Add to ORKGThis report documents the work of the author’s final year project over the duration of two semesters. This report focuses on comparing two path planners, Fast Marching Method (FMM) and A* search, on UAV also known as drone, that has the same complexity of O(N log N) and completeness. The use of Robot Operating System (ROS) helps the author simulate a drone in an environment, navigating its way to the end point. This report begins with a brief introduction about autonomous navigation, followed by literature reviews on path planners that are available and recognised in the world of autonomous navigation. Following which, the methodology of conducting the experiments and the results related to Unmanned Aerial Vehicle (UAV) autonomous navigatio...
This paper presents an autonomous methodology for a low-cost commercial AR.Drone 2.0 in partly unkno...
The path planning problem has been a crucial topic to be solved in autonomous vehicles. Path plannin...
This paper presents an autonomous methodology for a low-cost commercial AR.Drone 2.0 in partly unkno...
As Unmanned Aerial Vehicle (UAV) become more prevalent, there is a growing interest in developing an...
This project aims to develop an autonomous navigation system for an UAV using only a stereo camera. ...
This study was to develop a path planning algorithm which identifies the lay-by and the divider on e...
The project titled as “Design and Development of Navigation Systems for Good Delivery UAV” focuses o...
In this report, the author aims to describe the programming for the autonomous vehicle he was tasked...
Unmanned aerial vehicles, due to their superior maneuverability and reduced costs can easily perf...
The feasibility and survivability of Unmanned Air Vehicles (UAV's) in field applications have been d...
As the presence of Unmanned Aircraft Systems (UASs) become more prominent today and in the future. T...
Unmanned aerial vehicles (UAVs) have demonstrated their effectiveness in performing diverse missions...
In the new era of intelligent systems, small-scale electronics, and advanced sensors, the applicatio...
Unmanned aircraft systems (UASs) are an important future technology with early generations already b...
The ability of an autonomous Unmanned Aerial Vehicle (UAV) in an unknown environment is a prerequisi...
This paper presents an autonomous methodology for a low-cost commercial AR.Drone 2.0 in partly unkno...
The path planning problem has been a crucial topic to be solved in autonomous vehicles. Path plannin...
This paper presents an autonomous methodology for a low-cost commercial AR.Drone 2.0 in partly unkno...
As Unmanned Aerial Vehicle (UAV) become more prevalent, there is a growing interest in developing an...
This project aims to develop an autonomous navigation system for an UAV using only a stereo camera. ...
This study was to develop a path planning algorithm which identifies the lay-by and the divider on e...
The project titled as “Design and Development of Navigation Systems for Good Delivery UAV” focuses o...
In this report, the author aims to describe the programming for the autonomous vehicle he was tasked...
Unmanned aerial vehicles, due to their superior maneuverability and reduced costs can easily perf...
The feasibility and survivability of Unmanned Air Vehicles (UAV's) in field applications have been d...
As the presence of Unmanned Aircraft Systems (UASs) become more prominent today and in the future. T...
Unmanned aerial vehicles (UAVs) have demonstrated their effectiveness in performing diverse missions...
In the new era of intelligent systems, small-scale electronics, and advanced sensors, the applicatio...
Unmanned aircraft systems (UASs) are an important future technology with early generations already b...
The ability of an autonomous Unmanned Aerial Vehicle (UAV) in an unknown environment is a prerequisi...
This paper presents an autonomous methodology for a low-cost commercial AR.Drone 2.0 in partly unkno...
The path planning problem has been a crucial topic to be solved in autonomous vehicles. Path plannin...
This paper presents an autonomous methodology for a low-cost commercial AR.Drone 2.0 in partly unkno...