Automatic landing of a low-cost quadrotor using monocular vision and Kalmanfilter in GPS-denied environments

Abstract: Unmanned aerial vehicles are becoming an important part of the modern life. Despite some recent advances in GPS-aided navigation of quadrotors, the concern of crash and collision still overshadows their reliability and safety, especially in GPS-denied environments. Therefore, the necessity for developing fully automatic methods for safe, accurate, and independent landing of drones increases over time. This paper investigates the autolanding process by focusing on an accurate and continuous position estimation … Show more

“…The traditional QUAV combines low-cost GPS (Global Positioning System) and low-cost IMU (inertial measurement unit) to obtain its position information. However, this positioning method will not provide reliable position feedback when the QUAV is in an indoor, low latitude, and complex urban environment [5]. The most common way to solve this problem is to combine it with visual technology.…”

Image-based finite-time visual servoing of a quadrotor for tracking a moving target

“…The traditional QUAV combines low-cost GPS (Global Positioning System) and low-cost IMU (inertial measurement unit) to obtain its position information. However, this positioning method will not provide reliable position feedback when the QUAV is in an indoor, low latitude, and complex urban environment [5]. The most common way to solve this problem is to combine it with visual technology.…”

Image-based finite-time visual servoing of a quadrotor for tracking a moving target

Exploration and Practice of UAV Technology in Engineering Training of Colleges and Universities

Vision-less autonomous tracking and landing of a micro aerial vehicle on a slow maneuvering ground moving target using distance sensors