Angela N Dunlay

Title: Angela N Dunlay: Innovator in Predictive Health Monitoring and Aviation Automation

Introduction

Angela N Dunlay is a prominent inventor based in Marion, IA (US). She has made significant contributions to the fields of predictive health monitoring and aviation automation. With a total of 7 patents to her name, her work has the potential to revolutionize how health data is utilized in mission planning and aircraft operations.

Latest Patents

One of her latest patents is titled "Visualization of Predictive Health Monitoring." This innovative system incorporates predictive health data into a mission timeline, allowing for the identification of potential health events and their impact on mission success. The system defines a probability window with weighted probabilities, rendering uncorrected outcomes onto the timeline to highlight when remedial action may be necessary.

Another notable patent is the "Mission Reasoner System and Method." This invention automates flight functions across an aircraft cockpit, providing an open systems architecture that enhances aircrew effectiveness. The mission reasoner receives inputs from various systems to build a decision network, offering predictive decisions and alternative actions to optimize mission objectives and reduce costs through condition-based maintenance.

Career Highlights

Angela is currently employed at Rockwell Collins, Inc., where she continues to innovate and develop advanced technologies. Her work has garnered attention for its practical applications in improving both health monitoring and aviation safety.

Collaborations

Throughout her career, Angela has collaborated with notable colleagues, including Steven L Kamada and Phillip J Hamm. These partnerships have contributed to the advancement of her projects and the successful implementation of her inventions.

Conclusion

Angela N Dunlay is a trailblazer in her field, with a focus on integrating predictive health data into mission planning and enhancing aviation automation. Her contributions are paving the way for future innovations that will improve safety and efficiency in critical operations.