Unmanned aircraft systems (UASs) are an important future technology with early generations already being used in many areas of application encompassing both military and civilian domains. This thesis proposes a number of integration techniques for combining control-based navigation with more abstract path planning functionality for UASs. These techniques are empirically tested and validated using an RMAX helicopter platform used in the UASTechLab at Linköping University. Although the thesis focuses on helicopter platforms, the techniques are generic in nature and can be used in other robotic systems. At the control level a navigation task is executed by a set of control modes. A framework based on the abstraction of hierarchical concurrent ...
This paper describes a reactive path planning strategy to avoid obstacles in partially known environ...
Industrial robotics, military, surveying, and delivery applications have laid a foundation for resea...
Unmanned aircraft systems use a variety of techniques to plan collision-free flight paths given a ma...
Path planning for small unmanned aerial vehicle (SUAV) has been researched for its high potential in...
The vast utility of unmanned aerial systems in wide-ranging applications, whether civil, militaristi...
Small Uninhabited Aerial Vehicles that are to be operated at low altitude in obstacle prone environ...
·With the rapid advancement of computer hardware and software technology, . truly autonomous mobi...
During the last few years Unmanned Air Vehicles have seen a widespread utilization, both in civilian...
This paper focuses on the design of an integrated navigation and guidance system for unmanned helico...
This work addresses the problem of providing the on-board system of an autonomous unmanned aerial ve...
The feasibility and survivability of Unmanned Air Vehicles (UAV's) in field applications have been d...
This report documents the work of the author’s final year project over the duration of two semesters...
This thesis proposes a collision avoidance and state estimation algorithm augmented by simple path p...
The thesis aims to investigate and develop innovative tools to provide autonomous flight capability t...
As the demands of autonomous mobile robots are increasing in recent years, the requirement of the pa...
This paper describes a reactive path planning strategy to avoid obstacles in partially known environ...
Industrial robotics, military, surveying, and delivery applications have laid a foundation for resea...
Unmanned aircraft systems use a variety of techniques to plan collision-free flight paths given a ma...
Path planning for small unmanned aerial vehicle (SUAV) has been researched for its high potential in...
The vast utility of unmanned aerial systems in wide-ranging applications, whether civil, militaristi...
Small Uninhabited Aerial Vehicles that are to be operated at low altitude in obstacle prone environ...
·With the rapid advancement of computer hardware and software technology, . truly autonomous mobi...
During the last few years Unmanned Air Vehicles have seen a widespread utilization, both in civilian...
This paper focuses on the design of an integrated navigation and guidance system for unmanned helico...
This work addresses the problem of providing the on-board system of an autonomous unmanned aerial ve...
The feasibility and survivability of Unmanned Air Vehicles (UAV's) in field applications have been d...
This report documents the work of the author’s final year project over the duration of two semesters...
This thesis proposes a collision avoidance and state estimation algorithm augmented by simple path p...
The thesis aims to investigate and develop innovative tools to provide autonomous flight capability t...
As the demands of autonomous mobile robots are increasing in recent years, the requirement of the pa...
This paper describes a reactive path planning strategy to avoid obstacles in partially known environ...
Industrial robotics, military, surveying, and delivery applications have laid a foundation for resea...
Unmanned aircraft systems use a variety of techniques to plan collision-free flight paths given a ma...