OCEAN2020 P ROJECT Project Overview This project has received funding from the European Union's Preparatory Action on Defence Research under grant agreement No 801697
OCEAN2020 Project Objectives • Operational objectives - Significant improvement to maritime Situation Awareness - Extended ISTAR performance by use of UXS and integration into CMS - EU-NATO interoperability by the use of open architecture and standards • Technical objectives - High integration among EU countries and heterogeneous systems, demonstrated in full scale- demo - Mediterranean Sea demonstration in 2019, Baltic Sea demonstration in 2020 - Integration of EU/NATO/civil framework data - Increased autonomy for UXS and swarm operations - Application of advanced data and information fusion techniques for shorter decision time - Development of EU C4ISR open architecture - Identification of open and industry endorsed standards • Impact-making objectives - Diverse EU wide consortium to demonstrate large military R&T effort - Improve market position of European defence industry in UXS - Involve End-User in design choices 2
OCEAN2020 Consortium LARGE ENTERPRISE SMALL/MEDIUM ENTERPRISE SAAB RESEARCH INSTITUTE UMS SKELDAR END USER FRAUNHOFER IOSB HENSOLDT MBDA INFINITE VISION SCHÖNHOFER TERMA VTT TNO QINETIQ AUTONAUT CYBERNETICA BLUE BEAR BPTI LITHUANIAN NAVY CMRE LUCIAD SAFRAN PGZ/CTM ECA ANTYCIP PROLEXIA INDRA GMV SEADRONE SPANISH MoD IDE ALTUS NKUA LEONARDO HELLENIC MoD TELESPAZIO/EGEOS GMV SKYSOFT IDS, FINCANTIERI PORTUGUESE NAVY CNIT, IAI INSIS, BLACKSHAPE ITALIAN NAVY
OCEAN2020 System Reference Architecture 4
OCEAN2020 Unmanned Systems Patroller Blackshape Black Start Aw-Hero Pelican SW4-Solo Skeldar Inspector SeaDrone Patrol AutoNaut Water Strider MKII Wave Glider Artigiana Craft MAST SeaRider Surv SAAB Great Diver DEDAVE CMRE UAV Oceanscan SAROV A-Series
Project Impact • Potential of EU-funded research for defence applications – Convincing demonstration of the potential of EU-funded research for defence applications • Unmanned systems industry for European defence – Development of the European industrial capability in the market segment of unmanned systems for defence capabilities • Military structures evolution resulting from the use of unmanned assets – Informing the shape of future military structures in view of the use of advanced unmanned systems – Improved efficiency and cost-effectiveness • Demonstration of enhanced operational capabilities through the use of unmanned assets – Substantial gain towards autonomous and safe operation from Navy ships of UxS providing suitable payload, range, endurance and handling – Enhancement of maritime situational awareness and command and control capabilities – Reliable operation in complex and severe maritime environment – Improved interoperability between manned and unmanned systems, with naval platforms and mission systems, and with multilateral EU defence systems 6
Project Governance 7
Work Breakdown Structure (up to level 2) Project Requir. System Tech.Dev. & Integration Human Impact Analysis Design Sys Simul & Trials Factor Assessment Operational Overarching Technology UAS System Use Requirement Result Evaluation, Design Development Improvements Study Analysis Dissemination & Communication System Info USS Operator Processing Improvements System Analysis of Interface Resilience Functional & Exploitation Design Sys.Transverse UUS Modeling Performance Design Improvements Requirements Business Training EU MOC UAS MOC Model/Plan Needs Identification Prototype Upgrading for Capability Analysis of Analysis Development Development Environmental USS CMS & Integration Requirements Identification Upgrading Training UUS System Ship Policy/Standard Tools Design Identification Simulation Integration Recommendations Requirement Demo Plan, Space Asset Live Demo Metrics & KPI Identification Med Sea Simulated Trials MOC Integr. Live Demo Design Baltic Sea Naval Integr. Design
Gantt Diagram 9
END OF PRESENTATION Antonino Arecchi LEONARDO S.P.A e-mail: antonino.arecchi@leonardocompany.com
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