rODOS EIA
The project involved the Environmental Impact Assessment for a 97ha industrial zone near Rhodes city, targeting the relocation of industries, mitigation of pollution, and economic development of the prefecture.
The project involved the Environmental Impact Assessment for a 97ha industrial zone near Rhodes city, targeting the relocation of industries, mitigation of pollution, and economic development of the prefecture.
Proposed to deploy a multi-tier cybersecurity and threat-detection platform for protecting water infrastructure using IoT, UAV/USV surveillance, and AI analytics. Covered early-warning, anomaly detection, physical intrusion prevention, and cyberattack countermeasures.
Proposed to develop an open-access web platform for maritime safety, modeled after SKYbrary (aviation). Included human performance modeling, risk-based operational design, incident databases, training optimization tools, and modular safety innovation toolkits.
Proposed to establish a large-scale biodiversity observation and simulation framework across EU sea basins. Included sensor networks, spatial prioritization for conservation, data integration from EO platforms, and modeling of biodiversity shifts due to human and climate pressures.
Proposed to deliver a modular geo-referenced cloud platform (HPlus) for climate risk analysis, remediation, and lifecycle-based decision-making on cultural heritage sites. Included visualization tools, pilot sites, conservation guidelines, and an EEIG for long-term platform operation.
Proposed to support border surveillance using Copernicus SAR data to detect high-speed “go-fast” smuggling boats. Combined Sentinel-1 data analysis, ship wake detection, and AIS fusion for activity pattern analysis in Mediterranean sea corridors.
Proposed to train 140 public servants in Malta on GIS and remote sensing. Delivered modular courses (basic and advanced), skill assessments, and digital resources to improve spatial planning capacity and compliance with EU data directives (e.g. INSPIRE, Aarhus).
Proposed to design modular biosensors for detecting pollutants in water using advanced materials, RNA-based elements, and fiber-optic or microelectronic systems. Targeted TRL5 with in situ validation, LCA analysis, and integration with EU environmental data platforms under Zero Pollution Action Plan goals.
Proposed to develop and demonstrate an autonomous passenger ferry system for coastal commuting, integrating advanced sensors, infrastructure connectivity, cybersecurity, and real-time monitoring. Included feasibility studies, pilot operations in Germany and Greece, and long-term handover to the Hellenic Navy.
Proposed to create an intelligent logistics platform using Digital Twins, AI, and blockchain to optimize multimodal supply chains. Targeted zero-emission logistics and synchronized transport operations through real-time simulation and stakeholder integration across European corridors.