Sense and Avoid (SAA) represents one of the main roadblocks to the integration of Unmanned Aircraft Systems (UAS) operations by aviation authorities around the world. This tutorial outlines and reviews the substantial breadth of SAA architectures, technologies, and algorithms. Starting from a discussion about what constitutes a UAS and how it is different than manned aircraft, basic SAA definitions and taxonomies are discussed. The SAA process is dissected into three fundamental tasks, defined as sensing, detecting, and avoiding, which are discussed in detail. The tutorial concludes with a summary of the regulatory and technical issues that continue to challenge the progress on SAA, as a key component of reliable UAS operation in Civil Avia...
An autonomous avoidance system for the use in UAVs in controlled and uncontrolled airspace has to be...
This activity is part of a research project aiming to develop Rotary-Wing UAVs (RWUAVs) starting fro...
Cooperative and non-cooperative Sense-and-Avoid (SAA) capabilities are key enablers for Unmanned Air...
Sense and Avoid (SAA) represents one of the main roadblocks to the integration of Unmanned Aircraft ...
The sense and avoid capability is one of the greatest challenges that has to be addressed to safely ...
The sense and avoid capability is one of the greatest challenges that has to be addressed to safely ...
Sense-and-avoid (SAA) is a critical research topic for enabling the operation of Unmanned Aircraft S...
A key challenge to integrating unmanned aerial systems (UASs) into the National Airspace is providin...
Unmanned Aircraft, which are often referred as Remote Piloted Aircraft (RPA), Unmanned Aerial Vehicl...
The ability for small Unmanned Aircraft Systems (sUAS) to safely operate beyond line of sight is of ...
In recent years, numerous applications for unmanned aircraft systems (UAS) and autonomous air vehicl...
Remotely piloted aircraft are still not yet a feature of everyday life, however the numbers in use i...
This Paper illustrates the activities carried out within the framework of TERSA project, aimed at t...
The operation of small unmanned aerial systems (sUAS) in the National Airspace System requires a car...
The mission spectrum of future UAS (Unmanned Arial System) will require its integration into civil a...
An autonomous avoidance system for the use in UAVs in controlled and uncontrolled airspace has to be...
This activity is part of a research project aiming to develop Rotary-Wing UAVs (RWUAVs) starting fro...
Cooperative and non-cooperative Sense-and-Avoid (SAA) capabilities are key enablers for Unmanned Air...
Sense and Avoid (SAA) represents one of the main roadblocks to the integration of Unmanned Aircraft ...
The sense and avoid capability is one of the greatest challenges that has to be addressed to safely ...
The sense and avoid capability is one of the greatest challenges that has to be addressed to safely ...
Sense-and-avoid (SAA) is a critical research topic for enabling the operation of Unmanned Aircraft S...
A key challenge to integrating unmanned aerial systems (UASs) into the National Airspace is providin...
Unmanned Aircraft, which are often referred as Remote Piloted Aircraft (RPA), Unmanned Aerial Vehicl...
The ability for small Unmanned Aircraft Systems (sUAS) to safely operate beyond line of sight is of ...
In recent years, numerous applications for unmanned aircraft systems (UAS) and autonomous air vehicl...
Remotely piloted aircraft are still not yet a feature of everyday life, however the numbers in use i...
This Paper illustrates the activities carried out within the framework of TERSA project, aimed at t...
The operation of small unmanned aerial systems (sUAS) in the National Airspace System requires a car...
The mission spectrum of future UAS (Unmanned Arial System) will require its integration into civil a...
An autonomous avoidance system for the use in UAVs in controlled and uncontrolled airspace has to be...
This activity is part of a research project aiming to develop Rotary-Wing UAVs (RWUAVs) starting fro...
Cooperative and non-cooperative Sense-and-Avoid (SAA) capabilities are key enablers for Unmanned Air...