Company Filing History:
Years Active: 2020
Title: Hifza Sakhi: Innovator in Security and Power Systems
Introduction
Hifza Sakhi is a prominent inventor based in Lilburn, GA (US). She has made significant contributions to the fields of security systems and power supply technologies. With a total of 2 patents, her work showcases innovative solutions that address contemporary challenges.
Latest Patents
One of Hifza's latest patents is focused on a networked premises security system. This system leverages cloud-based analytics and captures information about visitors without requiring them to provide any personal data. It includes a sensor, an actuator, and a local processing device that communicates with a cloud-based analytics system. This system analyzes visitor information against criminal history databases to generate a risk rating or command actions to enhance security.
Another notable patent involves methods, devices, and systems for providing power to a linear amplifier. This invention features a redox battery system with a three-dimensional array of nano-batteries and a hydrogen power system that utilizes a nano-array of hydrogen paper. The system is designed to attract hydrogen from a water source and includes a solar power system and an ionic diode power system. These innovations work together to provide efficient power management for linear amplifiers.
Career Highlights
Hifza Sakhi is currently associated with AT&T Intellectual Property I, L.P. Her role in this esteemed company allows her to further her research and development efforts in innovative technologies.
Collaborations
Hifza has collaborated with notable colleagues, including Nigel Bradley and Bhumit Patel. Their teamwork has contributed to the advancement of her projects and the successful development of her patents.
Conclusion
Hifza Sakhi is a trailblazer in the fields of security and power systems, with her innovative patents reflecting her commitment to enhancing technology. Her contributions are paving the way for future advancements in these critical areas.