Company Filing History:
Years Active: 2012
Title: Brendon James Schmidt: Innovator in Optical Signal Reception
Introduction
Brendon James Schmidt is a notable inventor based in Victoria, Australia. He has made significant contributions to the field of optical signal reception, showcasing his innovative spirit through his patented technology.
Latest Patents
Brendon holds a patent for a "Method and apparatus for reception of optical signals." This invention provides an apparatus and method for receiving an optical signal that includes an optical carrier component and at least one information-bearing optical sideband. The technology utilizes an optical filter arrangement to separate the optical carrier component from the information-bearing optical sideband. The design incorporates first and second optical splitters that divide the optical power in the optical carrier and the optical sideband into corresponding sub-components. Notably, the sub-components of the optical carrier exhibit substantially orthogonal polarization states. The invention also features first and second optical coupling devices that combine the optical carrier sub-components with the corresponding optical sideband sub-components. Optical detectors are employed to detect the outputs of the combiners. This arrangement achieves many benefits of coherent optical heterodyne receivers while simplifying the receiver by eliminating the need for an optical oscillator.
Career Highlights
Brendon is associated with Ofidium Pty. Ltd., where he continues to develop and refine his innovative technologies. His work has positioned him as a key player in the optical communications field.
Collaborations
Brendon has collaborated with esteemed colleagues such as Arthur James Lowery and Jean Armstrong, contributing to advancements in optical signal processing.
Conclusion
Brendon James Schmidt's contributions to optical signal reception demonstrate his innovative capabilities and commitment to advancing technology in this field. His patent reflects a significant step forward in simplifying optical communication systems.