Akademik Veri Yönetim Sistemi
2024 IEEE International Workshop on Metrology for Agriculture and Forestry, MetroAgriFor 2024, Padua, İtalya, 29 - 31 Ekim 2024, ss.689-694, (Tam Metin Bildiri)
This paper addresses challenges in agricultural unmanned aerial vehicle (A-DAV) positioning, emphasizing the significance of accurate position estimation for applications like coverage path planning under depended noises. The study intro-duces a solution involving a PCA-based maximum correntropy Kalman filter (PCA-MCKF) to mitigate issues such as low-altitude flight control, inaccurate position estimation due to coloured noise, and non-Gaussian distribution, including wind effects. Comparative analysis with traditional methods, such as Kalman filter (KF), PCA-KF, and PCA-MCKF, is conducted using four rotor-wing UAVs with linear and nonlinear dynamical models. The paper employs interval type-2 Fuzzy PID as an intelligent controller method and constant acceleration and constant velocity manoeuvre models for estimation. Root mean square error is used as the accuracy metric, and real-time sim-ulations in Webots demonstrate the superiority of the proposed PCA-MCKF in enhancing agricultural UAV applications.