of digital map display systems and threat detection technologies.
Latest Patents
One of her latest patents is titled "Device Executing Intervisibility Calculation." This innovative device includes a mechanism that executes a radial spoke scan pattern, allowing for rapid and accurate intervisibility results. The intervisibility engine utilizes lookup tables to provide precalculated data, avoiding complex divide operations. This enables the calculation to be executed using simple arithmetic operations, which is crucial for dynamic, in-flight calculations related to threat installations.
Another significant patent is the "Address Generator with Variable Scan Patterns." This apparatus is designed for reading from a first addressable memory and writing into a second addressable memory. The first memory is logically arranged in a rectangular matrix and can be scanned at arbitrary angles, producing various scan patterns. This technology is particularly beneficial for digital map display systems that require flexible and efficient data handling.
Career Highlights
Marie A. Stoffer is currently employed at Honeywell GmbH, where she continues to develop innovative solutions in her field. Her work has been instrumental in advancing technologies that enhance situational awareness and operational efficiency.
Collaborations
Throughout her career, Marie has collaborated with notable colleagues, including Thomas A. Kodet and Douglas E. Thorpe. These collaborations have contributed to the successful development and implementation of her patented technologies.
Conclusion
Marie A. Stoffer is a pioneering inventor whose work in intervisibility calculation and address generation has made a significant impact in her field. Her contributions continue to influence advancements in technology and enhance operational capabilities.