AiRT is composed of several devices connected to provide the whole service of recording video or photographs in indoor scenarios using RPAS. Principally, there are two main working areas: the environment infrastructure (the ground-based system in charge of supporting drone operability) and the drone. AiRT is the name of the system control software. This manual provides a guide to using this software.This project has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement nº 732433
This paper proposes a UAV-based PM2.5 air quality and temperature-humidity monitoring system. The sy...
Autonomous drones can carry out functions such as emergency aid delivery, parcel delivery or inspect...
The unmanned aerial vehicle (UAV) offers great potential for collecting air quality data with high s...
This is the first release of AiRT Software: User interface for the design of flight plans with unman...
Welcome tho the first AiRT Newsletter! The main goal of AiRT is to design a drone which is especial...
With this contribution, we want to show how the AiRT system could change the future way of working o...
The use of RPAS (Remotely Piloted Aircraft Systems) or drones, as they are mostly known, has become ...
The design of the Storyboards for the AiRT software - OCS, led to the development of 25 sequence of ...
This document summarises The AiRT project’s results, achieved jointly by all partners in the last 24...
This document describes the creative industries’ needs for aerial indoor filming and photography usi...
Overview of airborne drone deployment, data acquisition and upload requirements for monitoring water...
AiRT WORKSHOP Flyer. INTERNATIONAL WORKSHOP ON DRONES & TECHNOLOGY APPLIED TO THE CREATIVE INDUSTRIE...
<p>Welcome tho the first AiRT Newsletter!</p> <p>The main goal of AiRT is to design a drone which i...
You will learn about the milestones we have achieved and be introduced to our partners, Aerotools. W...
AiRT WORKSHOP Banner. INTERNATIONAL WORKSHOP ON DRONES & TECHNOLOGY APPLIED TO THE CREATIVE INDUSTRI...
This paper proposes a UAV-based PM2.5 air quality and temperature-humidity monitoring system. The sy...
Autonomous drones can carry out functions such as emergency aid delivery, parcel delivery or inspect...
The unmanned aerial vehicle (UAV) offers great potential for collecting air quality data with high s...
This is the first release of AiRT Software: User interface for the design of flight plans with unman...
Welcome tho the first AiRT Newsletter! The main goal of AiRT is to design a drone which is especial...
With this contribution, we want to show how the AiRT system could change the future way of working o...
The use of RPAS (Remotely Piloted Aircraft Systems) or drones, as they are mostly known, has become ...
The design of the Storyboards for the AiRT software - OCS, led to the development of 25 sequence of ...
This document summarises The AiRT project’s results, achieved jointly by all partners in the last 24...
This document describes the creative industries’ needs for aerial indoor filming and photography usi...
Overview of airborne drone deployment, data acquisition and upload requirements for monitoring water...
AiRT WORKSHOP Flyer. INTERNATIONAL WORKSHOP ON DRONES & TECHNOLOGY APPLIED TO THE CREATIVE INDUSTRIE...
<p>Welcome tho the first AiRT Newsletter!</p> <p>The main goal of AiRT is to design a drone which i...
You will learn about the milestones we have achieved and be introduced to our partners, Aerotools. W...
AiRT WORKSHOP Banner. INTERNATIONAL WORKSHOP ON DRONES & TECHNOLOGY APPLIED TO THE CREATIVE INDUSTRI...
This paper proposes a UAV-based PM2.5 air quality and temperature-humidity monitoring system. The sy...
Autonomous drones can carry out functions such as emergency aid delivery, parcel delivery or inspect...
The unmanned aerial vehicle (UAV) offers great potential for collecting air quality data with high s...