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Julien BACLET 2 years ago
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******************* *** README AIDA ***
*** README AIDA *** *******************
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This repository contains the safety model of the study case AIDA.
This repository contains the safety model of the study case AIDA. It is provided by IRT Saint Exupéry under a Creative Commons BY-SA licence.
It is provided by IRT Saint Exupéry under a Creative Commons BY-SA licence. This repository is managed in versioning throught git, with the following url
This repository is managed in versioning throught git, with the following url
https://sahara.pf.irt-saintexupery.com/
https://sahara.pf.irt-saintexupery.com/ project AIDA
project AIDA
1. AIDA description
1. AIDA description
2. Motivation and intended use
2. Motivation and intended use
3. List of files and how to use them
3. List of files and how to use them
************************************************************************
************************************************************************ * 1. AIDA description
* 1. AIDA description ************************************************************************
************************************************************************ The AIDA (Aircraft Inspection by Drone Assistant) system, is a Remotely Piloted Aircraft System (RPAS).
The AIDA (Aircraft Inspection by Drone Assistant) system, is a Remotely Piloted Aircraft System (RPAS). It is composed of a quadcopter drone, a control computer and a remote control.
It is composed of a quadcopter drone, a control computer and a remote control. The mission of this system is to help the pilot to inspect the aircraft before flight.
The mission of this system is to help the pilot to inspect the aircraft before flight. The quadcopter drone can be piloted in automated or manual mode. In manual mode,
The quadcopter drone can be piloted in automated or manual mode. In manual mode, the pilot guides the inspection of the aircraft by the drone.
the pilot guides the inspection of the aircraft by the drone. In automated mode, the drone follows a flight plan and records the video of the inspected zone.
In automated mode, the drone follows a flight plan and records the video of the inspected zone.
************************************************************************
************************************************************************ * 2. Motivation and intended use
* 2. Motivation and intended use ************************************************************************
************************************************************************ AIDA provides a reference study case representative of the complexity and criticity found in aeronautical
AIDA provides a reference study case representative of the complexity and criticity found in aeronautical systems.
systems. Our intent is to provide a repository to gather all AIDA modellings in order to share different approaches and tools.
Our intent is to provide a repository to gather all AIDA modellings in order to share different approaches and tools.
If you plan to use AIDA as a study case it would be kind to inform the IRT Saint-Exupery (systems-engineering@irt-saintexupery.com). We would be pleased to answer your questions.
If you plan to use AIDA as a study case it would be kind to inform the IRT Saint-Exupery contacts below. We would be pleased to answer your questions.
patrick.farail@irt-saintexupery.com
estelle.saez@irt-saintexupery.com
Currently, the following works use this use case :
Currently, the following works use this use case : Prosvirnova, T., Saez, E., Seguin, C., Virelizier, P.: Handling consistency between safety and system models.
Prosvirnova, T., Saez, E., Seguin, C., Virelizier, P.: Handling consistency between safety and system models. In: Bozzano, M., Papadopoulos, Y. (eds.) Model-Based Safety and Assessment - 5th International Symposium, IMBSA 2017, Trento, Italy, September 11-13, 2017, Proceedings.
In: Bozzano, M., Papadopoulos, Y. (eds.) Model-Based Safety and Assessment - 5th International Symposium, IMBSA 2017, Trento, Italy, September 11-13, 2017, Proceedings. Lecture Notes in Computer Science, vol. 10437, pp. 19-34. Springer (2017),
Lecture Notes in Computer Science, vol. 10437, pp. 19-34. Springer (2017), https://doi.org/10.1007/978-3-319-64119-5_2
https://doi.org/10.1007/978-3-319-64119-5_2
************************************************************************
************************************************************************ * 3. List of files and how to use them
* 3. List of files and how to use them ************************************************************************
************************************************************************ AIDASystem-AltaRicaDataFlow.alt: safety model of AIDA in AlaRica DataFlow (version Cecilia-OCAS), text format
AIDASystem-AltaRicaDataFlow.alt: safety model of AIDA in AlaRica DataFlow (version Cecilia-OCAS), text format
AIDASystem-OCASModel.exp: safety model of AIDA, Cecilia-OCAS export format (v5)
AIDASystem-OCASModel.exp: safety model of AIDA, Cecilia-OCAS export format (v5)
AIDASystem-OCASModel.docx: generated documentation of the model, MS Word format
AIDASystem-OCASModel.docx: generated documentation of the model, MS Word format

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