Company Filing History:
Years Active: 2017
Title: **Joyce Olsen Custer: Innovator in Advanced Filter Technologies**
Introduction
Joyce Olsen Custer is an accomplished inventor based in Albuquerque, NM, who has made significant contributions to the field of technology through her innovative approach to filter design. With one patent to her name, she focuses on enhancing signal processing and interference rejection.
Latest Patents
Custer’s most notable patent is for "Self-limiting filters for band-selective interferer rejection or cognitive receiver protection." This invention revolves around self-limiting filters and arrays of such filters designed to improve the performance of cognitive receivers in the presence of interfering signals. The filters utilize a metal transition film, such as vanadium oxide (VO), which undergoes a phase transition that alters the film's resistivity. This innovative approach allows for the effective rejection of interfering signals while facilitating the transmission of non-interfering communications.
Career Highlights
Joyce Olsen Custer has dedicated her career to advancing the capabilities of electronic communications and signal processing. She is currently affiliated with Sandia Corporation, a leading organization known for its focus on national security, energy, and advanced technologies. Custer’s work has positioned her as an influential figure in her field, especially in developing cleaner and more efficient technologies for communication systems.
Collaborations
Throughout her career, Custer has collaborated with esteemed colleagues such as Christopher Nordquist and Sean Michael Scott. These collaborations have further enhanced her research capabilities, leading to innovations that benefit broader applications in technology and science.
Conclusion
Joyce Olsen Custer’s work exemplifies the impact of innovative thinking in technology. Her patent on self-limiting filters showcases her commitment to pushing the boundaries of communication technologies, making her an influential inventor within her field. As she continues her work at Sandia Corporation, her contributions will likely pave the way for future advancements in signal processing and cognitive receiver systems.