David Henry Wayne

Title: David Henry Wayne: Innovator in Scheduling Technologies

Introduction

David Henry Wayne is an accomplished inventor based in Arlington, MA (US). He has made significant contributions to the field of scheduling technologies, holding a total of 2 patents. His innovative work focuses on systems and methods that enhance the efficiency and effectiveness of scheduling processes.

Latest Patents

Wayne's latest patents include "Systems and methods for extended horizon time-sequences" and "Networks, apparatus, and methods for schedule conformance." The first patent describes an apparatus for extended horizon scheduling that incorporates a time-sequence interpretation circuit, a target interpretation circuit, a horizon target analysis circuit, and a promotive action provisioning circuit. This invention interprets time-sequence data and target data, extracting trends to determine if they support or hinder defined targets. If a trend is found to impede a target, the system generates a command to adjust the time-sequence data accordingly.

The second patent focuses on ensuring schedule conformance through networks, methods, and apparatus. It features a schedule interpretation circuit that analyzes schedule data and a warden circuit that generates scores based on schedule properties. If the schedule data deviates from baseline values, a corrective action circuit produces a command to realign the schedule data with the desired properties.

Career Highlights

David Henry Wayne is currently employed at UKG Inc., where he continues to develop innovative solutions in scheduling technologies. His work has been instrumental in advancing the capabilities of scheduling systems, making them more responsive and effective.

Collaborations

Wayne collaborates with talented individuals such as Brian R Muras and Keith A Briggs, contributing to a dynamic and innovative work environment.

Conclusion

David Henry Wayne's contributions to scheduling technologies through his patents demonstrate his commitment to innovation and efficiency. His work continues to influence the field, paving the way for future advancements in scheduling systems.