Company Filing History:
Years Active: 2021-2023
Title: Mahyar Vajedi: Innovator in Mobile Automation Technologies
Introduction
Mahyar Vajedi is a prominent inventor based in Mississauga, Canada. He has made significant contributions to the field of mobile automation, holding a total of 4 patents. His innovative work focuses on enhancing navigational systems and improving the efficiency of mobile automation apparatuses.
Latest Patents
One of Vajedi's latest patents is titled "Method, system and apparatus for adaptive ceiling-based localization." This invention involves a navigational controller that utilizes a ceiling-facing camera to capture images of a facility ceiling. The method includes detecting primary features in the captured images and updating the estimated pose of the mobile automation apparatus based on these features. If the confidence level of the estimated pose does not meet a certain threshold, the system switches to a secondary localization mode to ensure accurate navigation.
Another notable patent is "Method, system and apparatus for dynamic loop closure in mapping trajectories." This method focuses on obtaining mapping trajectory data and controlling the apparatus to traverse specific segments. It generates keyframes using sensor data and determines the estimated pose of the apparatus. The invention also includes a mechanism for updating mapping trajectory data when uncertainty levels exceed a predefined threshold.
Career Highlights
Mahyar Vajedi is currently employed at Zebra Technologies Corporation, where he continues to develop innovative solutions in mobile automation. His work has significantly impacted the efficiency and accuracy of navigational systems in various applications.
Collaborations
Vajedi collaborates with talented individuals such as Mehdi Mazaheri Tehrani and Feng Cao, contributing to a dynamic and innovative work environment.
Conclusion
Mahyar Vajedi's contributions to mobile automation technologies demonstrate his commitment to innovation and excellence. His patents reflect a deep understanding of navigational systems and their applications in real-world scenarios.