SPF (Sea Plane Fortress) delivers a cybersecurity framework for the digital twin and cloud monitoring back-end used in electric and conventional seaplane operations. Building on Parity Platform’s EV Loader and EV Safe applications, SPF secures real-time data flows for telemetry, charging and refueling control through hardened OCPP and REST interfaces, in line with the EUDOROS reference architecture. The toolset is validated through penetration testing, attack simulations and pilot deployment on Hellenic Seaplanes’ infrastructure.
The subproject brings together three complementary partners. Parity Platform (PARITY), a Greek SME developing secure charging infrastructure software, acts as subproject lead and application developer. It will adapt its EV Loader monitoring platform and introduce a cybersecurity toolset for seaplane recharging and refueling operations, harden the communication protocols (OCPP, MQTT, REST), and deliver the operator dashboards and the edge and cloud deployment of the SPF toolset.
The University of Patras (UPATRAS), represented by the Cyber-Physical Energy Systems team of the Power Systems, Renewable and Distributed Generation Laboratory, provides expertise in anomaly detection and resilient control algorithms for the recharging and refueling infrastructure of HSP; the team will also use its state-of-the-art real-time digital simulation facilities to test cyber-attack scenarios and provide real-time integration with the SPF toolset.
Hellenic Seaplanes (HSP), a Greek transport sector operator developing a nationwide seaplane network, participates as the priority entity and end user, providing operational requirements, real-world recharging and refueling infrastructure and operational data, hosting the pilot deployment, and leading end-user validation of the SPF toolset.