Company Filing History:
Years Active: 2024
Title: Innovations by Alexander Kenis in Vehicle Damage Detection
Introduction
Alexander Kenis is an innovative inventor based in Kiryat Motzkin, Israel. He has made significant contributions to the field of vehicle damage detection through his patented technology. His work focuses on creating systems that enhance the efficiency and accuracy of identifying damages in vehicles.
Latest Patents
Kenis holds a patent for a "System and method for automatically detecting damages in vehicles." This automatic system is designed to detect damage to a vehicle using various components. It includes at least one camera that captures 'handover' and 'return' images, regardless of the vehicle's movement or orientation. The system also features a memory for storing images of basic parts, a first determination unit for locating these parts within the images, and a second determination unit for identifying other parts. Additionally, it has a transformation unit that transforms the images to a common plane and a comparison unit that detects differences between the images above a predefined threshold. This innovative approach significantly improves the process of assessing vehicle conditions.
Career Highlights
Kenis is currently employed at Ravin AI Ltd., where he continues to develop and refine his technologies. His work at the company emphasizes the integration of artificial intelligence in vehicle damage assessment, showcasing his commitment to advancing automotive technology.
Collaborations
Kenis collaborates with talented professionals in his field, including Eliron Ekstein and Roman Sandler. Their combined expertise contributes to the innovative projects at Ravin AI Ltd., fostering a collaborative environment that drives technological advancements.
Conclusion
Alexander Kenis is a notable inventor whose work in vehicle damage detection exemplifies the intersection of technology and innovation. His patented system represents a significant step forward in the automotive industry, enhancing the accuracy and efficiency of damage assessments.