Small/micro Unmanned Aerial Systems (UAVs) require the ability to operate with constraints of a diverse, automated airspace where obstacle telemetry is denied. This paper proposes a novel Sense, Detect and Avoid (SDA) algorithm with inherit resilience to sensor uncertainty. This is achieved through the interval geometric formulation of the avoidance problem, which by the use of interval analysis, can be extended to consider multiple obstacles. The approach is shown to demonstrate the ability to both tolerate sensor uncertainty and enact generated 3D avoidance trajectories. Monte-Carlo simulations demonstrate successful avoidance rates of 88%, 96% and 91% in two example collision scenarios and one multi-agent conflict scenario respectively
Unmanned Aerial Vehicles (UAVs) can carry out more complex civilian and military applications with l...
This paper proposes a novel approach for collision avoidance between Unmanned Aerial Vehicles (UAVs)...
This thesis presents a study of a possible solution to promote and support the integration of unmann...
This paper proposes a collision avoidance algorithm for the detection and avoidance capabilities of ...
Collision-avoidance is a safety-critical requirement to operate UAVs in non-segregated airspaces. I...
This paper proposes a collision avoidance algorithm for the detection and avoidance capabilities of ...
Collision avoidance strategies for multiple UAVs (Unmanned Aerial Vehicles) based on geometry are in...
The capability to ‘‘detect and avoid’’ potential collisions is one of the main technical challenges ...
Unmanned Aircraft System (UAS) is a fast-growing industry with extensive economic implications and w...
An autonomous avoidance system for the use in UAVs in controlled and uncontrolled airspace has to be...
The emergence of unmanned aerial vehicles and the ever increasing performance in terms of speed, fli...
URL to conference siteBefore unmanned aircraft can fly safely in civil airspace, robust airborne c...
An effective collision avoidance logic should prevent collision without excessive alerting. This re...
As the number of potential applications for Unmanned Aerial Vehicles (UAVs) keeps rising steadily, t...
A collision avoidance algorithm is developed and implemented that is applicable to different types o...
Unmanned Aerial Vehicles (UAVs) can carry out more complex civilian and military applications with l...
This paper proposes a novel approach for collision avoidance between Unmanned Aerial Vehicles (UAVs)...
This thesis presents a study of a possible solution to promote and support the integration of unmann...
This paper proposes a collision avoidance algorithm for the detection and avoidance capabilities of ...
Collision-avoidance is a safety-critical requirement to operate UAVs in non-segregated airspaces. I...
This paper proposes a collision avoidance algorithm for the detection and avoidance capabilities of ...
Collision avoidance strategies for multiple UAVs (Unmanned Aerial Vehicles) based on geometry are in...
The capability to ‘‘detect and avoid’’ potential collisions is one of the main technical challenges ...
Unmanned Aircraft System (UAS) is a fast-growing industry with extensive economic implications and w...
An autonomous avoidance system for the use in UAVs in controlled and uncontrolled airspace has to be...
The emergence of unmanned aerial vehicles and the ever increasing performance in terms of speed, fli...
URL to conference siteBefore unmanned aircraft can fly safely in civil airspace, robust airborne c...
An effective collision avoidance logic should prevent collision without excessive alerting. This re...
As the number of potential applications for Unmanned Aerial Vehicles (UAVs) keeps rising steadily, t...
A collision avoidance algorithm is developed and implemented that is applicable to different types o...
Unmanned Aerial Vehicles (UAVs) can carry out more complex civilian and military applications with l...
This paper proposes a novel approach for collision avoidance between Unmanned Aerial Vehicles (UAVs)...
This thesis presents a study of a possible solution to promote and support the integration of unmann...