Opis projektu
Bezpieczna komunikacja w powietrzu
W ostatnich latach branża lotnictwa cywilnego doświadczyła problemu cyberataków. Dlatego też bezpieczeństwo przesyłanych i odbieranych podczas lotu danych ma kluczowe znaczenie. Nowe technologie, takie jak samoloty połączone z siecią oraz nowoczesne systemy łączności, nawigacji i nadzoru / zarządzania ruchem lotniczym, wraz z tendencjami do zwiększania łączności, uzależnienia od technologii i wspólnej infrastruktury opartej na wspólnych technologiach i normach, zmieniają przekrój potencjalnych zagrożeń dla systemu lotniczego. Dlatego też zespół finansowanego ze środków UE projektu vACCINE opracuje pokładowy filtr bezpieczeństwa na potrzeby statków powietrznych. Będzie on w stanie sprawdzać/kontrolować dane z infrastruktury naziemnej przed zezwoleniem na wprowadzenie ich do awioniki, aby nie naruszyć tego poziomu bezpieczeństwa.
Cel
ATC use of datalink is widely expanding over the years. Data communications are a key enabler sustaining SESAR/NextGen services, deployment being planned in the 2020+. Legacy data transmission is not encrypted for existing datalink capabilities and protocol. As a consequence, it is very hard to identify if failure is a malfunction or an attack.
However, civil aviation is an increasingly attractive target for cyber-attacks. New technologies such as e-enabled aircraft and modern CNS/ATM systems, together with trends towards greater connectivity, reliance on technology, common infrastructure underpinned with common technologies with common standards, etc. … are changing the risk landscape of the aviation system.
The consequences of a potential cyber-attack in civil aviation are wide and can include:
(i) Lost of trust in new systems & concepts, limiting their successful deployment;
(ii) A 'domino effect' of failures across connected systems or common components;
(iii) Closure of the air traffic management system for unpredictable periods; …
Since there is not a 'silver bullet' technology that will secure the aeronautical domain, it is essential to:
(i) Investigate measures to make the current systems more resilient against cyber-threats
(ii) To establish effective and automated solutions for intrusion detection;
(iii) Promote its implementation worldwide and build trust across stakeholders.
Considering aforementioned challenges, the vACCINE Project aims to design an aircraft onboard security filter with an accuracy level of intrusion detection compatible with cyber protection objectives. The objective is to check/control data from the ground domain before authorizing them to enter the avionics domain not to compromise this level of safety.
Based modern digital transformation concepts and cyber-security technologies, the Project will deploy an innovative approach to catalyse the resilient of existing aeronautical communication systems against cyber-threat.
Dziedzina nauki
- engineering and technologymechanical engineeringvehicle engineeringaerospace engineeringaircraft
- medical and health sciencesbasic medicinepharmacology and pharmacypharmaceutical drugsvaccines
- social sciencessocial geographytransporttransport planningair traffic management
- natural sciencescomputer and information sciencescomputer security
Program(-y)
Zaproszenie do składania wniosków
Zobacz inne projekty w ramach tego zaproszeniaSystem finansowania
IA - Innovation actionKoordynator
1990 392 LISBOA
Portugalia