| Autor: |
Vossen, R. van, Raa, L.A. te, Beckers, A.L.D., Veldhuis, G.A., Persson, L., Krylstedt, P., Cleophas, P.L.H., Steffen, L., Rudius, M., Rings, S., Zandstra, R.J., Oers, B.J. van |
| Jazyk: |
angličtina |
| Rok vydání: |
2019 |
| Zdroj: |
Undersea Defence Technology, Stockholm, 13-15 may 2019 |
| Popis: |
Sea mines are cost-effective weapons to disturb sea traffic and deny access to sea. Many nations across the world have sea mines and are capable to deploy them. Mine stocks globally contain a wide variety of mine types and the technology of sea mines is still developing further. In addition, the environments in which sea mines may be encountered vary from benign to extremely challenging, making countering sea mines a very difficult task. Due to the enormous dependency of nations on access to the sea, maritime mine counter measures (MMCM) capabilities are an essential component to enable mobility at sea. Emerging new technologies such as high-resolution sonar systems, unmanned systems, and autonomy enable new MMCM concepts. In the European Defence Agency (EDA) MMCM-New Generation project, in which Belgium, Estonia, Germany, Norway, Sweden, and the Netherlands participated, these future concepts are analysed using a business-case approach. This approach considers the value of solutions expressed in terms of measures of effectiveness, the cost and the project risks associated with a capability replacement program. This paper presents the tooling developed to support the business case development and the main business case results, and potential for a common way ahead. |
| Databáze: |
OpenAIRE |
| Externí odkaz: |
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