Company Filing History:
Years Active: 2005
Title: **John Siliquini: Innovator in Packet Network Communication**
Introduction
John Siliquini, an accomplished inventor based in Dianella, Australia, holds a significant patent in the field of digital communications. His work has focused on improving real-time signal transfer over packet networks, a critical element in today’s increasingly digital world.
Latest Patents
Siliquini's sole patent is titled "Method and apparatus for transfer of real time signals over packet networks." The invention presents a novel approach that enables routers within digital communication networks, such as the Internet, to achieve necessary time awareness for the prompt transfer of real-time signals. This patent introduces timing information encoded in the packets as differential and dispatch timestamps, ensuring packets reach their destination in a timely manner. This innovation enhances the capability of network routers to reconstruct signals accurately and synchronizes the played content at the destination.
Career Highlights
John Siliquini has made noteworthy contributions to the field of digital communications, currently serving at Curtin University of Technology. His focus on developing methods to enhance packet-based communication systems demonstrates his commitment to advancing technology in this domain.
Collaborations
Throughout his career, Siliquini has collaborated with talented professionals such as Zigmantas Leonas Budrikis and Guven Mercankosk. These partnerships reflect a collaborative effort in research and innovation that aims to push the boundaries of what is achievable in real-time data transmission.
Conclusion
John Siliquini’s inventive approach has paved the way for advancements in digital communications, demonstrating the importance of innovation in ensuring efficient data transfer over complex networks. His patent serves as a testament to the potential that lies in the continuous exploration of technology, impacting the way we communicate and interact in our digitally-driven world.