Collision-free Multiple Unmanned Combat Aerial Vehicles Cooperative Trajectory Planning for Time-critical Missions using Differential Flatness Approach

Abstract: This paper investigates the cooperative trajectory planning for multiple unmanned combat aerial vehicles in performing autonomous cooperative air-to-ground target attack missions. Firstly, the collision-free cooperative trajectory planning problem for time-critical missions is formulated as a cooperative trajectory optimal control problem (CTP-OCP), which is based on an approximate allowable attack region model, several constraints model, and a multi-criteria objective function. Next, a planning algorithm base… Show more

“…To demonstrate the efficiency of the proposed method, we compare this method with other existing methods. There are several methods to estimate the flight paths of UAVs, such as the straight line from the initial positions to the goal positions (straight line as the initial solution, SI) [35], the B-spline curves-based method (B-spline curves as the initial solution, BI) [36], and the vertical section-based method (VI) [7]. Our proposed method is defined as CI.…”

A Hierarchical Cooperative Mission Planning Mechanism for Multiple Unmanned Aerial Vehicles

“…To demonstrate the efficiency of the proposed method, we compare this method with other existing methods. There are several methods to estimate the flight paths of UAVs, such as the straight line from the initial positions to the goal positions (straight line as the initial solution, SI) [35], the B-spline curves-based method (B-spline curves as the initial solution, BI) [36], and the vertical section-based method (VI) [7]. Our proposed method is defined as CI.…”

A Hierarchical Cooperative Mission Planning Mechanism for Multiple Unmanned Aerial Vehicles

Collision free 4D path planning for multiple UAVs based on spatial refined voting mechanism and PSO approach

Probabilistic collision estimation for tracked vehicles based on corner point self-activation approach