Company Filing History:
Years Active: 2019
Title: **Julianne Folden: Innovator in Call Management Systems**
Introduction
Julianne Folden is a notable inventor based in Chandler, Arizona, recognized for her contributions to the field of telecommunications and call management systems. With a keen focus on optimizing communication within dispatch centers, her work has the potential to improve efficiency significantly in crisis response situations.
Latest Patents
Julianne is the holder of one patent titled “Call management system for a command center utilizing call metadata.” This innovative system describes methods and systems for optimizing a call queue at a dispatch center. The technology involves an electronic computing device that uses metadata analysis from incoming calls to define incidents, determine caller identification, and manage call traffic levels. By directing calls to appropriate workstations based on analysis, her patent addresses the critical need for enhanced communication in emergency situations.
Career Highlights
Julianne is currently employed at Motorola Solutions, Inc., a company renowned for providing communication infrastructure and software solutions. Her role involves not only the development of innovative technologies but also contributing to Motorola's reputation as a leader in the telecommunications industry.
Collaborations
Working alongside esteemed colleagues Scott A Arnold and Daniel R Marcus, Julianne engages in collaborative efforts to refine and enhance the functionalities of communication systems. This teamwork fosters a creative environment that leads to the development of cutting-edge solutions tailored for emergency call management.
Conclusion
Julianne Folden stands out as an important figure in the realm of innovation within call management systems. Her patent reflects her dedication to improving dispatch operations and underscores her significant impact in the field of telecommunications technology. As she continues her work at Motorola Solutions, her contributions will undoubtedly influence the future of communication systems used in critical situations.