The SWAT-SHOAL project is led by Navantia and involves 20 organizations from 11 countries, including the Spanish companies SENER, SAES and GMV. It develops the concept of a System of Systems that integrates different types of manned and unmanned vehicles in a swarm to achieve greater efficiency in underwater missions, such as surveillance, reconnaissance, mine warfare, collaborative engagements or support for amphibious operations. Navantia thus strengthens its position as an integrator of swarms of unmanned vehicles in Command and Control Systems, both submarine and surface, increasing interoperability in the naval domain.
On the other hand, the objective of the E-NACSOS project is to define the European standard for real-time sensor information exchange and fusion between Combat Systems, which will strengthen collaborative surveillance in European naval forces and increase the effectiveness of naval surface and anti-aircraft operations. The scope includes the implementation of national demonstrators of the participating countries, including both simulated tests and sea trials with real units. The programme is led by the French company Naval Group and, in addition to Navantia, Indra and the University of Vigo are also participating from Spain.
These three projects, which will begin to be executed as of December 2023, represent a global amount of EUR 221 million and will contribute to Navantia’s strategic position at the technological forefront of defence companies in Europe.
Moreover, Navantia continues its line of collaboration with the main European Defence companies, a strategy that has already received the support of EDF in projects such as the design and construction of the European Corvette (EPC), the development of the digital platform for the next generation of European combat ships (EDINAF), the European Multi-domain Combat Cloud (EDOCC), the future hypersonic missile defence system (HYDEF), the structural monitoring of naval platforms in combat (dTHOR), the inertial navigation and quantum gravimeter system (Q-SiNG), the autonomous off-shore maritime surveillance platforms (USSPs) or the prospection of technologies for future naval platforms (SEA DEFENCE).