This paper is focused on the development and the flight performance analysis of an image-processing technique aimed at detecting flying obstacles in airborne panchromatic images. It was developed within the framework of a research project which aims at realizing a prototypical obstacle detection and identification System, characterized by a hierarchical multisensor configuration. This configuration comprises a radar, that is, the main sensor, and four electro-optical cameras. Cameras are used as auxiliary sensors to the radar, in order to increase intruder aircraft position measurement, in terms of accuracy and data rate. The paper thoroughly describes the selection and customization of the developed image-processing techniques in order to ...
This paper focuses on sensing algorithms for vision-based non cooperative sense and avoid. Obstacle ...
This paper discusses the outcome of flight experiments relevant to non-cooperative sense and avoid t...
The Italian Aerospace Research Centre and the Department of Aerospace Engineering at University of N...
This paper is focused on the development and the flight performance analysis of an image-processing ...
Copyright © 2012 Lidia Forlenza et al. This is an open access article distributed under the Creative...
To allow Unmanned Aircraft Systems (UAS) accessing National Airspace System (NAS) “Equivalent levels...
This paper focuses on an airborne multi-sensor system for autonomous detection and tracking of flyin...
This paper presents the development process of an airborne multi-sensor system for autonomous detect...
This paper focuses on a vision-based detection and tracking algorithm for UAS non cooperative collis...
Current research activities are worked out to develop fully autonomous unmanned platform systems, pr...
This research is investigating the feasibility of using computer vision to provide a level of situat...
Presented here is an analysis of an extensive flight campaign aimed at characterizing peculiarities,...
The research reported here is a part of NASA's Synthetic Vision System (SVS) project for the develop...
This paper focuses on sensing algorithms for vision-based non cooperative sense and avoid. Obstacle ...
This paper discusses the outcome of flight experiments relevant to non-cooperative sense and avoid t...
The Italian Aerospace Research Centre and the Department of Aerospace Engineering at University of N...
This paper is focused on the development and the flight performance analysis of an image-processing ...
Copyright © 2012 Lidia Forlenza et al. This is an open access article distributed under the Creative...
To allow Unmanned Aircraft Systems (UAS) accessing National Airspace System (NAS) “Equivalent levels...
This paper focuses on an airborne multi-sensor system for autonomous detection and tracking of flyin...
This paper presents the development process of an airborne multi-sensor system for autonomous detect...
This paper focuses on a vision-based detection and tracking algorithm for UAS non cooperative collis...
Current research activities are worked out to develop fully autonomous unmanned platform systems, pr...
This research is investigating the feasibility of using computer vision to provide a level of situat...
Presented here is an analysis of an extensive flight campaign aimed at characterizing peculiarities,...
The research reported here is a part of NASA's Synthetic Vision System (SVS) project for the develop...
This paper focuses on sensing algorithms for vision-based non cooperative sense and avoid. Obstacle ...
This paper discusses the outcome of flight experiments relevant to non-cooperative sense and avoid t...
The Italian Aerospace Research Centre and the Department of Aerospace Engineering at University of N...