Ultra-Fast Visible Lane Distance Estimation Using a Single Camera

Ultra-Fast Visible Lane Distance Estimation Using a Single Camera

Blog Article

Accurate distance estimation is crucial for ensuring the safety and efficiency of intelligent and future autonomous mobility.In this paper, we propose a method for real-time estimation of visible lane distance based on image data only from a single camera and an existing road lane marking estimation system.By leveraging camera intrinsic and height above the road, we utilize lane parallelism and geometric properties of frames from a camera to compute the distance to the furthest visible lane point.Intelligent recalculations of horizon level are performed for every frame, accommodating variations encountered during uphill or downhill driving scenarios.Moreover, the proposed solution Blood Pressure Kits is designed to be theoretically adaptable to gauge the distance to any detected object on the camera frame, not only road lanes.

We evaluate the effectiveness of our method on a dataset created for this purpose, assessing estimation performance through comparison with ground truth data obtained from high-precision GPS measurements.The results indicate comparable estimation performance with other works.Coupled with the capability for real-time implementation in vehicles, we underscore the potential of our approach for advanced driver assistance systems (ADAS) in various aspects, such as safe driving speeds, obstacle avoidance, or collision prevention.This research contributes to the ongoing efforts in developing robust and practical Ball - Bat - Baseball USSSA Approved solutions for autonomous mobility applications.