The United States Navy continually deals with the challenges involved with the assignment of limited resources to address numerous and dispersed critical missions. The Navy's continued pursuit of decision aids to answer this problem and the ongoing critical maritime operations in the western pacific and Arabian seas demonstrate the importance of this issue. How do navy staffs assign surface and subsurface combatants to areas and missions. The available ships may be inbound or outbound to the maritime theater, they may already be assigned to other missions in different regions, or may require transit and off-station time before they can cover a particular mission. In planning major operations there are usually more missions than can be covered by available Navy combatants; therefore, it is likely that no ship will be assigned to low-priority missions, and deciding which higher-priority missions to cover at any time involves complicated trade-offs. This planning problem is compounded by the fact that multiple alternatives are required by fleet commanders and Joint Force Maritime Component Commanders (JFMCCs) who want to maximize the effectiveness of their maritime forces while avoiding excessive risk and identifying gaps in mission coverage. This thesis develops a decision support tool, the Navy Mission Planner (NMP), which rapidly selects employment schedules for Navy combatants to meet the requirements above. We illustrate how NMP identifies optimal coverage of maritime missions in a theater with a notional, unclassified Korean peninsula scenario with 11 ships, 65 missions and 24 user defined maritime regions, on a desktop PC. NMP gives decision makers the ability to adjust courses of action by manipulating the time horizon, optimality criterion, mission values, mission dependencies, and ships available, and provides valuable insight into which missions will and, more importantly, will not be covered for any set of mission priorities.
Navy Mission Planner
2007
51 pages
Report
No indication
English
Military Operations, Strategy, & Tactics , Missions , Trade off analysis , Naval planning , Decision support systems , Optimization , Decision aids , Naval vessels(Combatant) , Integer programming , Naval operations , Theses , Nmp(Navy mission planner) , Navy asset-mission pairing , Maritime headquarters , Maritime operations center
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