Project Vision

Provide European technology to render drones as a safe and efficient component of the mobility mix, with differentiated, safe and reliable capabilities in extended beyond visual line of sight (BVLOS) operations.

To reach the vision, the available technologies will be explored. This includes the option of transferring and extend automotive sense and control technologies, as well as commercial off-the-shelf communication technologies, applying innovative security features to reach adequate safety levels for modern unmanned aviation.

Project Mission

Develop technologies for operations beyond visual line-of-sight
Regulatory framework: EASA Specific Operations Risk \nAssessment (SORA)
Develop technologies that contribute to increased trust in civilian drone operations
Higher reliability of data and communications increase trust
Increased trackability of drones and transparency of operations
Bring relevant automotive technology to the drone industry
Cost-effective and tested on ground
Leverage European primacy in automotive technologies and
strengthen industry’s capability in cross-domain technologies

Project Facts

Short Name: ADACORSA
Full Name: Airborne Data Collection on Resilient System Architectures
Duration: 1/05/2020 – 1/05/2023 (36months)
Total costs: Up to 42 M €
Requested EU Contribution: ~12 M€
Consortium: 49 Partners out of 12 countries along the exploitation chain
Coordinator: Infineon Technologies AG

Turkish Aerospace (TAI) will design, produce and provide drones for the project. TAI will contribute to test and validation of automotive sensors on the avionic systems, and test the results in airworthiness criterias. It will contribute to the testing byprovided sensor models, performing simulations, characterizing the sensor components in its lab and evaluating the sensor systems both in the lab and in the field.

Turkish Aerospace (TAI) will validate to use of these kind of sensors in avionic equipmentsfor relevance, integration methods and benefits to avionic market also Identify use cases in the avionic sector.Contribute to the identification of validation test activities as well as other industrial sectors research activities. 

  


 

Workpackages

WP1 Requirements

defines the system requirements as well as the use cases and validation methodologies

WP2 System Design

dedicated to the system level design based on modelling and simulation of key architectures for advanced control and sensing technologies with the purpose of providing feasible solutions to the market

WP3 Electronic Components

evaluates and provides necessary components including semiconductor components and HW devices

WP4 Embedded Systems and Computin

covers the development of embedded systems hardware and computing

WP5 System Integration

provides the means to WP6 for testing, validating and demonstrating the ADACORSA results through a set of dedicated demonstrators provided in the Supply Chain descriptions

WP6 Test Validation & Integration

focuses on reliability validation of the developed subsystems with the goal to demonstrate their properties and feasibility for industrial use

WP7 Regulatory Alignment, Standardization, Exploitation and Stakeholder Relations

covers exploitation, dissemination, standardization and market trends monitoring to analyse the solutions developed by the competitors

WP8 Project Management

performs the overall project management, including monitoring and all financial & contractual aspects

Acknowledgement

ADACORSA has received funding from the ECSEL Joint Undertaking (JU) under grant agreement No 876019.
The JU receives support from the European Union’s Horizon 2020 research and innovation programme and Germany, Netherlands, Austria, Romania, France, Sweden, Cyprus, Greece, Lithuania, Portugal, Italy, Finland, Turkey.

ADACORSA Supply Chains