PJ05-W2 DTT

PJ05-W2 Digital Technologies for Tower

Abstract

PJ.05-W2 Digital technologies for Tower - SESAR-IR-VLD-WAVE2-05-2019 deals with two Solutions: Solution 35: "Multiple Remote Tower and Remote Tower centre" and with solution 97: "HMI Interaction modes for Airport Tower". 14 SESAR members (in sum 31 legal beneficiaries) showed interest in these solutions. For solution 35 cost-effectiveness is the principal key performance area (KPA). It proposes the development of a remotely provided aerodrome air traffic service by a "multiple" and/or "center" setting. Those settings help to combine ATS services from various aerodromes in a centralized control room independent on airport location in order to make use of the valuable resource ATS provider more efficiently. In the end, the passengers will benefit from by a better passenger comfort in terms of shorter travel times and better point to point connections. PJ05 will bring the multiple/center concept to such a matured level ready for industrialization. PJ05-Solution 97 aims to validate, in different Airport operating environments, innovative HMI modes and associated technologies. Those solutions are expected to positively contribute to the Safety and HP KPAs with reduced Controllers’ head down time and workload, as well as increased situation awareness and controllers' productivity. The PJ05-W2 DTT attracted plenty of European organisations to participate: ANSPs, industries, R&D; and airport stakeholder intends to provide their specific competences to broaden the operational needs and technological expertises. The PJ05 variety of partners and validation activities will help to adequately reflect the variety of operational needs and technical solutions which in the end of the project will consolidate into a harmonized and widely accepted SESAR2020 PJ05 solution. The complete work is structured in a very collaborative way throughout all work packages and will ensure the transfer of knowledge and know-how between all participants and external to SESAR2020 projects.

Project details

Unibo Team Leader: Sara Bagassi

Unibo involved Department/s:
Dipartimento di Ingegneria Industriale

Coordinator:
Dlr Deutsches Zentrum Fur Luft Und Raumfahrt E.V.(Germany)

Other Participants:
Enaire (Spain)
Swedavia Ab (Sweden)
Frequentis Ag (Austria)
Thales Las France Sas (France)
Schiphol Nederland B.V. (Netherlands)
Avinor As (Norway)
Indra Sistemas S.A. (Spain)
Saab Aktiebolag (Sweden)
Hungarocontrol Magyar Legiforgalmiszolgalat Zartkoruen Mukodo Reszvenytarsasag (Hungary)
Enav S.P.A. (Italy)
Polska Agencja Zeglugi Powietrznej (Poland)
Rizeni Letoveho Provozu Ceske Republiky Statni Podnik-Air Navigation Services Of The Czech Republic (Czech Republic)
Dfs Deutsche Flugsicherung Gmbh (Germany)
Leonardo Spa (Italy)
Valstybes Imone Oro Navigacija (Lithuania)
Sintef As (Norway)
Heathrow Airport Limited (United Kingdom)
Croatia Control, Croatian Air Navigation Services Ltd (Croatia)
Aeroports De Paris Sa (France)
Luftfartsverket (Sweden)
Atos Belgium (Belgium)
Naviair (Denmark)
Airtel Atn Limited (Ireland)
Letove Prevadzkove Sluzby Slovenskej Republiky, Statny Podnik-Flight Operating Services Of The Slovak Republic (Slovak Republic)
Flughafen Munchen Gmbh (Germany)
Udaras Eitliochta Na Heireann The Irish Aviation Authority (Ireland)
Stichting Nationaal Lucht- En Ruimtevaartlaboratorium (Netherlands)
Flughafen Zurich Ag (Switzerland)
Austro Control Osterreichische Gesellschaft Fur Zivilluftfahrt Mbh (Austria)
Eurocontrol - European Organisation For The Safety Of Air Navigation (Belgium)

Third parties:
ALMA MATER STUDIORUM - Università di Bologna (Italy)

Total Eu Contribution: Euro (EUR) 6.150.284,22
Project Duration in months: 37
Start Date: 01/12/2019
End Date: 31/12/2022

Cordis webpage
Project website

Industry, innovation and infrastructure This project contributes to the achievement of the Sustainable Development Goals of the UN 2030 Agenda.

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 874470 This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 874470