Company Filing History:
Years Active: 2021
Title: The Innovations of Ramsey Doany
Introduction
Ramsey Doany is an accomplished inventor based in San Marcos, Texas. She has made significant contributions to the field of radio-frequency identification (RFID) systems. Her innovative work focuses on enhancing the efficiency and reliability of these systems through advanced collision detection methods.
Latest Patents
One of Ramsey Doany's notable patents is titled "Early collision detection and handling in CDMA-based RFID systems." This patent describes a method, system, and computer program product designed to enable early collision detection and handling in Code Division Multiple Access (CDMA)-based RFID systems. The invention allows a tag to receive instructions from a reader to reflect either a single encoded bit or multiple encoded bits. The tag then reflects the encoded bits back to the reader, which decodes the received bits and organizes them into a vector or matrix. This process helps determine if the reflected bits were read successfully, and if discrepancies occur, the tag enters a no reflection mode to prevent collisions.
Career Highlights
Ramsey Doany is affiliated with Texas State University, where she contributes her expertise in RFID technology. Her work has garnered attention for its practical applications in improving communication systems. With a focus on innovation, she continues to explore new avenues for enhancing technology in her field.
Collaborations
Ramsey collaborates with her coworker, Harold Stern, who also plays a vital role in their research endeavors. Together, they work on advancing the capabilities of RFID systems and addressing challenges in the industry.
Conclusion
Ramsey Doany's contributions to the field of RFID technology exemplify her commitment to innovation and excellence. Her patent on early collision detection showcases her ability to solve complex problems in communication systems. Through her work at Texas State University, she continues to push the boundaries of technology and inspire future advancements.