This paper studies the Fast Marching Square (FM2) method as a competitive path planner for UAV applications. The approach fulfills trajectory curvature constraints together with a significantly reduced computation time, which makes it overperform with respect to other planning methods of the literature based on optimization. A comparative analysis is presented to demonstrate how the FM2 approach can easily adapt its performance thanks to the introduction of two parameters, saturation a and exponent b, that allow a flexible configuration of the paths in terms of curvature restrictions, among others. The main contributions of the method are twofold: first, a feasible path is directly obtained without the need of a later optimization pr...
UAS (Unmanned Aerial Systems) Traffic Management, or UTM in short, aims to provide services to multi...
A current challenge in path planning is the ability to efficiently calculate a near-optimum path sol...
This paper identifies feasible fight paths for Small Unmanned Aircraft Systems in a highly constrain...
This paper studies the Fast Marching Square (FM2) method as a competitive path planner for UAV appl...
This paper studies the Fast Marching Square (FM2) method as a competitive path planner for UAV appli...
Nowadays, mission planning for Unmanned Aerial Vehicles (UAVs) is a very attractive research field....
This article provides a comprehensive view of the novel fast marching (FM) methods we developed for ...
This research presents a novel approach for missions of coverage path planning (CPP) carried out by ...
This article presents a novel method for the management of UAVs formations. Based on the fast marchi...
The exploration of unknown environments is a challenge in robotics. The proposed method approaches t...
Fast motion planning (FMP) of autonomous vehicles has been advanced rapidly for robotics research, p...
Safe and simultaneous arrival of constant speed, constant altitude UAVs on target is solved by desig...
Unmanned Aerial Vehicles (UAVs) play an important role in applications such as data collection and t...
This paper addresses an innovative evolutionary computation approach to 3D path planning of autonomo...
This research presents two novel approaches to nonholonomic motion planning. The methodologies prese...
UAS (Unmanned Aerial Systems) Traffic Management, or UTM in short, aims to provide services to multi...
A current challenge in path planning is the ability to efficiently calculate a near-optimum path sol...
This paper identifies feasible fight paths for Small Unmanned Aircraft Systems in a highly constrain...
This paper studies the Fast Marching Square (FM2) method as a competitive path planner for UAV appl...
This paper studies the Fast Marching Square (FM2) method as a competitive path planner for UAV appli...
Nowadays, mission planning for Unmanned Aerial Vehicles (UAVs) is a very attractive research field....
This article provides a comprehensive view of the novel fast marching (FM) methods we developed for ...
This research presents a novel approach for missions of coverage path planning (CPP) carried out by ...
This article presents a novel method for the management of UAVs formations. Based on the fast marchi...
The exploration of unknown environments is a challenge in robotics. The proposed method approaches t...
Fast motion planning (FMP) of autonomous vehicles has been advanced rapidly for robotics research, p...
Safe and simultaneous arrival of constant speed, constant altitude UAVs on target is solved by desig...
Unmanned Aerial Vehicles (UAVs) play an important role in applications such as data collection and t...
This paper addresses an innovative evolutionary computation approach to 3D path planning of autonomo...
This research presents two novel approaches to nonholonomic motion planning. The methodologies prese...
UAS (Unmanned Aerial Systems) Traffic Management, or UTM in short, aims to provide services to multi...
A current challenge in path planning is the ability to efficiently calculate a near-optimum path sol...
This paper identifies feasible fight paths for Small Unmanned Aircraft Systems in a highly constrain...