Company Filing History:
Years Active: 2011-2016
Title: The Innovative Contributions of Philip Ziegler
Introduction
Philip Ziegler, an inventive mind based in Montville, NJ, has made noteworthy strides in the field of indoor positioning technology. With a total of two patents to his name, Ziegler showcases a strong commitment to enhancing the accuracy and reliability of mobile device location services.
Latest Patents
One of Ziegler's prominent inventions is the "Pilot Beacon System for Indoor Positioning." This groundbreaking system employs one or more pilot beacons to significantly enhance the accuracy of locating indoor mobile devices. By implementing modulation and level control of the co-pilot beacons, it provides a third dimension of positioning known as the z-axis, facilitating advanced location determination.
His second patent, titled "Location Determination in a Wireless Network," presents a method to improve the accuracy of mobile device locations when standard position determination mechanisms fall short. This technique involves a server receiving signals from a mobile device, identifying supplemental position determination signals, and using these signals to accurately ascertain the device's location.
Career Highlights
Throughout his career, Ziegler has made valuable contributions while working with notable companies such as Cellco Partnership and Westell, Inc. His experience in these organizations has allowed him to develop and refine his innovative ideas in indoor positioning technologies.
Collaborations
Ziegler has also collaborated with fellow inventor William J. Crilly, Jr., bringing together their expertise to further enhance their contributions to the field of technology.
Conclusion
Philip Ziegler stands out as a significant inventor in the realm of positioning technologies. His impactful patents and collaborations have laid the groundwork for future advancements. As mobile technology continues to evolve, Ziegler's innovations will undoubtedly play a crucial role in shaping more accurate indoor positioning systems.