Construction of Fisheye Lens Inverse Perspective Mapping Model and Its Applications of Obstacle Detection

Abstract: In this paper, we develop a vision based obstacle detection system by utilizing our proposed fisheye lens inverse perspective mapping (FLIPM) method. The new mapping equations are derived to transform the images captured by the fisheye lens camera into the undistorted remapped ones under practical circumstances. In the obstacle detection, we make use of the features of vertical edges on objects from remapped images to indicate the relative positions of obstacles. The static information of remapped images in th… Show more

“…In order to compute the distance from the camera to a forward vehicle, the authors of [12,16] transform the forward facing image to a top-down "bird's eye" view, in which there is a linear relationship between distances in the image and in the real world. More than that, in [13] the authors develop an Inverse Perspective Mapping Model that is used to map in 3D all the obstacles around a vehicle. The depth into an image was also done by using algorithms for depth estimating from a single still image depending on texture variations and gradients, defocus, color/haze [14].…”

Mobile Robot Navigation Techniques Using Potential Field Method in Unknown Environments

“…In order to compute the distance from the camera to a forward vehicle, the authors of [12,16] transform the forward facing image to a top-down "bird's eye" view, in which there is a linear relationship between distances in the image and in the real world. More than that, in [13] the authors develop an Inverse Perspective Mapping Model that is used to map in 3D all the obstacles around a vehicle. The depth into an image was also done by using algorithms for depth estimating from a single still image depending on texture variations and gradients, defocus, color/haze [14].…”

Mobile Robot Navigation Techniques Using Potential Field Method in Unknown Environments

Environmental Perception Using Fish-Eye Cameras for Autonomous Driving

VRU Detection Based on Inverse Perspective Mapping and Deep Learning in Lightweight Embedded System