CONCERTO aims to provide the means to maximize the opportunities for CO2 reduction and to introduce non-CO2 impact management in daily operations. The goal is to reach TRL6 processes and tools that allow the ecosystem to achieve more eco-friendly trajectories and thus higher climate impact reduction without requiring major changes on legacy ATM and airlines systems. To do so, two specific objectives are declined for CONCERTO. The first one focuses on CO2 emissions reduction when the second one introduces non-CO2 climate impact reduction mitigation means. Finally, as CONCERTO is a data driven project, generating data on CO2 and non-CO2 effects and opportunities at TMA, ATSU and possibly network level, the project presents the opportunity to contribute to the improvement of european environmental performances dashboards. Ambition #1- Keep the pace on CO2 emissions reduction, integrate Green ATC capacity in ATM processes, with the appropriate level of automation, and support ATM actors in balancing permanently regularity and environmental performance at local and network level. Ambition #2- By leveraging state-of-the-art climate science, allow ATM actors to take their “eco-responsibility” to the next level Ambition #3- Strengthen cooperation, anticipation and exchange of information between NM, Air Traffic Control, Airlines and Flight Planning Service providers. Ambition #4- Demonstrate that mitigation measures such as the eco-friendly orchestrator and ECHO area avoidance concepts can be deployed progressively at network level, in close connection with scientific progress

* DIGITS-AU is the essential Airspace User complement to the DIGITS project (Demonstration of ATM Improvements Generated by Initial Trajectory Sharing). DIGITS was granted under H2020-SESAR-2015-2, SESAR.ID-VLD.Wave1-27-2015, and its continuation is dependent on the participation of Airspace Users (AU). * As required, DIGITS-AU brings together Airspace Users - who operate (even partially) in the airspace of ANSPs participating to DIGITS, namely DFS, ENAV, MUAC and NATS and - who will receive through this Call new onboard avionics capability which allows to downlink trajectory predictions, the so-called Extended Projected Profile (EPP), for sharing with Air Traffic Control. * This proposal addresses also the interface with other SESAR 2020 projects, by nature with PJ31 DIGITS, but also with PJs 01, 09, 10 and 18 in order to contribute to the identification of benefit potentials facilitated by this new airborne technology. The capture of real fuel burn reduction for DIGITS-AU flights is not possible due to the fact that ground ATC systems are used in an pre-operational or shadow mode, based on which air traffic controllers may not alter their instructions. Nevertheless "what-if" cases shall be identified as far as observations possibly allow and the theoretical fuel burn gain calculated.

Mobility and transportation are at the heart of our society which facilitate access to jobs, goods and services. And because air travel is one of the fastest and most progressive branches of the transportation sector it is also exposed to large visibility and strong European and worldwide pressure on sustainability. ALBATROSS is a wide scale initiative of major European aviation stakeholder groups to demonstrate how the technical and operational R&D achievements of the past years can transform the current fuel intensive aviation to an environment-friendly industry sector. To reach this goal ALBATROSS follows a holistic approach by covering all flight phases, directly involving all relevant stakeholder groups (such as Airlines, ANSPs, Network Manager, Airports and Industries) and addressing both operational and technological aspects of aviation and Air Traffic Management (ATM). The project will demonstrate the complementary of some solutions, from alternative aircraft fuel to enhanced ATM and Airspace Users operations on the ground, TMA and en-route. To foster increased flexibility and scalability the demonstrated approaches will also leverage cutting-edge technologies, such modern as air-ground connectivity means, and novel highly collaborative ATM procedures. The possibilities of implementing a “Flight with Zero waste of Fuel and CO2 emissions” will be explored and extensively demonstrated in real conditions, through a series of live trials in various European operating environments. The demonstrations will span through a period of several months and will utilize over 1000 demonstration flights, which will be supported by Air France, Novair, Lufthansa, Wizz Air and Swiss on Airbus and Boeing aircraft, 2 Airports and major ANSPs. During this effort a strong pressure will be put on objective measurability and representativeness of the results, built on systematic data collection, utilizing Big Data Analytics, Machine Learning and Artificial Intelligence.

FASTNet belongs to working area WA5, addressing topic WA5.1 Fast-track innovation and uptake for capacity on demand and dynamic airspace and focusing on future data services and applications for airport and network. FASTNet proposes solutions that contribute to the evolution of ATM aviation into an integrated digital ecosystem characterised by distributed data services. This project aims at further enhancing the airports and network integration in tactical, pre-tactical and strategic planning through the development of the following two solutions: - Solution 1: Enhanced AOPs-NOP Tactical planning, with the inclusion of an “airport-to-airport(s)" AOP to AOP collaborative planning process and the use of artificial intelligence. The solution aims to extend the consolidated Demand and Capacity Balancing (DCB) process amongst airports and NM. In this context, it will include an “airport-to-airport(s)” collaborative planning process, prior to the “airport-to-network” process, for performance benefits of all connected airports and the network, such as improved punctuality, optimized use of ground and airspace capacity, thus leading to higher network efficiency. - Solution 2: AOP-NOP Strategic and pre-tactical planning. This solution aims to extend the timeframe of the AOP-NOP integration, focusing on the strategic (from months in advance until D-7) and pre-tactical (D-7; D-1) planning phases to ensure a smooth transition towards tactical phase with reduced adjustments. Both Solutions 1 and 2 involve the extension of state-of-the-art technologies to integrate new datasets available at local level, such as local restrictions, pre-tactical flight information and strategic local information in order to enrich DCB information and ensure efficient planning from the strategic phase.

The SESAR work programme is in the Airline TEAM 2020 consortiums’ understanding an integrated Programme, involving all relevant stakeholders, where SESAR Solutions are matured for integration into the European ATM network in order to enhance its operational and economic efficiency, safety, security and capacity. It further develops and delivers the necessary operational and technical materials (specifications, procedures, prototypes, validation reports, etc.) for the progressive industrialisation, deployment and operation of a new ATM system. The consortium expects that SESAR 2020 will bring new ideas to the market and increase the pace of change in ATM, being part of the technology pillar of the European Union’s Single European Sky (SES). Ultimately, this means greater mobility and choice for our passengers in Europe; a more collaborative and better performing network. SESAR 2020 is also addressing the technology improvements as virtualisation and ATC contingency readiness, needed for better air traffic management in case of strikes and disruptions Aviation is a global industry and interoperability together with global harmonisation are key for its safe and sustained growth. The consortium will operationally support by this offer a project which will demonstrate the benefits for Airspace User (AU) in the operation of cross-border Arrival Management systems (AMAN) with an extended horizon in accordance with the Pilot Common Project (PCP) First Air Traffic Management (ATM) Functionality (AF#1), as well as the demonstration of AU involvement in the operation of two AMAN-related advanced concepts: the Target Time (TT) management concept and the Arrival Flexibility (A-FLEX) concept, which connect the Extended AMAN concept to the PCP Fourth ATM Functionality (AF#4). The consortium will ensure the required operational capabilities of European airspace users to contribute to the overall project objectives of SESAR 2020 PJ 25.