Nowadays, mission planning for Unmanned Aerial Vehicles (UAVs) is a very attractive research field. UAVs have been a research focus for many purposes. In military and civil fields, the UAVs are very used for different missions. Many of these studies require a path planning to perform autonomous flights. Several problems related to the physical limitations of the UAV arise when the planning is carried out, as well as the maintenance of a fixed flight level with respect to the ground to capture videos or overlying images. This work presents an approach to plan missions for UAVs keeping a fixed flight level constraint. An approach is proposed to solve these problems and to generate effective paths in terms of smoothness and safety dis...
Nowadays, UAV takes important role for both in military operation and civilian. The usage of UAV in ...
Context: The use of unmanned aerial vehicles (more popularly known as drones) has experienced a fast...
This thesis is a contribution to the Unmanned Aerial Vehicle (UAV) project at the Department of Engi...
This research presents a novel approach for missions of coverage path planning (CPP) carried out by ...
This paper studies the Fast Marching Square (FM2) method as a competitive path planner for UAV appl...
The feasibility and survivability of Unmanned Air Vehicles (UAV's) in field applications have been d...
Small-scaled unmanned aerial vehicles (UAVs) emerge as ideal image acquisition platforms due to the...
The interest of both the academics and industrials for the UASs (Uninhabited Aerial Systems) has bee...
This article belongs to the Special Issue Efficient Planning and Mapping for Multi-Robot Systems.Cov...
This thesis addresses coordinated path planning for fixed-wing Unmanned Aerial Vehicles (UAVs) engage...
This paper presents a hybrid method for path planning in 3D spaces. We propose an improvement to a n...
This thesis addresses coordinated path planning for fixed-wing Unmanned Aerial Vehicles (UAVs) engag...
Motivation: Unmanned Aerial Vehicles (UAV) is an aircraft that is controlled without the use of huma...
This paper studies the Fast Marching Square (FM2) method as a competitive path planner for UAV appli...
Unmanned aerial vehicles (UAVs) have demonstrated their effectiveness in performing diverse missions...
Nowadays, UAV takes important role for both in military operation and civilian. The usage of UAV in ...
Context: The use of unmanned aerial vehicles (more popularly known as drones) has experienced a fast...
This thesis is a contribution to the Unmanned Aerial Vehicle (UAV) project at the Department of Engi...
This research presents a novel approach for missions of coverage path planning (CPP) carried out by ...
This paper studies the Fast Marching Square (FM2) method as a competitive path planner for UAV appl...
The feasibility and survivability of Unmanned Air Vehicles (UAV's) in field applications have been d...
Small-scaled unmanned aerial vehicles (UAVs) emerge as ideal image acquisition platforms due to the...
The interest of both the academics and industrials for the UASs (Uninhabited Aerial Systems) has bee...
This article belongs to the Special Issue Efficient Planning and Mapping for Multi-Robot Systems.Cov...
This thesis addresses coordinated path planning for fixed-wing Unmanned Aerial Vehicles (UAVs) engage...
This paper presents a hybrid method for path planning in 3D spaces. We propose an improvement to a n...
This thesis addresses coordinated path planning for fixed-wing Unmanned Aerial Vehicles (UAVs) engag...
Motivation: Unmanned Aerial Vehicles (UAV) is an aircraft that is controlled without the use of huma...
This paper studies the Fast Marching Square (FM2) method as a competitive path planner for UAV appli...
Unmanned aerial vehicles (UAVs) have demonstrated their effectiveness in performing diverse missions...
Nowadays, UAV takes important role for both in military operation and civilian. The usage of UAV in ...
Context: The use of unmanned aerial vehicles (more popularly known as drones) has experienced a fast...
This thesis is a contribution to the Unmanned Aerial Vehicle (UAV) project at the Department of Engi...