Giachetti, 2015 - Google Patents
System of systems capability needs analysis via a stochastic network modelGiachetti, 2015
View PDF- Document ID
- 889277334308230907
- Author
- Giachetti R
- Publication year
- Publication venue
- Naval Engineers Journal
External Links
Snippet
Deriving capability needs for a system-of-systems (SoS) is more challenging than for traditional systems because many of the component systems already exist, they are acquired and managed separately from the SoS, and the way that component systems …
- 238000004458 analytical method 0 title abstract description 112
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Gilli et al. | The diffusion of drone warfare? Industrial, organizational, and infrastructural constraints | |
| Johnson | Artificial intelligence: a threat to strategic stability | |
| Brown et al. | A two-sided optimization for theater ballistic missile defense | |
| Perry et al. | Measures of Effectiveness for the information-Age Navy | |
| Lucas | The stochastic versus deterministic argument for combat simulations: Tales of when the average won't do | |
| US9544326B2 (en) | Digital weapons factory and digital operations center for producing, deploying, assessing, and managing digital defects | |
| Agarwala | Robots and artificial intelligence in the military | |
| Winstead | Implementation of Unmanned Surface Vehicles in the Distributed Maritime Operations Concept | |
| Giachetti | System of systems capability needs analysis via a stochastic network model | |
| Treml | A revolutionary approach for the development of future ground combat system specifications | |
| McLemore et al. | A model for geographically distributed combat interactions of swarming naval and air forces | |
| Norris | Human Factors in Military Maritime and Expeditionary Settings: Opportunity for Autonomous Systems? | |
| Work | Offensive Cyber Operations and Future Littoral Operating Concepts | |
| Brown et al. | Mission Engineering for Hybrid Force 2025 | |
| Naseem et al. | Real-time decision support system for resource optimization & management of threat evaluation and weapon assignment engineering in air defence | |
| Anwar et al. | Long Range Fires Joint Force Operations in GPS-Denied and Degraded Environments | |
| Cheang | Operational energy capability portfolio analysis for protection of maritime forces against small boat swarms | |
| Lindquist | An analysis of degraded communications in the Army's future force | |
| Liwång et al. | Analyzing Naval Fleet Modelling with a Tactics Perspective–The Case of Implementation of Autonomous Vessels | |
| Gilli et al. | The Diffusion of Drone Warfare? Industrial, Infrastructural and Organizational Constraints | |
| Schneider | Digitally-enabled warfare | |
| Milani | Autonomous Weapon Systems for the Land Domain | |
| Tănase et al. | C5ISR-D–APPLICABILITY OF THE CONCEPT IN NAVAL FORCES | |
| Gordon | Tactical Unmanned Aerial System Capabilities Impact Analysis in Support of the Expeditionary Marine Air Ground Task Force using Computer Modeling and Simulation | |
| Mastro | Operational Resilience for 2040 |