Company Filing History:
Years Active: 2025
Title: Ahmed Alabdulwahab – Innovator in Robotic Disassembly Techniques
Introduction
Ahmed Alabdulwahab is a notable inventor based in Jeddah, Saudi Arabia. He holds a patent that focuses on enhancing the efficiency of robotic systems, particularly in the context of disassembling end-of-life products. His innovative contributions to the field demonstrate a commitment to advancing industrial automation and sustainability.
Latest Patents
Ahmed's most recent patent is titled "System and Methods for Multi-Robotic Multi-Product U-Shaped Disassembly Line." This invention introduces a multi-robotic U-shaped disassembly line that utilizes multiple robots assigned to different workstations. The system is capable of disassembling various components without precedence and conflict relationships, allowing for the efficient processing of different types of end-of-life products. Furthermore, a mathematical model has been developed to maximize disassembly profit while minimizing the smoothness index, and the Improved Multi-objective Discrete Brainstorming Optimization (IMDBO) algorithm is employed to identify enhancements in the system.
Career Highlights
Ahmed Alabdulwahab currently works at King Abdulaziz University, where he is engaged in research and innovation related to robotics and automation. His pioneering work in robotic disassembly lines highlights his expertise and commitment to advancing technology in the industry.
Collaborations
Throughout his career, Ahmed has collaborated with notable colleagues, including Abdullah Abusorrah and Hesham Alhumade. These partnerships reflect his dedication to teamwork and the exchange of innovative ideas that drive progress in their field.
Conclusion
Ahmed Alabdulwahab's contributions to robotic technologies, exemplified by his innovative patent for a multi-robotic disassembly line, mark him as a significant inventor in the realm of industrial automation. His work holds the potential for improving efficiency and sustainability in manufacturing processes, paving the way for future advancements in robotics.