Research on a Horizon Line Detection Method for Unmanned Surface Vehicles in Complex Environments

Abstract: A critical step in the visual navigation of unmanned surface vehicles (USVs) is horizon line detection, which can be used to adjust the altitude as well as for obstacle avoidance in complex environments. In this paper, a real-time and accurate detection method for the horizon line is proposed. Our approach first differentiates the complexity of navigational scenes using the angular second moment (ASM) parameters in the grey level co-occurrence matrix (GLCM). Then, the region of interest (ROI) is initially extr… Show more

“…For broad areas such as the ocean, there is no single vanishing point; however, for narrow areas, vanishing points play an important role in the location detection and path design of unmanned surface vehicles (USVs) [1]. A USV is a kind of surface robot with integrated technology composed of multiple disciplines, including intelligent remote control, wireless communication, autonomous navigation and obstacle avoidance algorithms [2,3]. Comprehensive, accurate and effective perceptions of the navigation environment and positioning decisions are of high importance for the autonomous navigation of unmanned ships.…”

Research on the Vanishing Point Detection Method Based on an Improved Lightweight AlexNet Network for Narrow Waterway Scenarios

“…For broad areas such as the ocean, there is no single vanishing point; however, for narrow areas, vanishing points play an important role in the location detection and path design of unmanned surface vehicles (USVs) [1]. A USV is a kind of surface robot with integrated technology composed of multiple disciplines, including intelligent remote control, wireless communication, autonomous navigation and obstacle avoidance algorithms [2,3]. Comprehensive, accurate and effective perceptions of the navigation environment and positioning decisions are of high importance for the autonomous navigation of unmanned ships.…”

Research on the Vanishing Point Detection Method Based on an Improved Lightweight AlexNet Network for Narrow Waterway Scenarios

Texture feature-based local adaptive Otsu segmentation and Hough transform for sea-sky line detection

An intensity-difference-based maritime horizon detection algorithm