Company Filing History:
Years Active: 2015
Title: The Innovative Mind of Aiping Liang
Introduction
Aiping Liang, an accomplished inventor based in Dollard-des-Ormeaux, Canada, has made significant strides in the field of antenna technology. With a unique approach to steerable antennas, she has garnered attention for her innovative designs that push the boundaries of conventional engineering.
Latest Patents
Aiping holds a notable patent for a "Wide Scan Steerable Antenna with No Key-Hole." This invention features an advanced steerable antenna architecture capable of optimal steering of transmitting and receiving beams over wide scan angles. Notably, it can steer beams across a full hemisphere with no singularity or key-hole within its coverage area, utilizing only one RF rotary joint. The design includes a dual-reflector assembly, with an antenna focal point located near the main reflector surface, and a signal feed chain that aligns the signal source seamlessly with the antenna configuration.
Career Highlights
Aiping Liang is currently associated with Macdonald, Dettwiler and Associates Corporation, where she contributes her expertise in antenna systems. Her innovative designs are pivotal in advancing the technological capabilities of the company, further establishing her reputation as a leading figure in the field.
Collaborations
Throughout her career, Aiping has had the opportunity to collaborate with talented individuals such as Eric Choiniére and Richard Horth. These collaborations have enhanced her projects and have fostered an environment of innovation and shared knowledge, essential for creating cutting-edge technologies.
Conclusion
Aiping Liang's contributions to antenna technology reflect her commitment to innovation and excellence. Her patent for the Wide Scan Steerable Antenna not only showcases her ingenuity but also sets a new standard in antenna design. As she continues to work with leading professionals in her field, Aiping is sure to inspire future inventions that can reshape the landscape of wireless communication.