Recent proliferation of small Unmanned Aerial Systems (sUAS) applications requires onboard collision avoidance systems to mitigate the risk of collision with non-cooperative aircraft and manned aircraft, which may not see sUAS in time to perform an avoidance maneuver. An attractive avenue for onboard collision avoidance is the utilization of machine vision cameras due to their low size, weight and power (SWaP) requirements. In this paper, we characterize the range performance of a machine vision system developed in-house and mounted onto an sUAS. The technique was designed to estimate the performance of a sense-and-avoid system to ensure that the sensing components meet the well-clear requirements for the chosen platform and avoidance strat...
The commercial use of unmanned aerial vehicles (UAVs) would be enhanced by an ability to sense and a...
The future of UAS operations requires adequate and efficient Sense and Avoid strategies to ensure th...
Unmanned Aerial Vehicles or commonly known as drones are better suited for "dull, dirty, or dangerou...
Vision‐based aircraft detection technology may provide a credible sensing option for automated detec...
This paper presents a study of near collision course engagements between a Cessna 172R aircraft and ...
The ability for small Unmanned Aircraft Systems (sUAS) to safely operate beyond line of sight is of ...
Detecting collision-course targets in aerial scenes from purely passive optical images is challengin...
This paper presents first results of an experimental flight-test campaign aimed to gather data for p...
The ability for small Unmanned Aircraft Systems (sUAS) to safely operate beyond visual line of sight...
This paper provides an overview and a performance analysis of sensing approaches aimed at providing ...
The safe integration of Unmanned Aircraft Systems in the civil airspace requires the development of ...
In this technical report we describe our efforts towards a field deployable Sense and Avoid system f...
A customized detection and tracking algorithm for vision-based non cooperative UAS sense and avoid a...
This paper focuses on a vision-based detection and tracking algorithm for UAS non cooperative collis...
Very low altitude non-cooperative sense and avoid is considered as an essential component of multi-l...
The commercial use of unmanned aerial vehicles (UAVs) would be enhanced by an ability to sense and a...
The future of UAS operations requires adequate and efficient Sense and Avoid strategies to ensure th...
Unmanned Aerial Vehicles or commonly known as drones are better suited for "dull, dirty, or dangerou...
Vision‐based aircraft detection technology may provide a credible sensing option for automated detec...
This paper presents a study of near collision course engagements between a Cessna 172R aircraft and ...
The ability for small Unmanned Aircraft Systems (sUAS) to safely operate beyond line of sight is of ...
Detecting collision-course targets in aerial scenes from purely passive optical images is challengin...
This paper presents first results of an experimental flight-test campaign aimed to gather data for p...
The ability for small Unmanned Aircraft Systems (sUAS) to safely operate beyond visual line of sight...
This paper provides an overview and a performance analysis of sensing approaches aimed at providing ...
The safe integration of Unmanned Aircraft Systems in the civil airspace requires the development of ...
In this technical report we describe our efforts towards a field deployable Sense and Avoid system f...
A customized detection and tracking algorithm for vision-based non cooperative UAS sense and avoid a...
This paper focuses on a vision-based detection and tracking algorithm for UAS non cooperative collis...
Very low altitude non-cooperative sense and avoid is considered as an essential component of multi-l...
The commercial use of unmanned aerial vehicles (UAVs) would be enhanced by an ability to sense and a...
The future of UAS operations requires adequate and efficient Sense and Avoid strategies to ensure th...
Unmanned Aerial Vehicles or commonly known as drones are better suited for "dull, dirty, or dangerou...