The U. S. Navy's surface combatant force is built on a base of
about 150 ships. Current projections for surface force commissionings
and retirements indicate a need for an affordable variant of the Navy's
mainstay battle force surface combatant, DDG 51. Fleet accessions will
not keep pace with ship retirements to maintain required force levels
unless the acquisition cost of the ships can be reduced. In addition,
by also reducing operations and support costs, the Navy can ensure that
a low cost alternative to DDG 51 generates cost savings over the entire
ship's life cycle.
<p>This study has been conducted in an effort to develop a concept
design for a low cost surface combatant to be used by the United States
Navy as an alternative to DDG 51. The design endeavors to meet stated
Navy objectives for surface combatant affordability and capability.
<p>Affordability is not simply a function of cost. It is instead a
more complex measure which is dependent on factors including unit costs,
budgets t and force structures. Thus, changes to any or all of these
basic components can alter the affordability definition within any given
application or context. The budget and force levels for the next 20
years are projected to decline, while unit costs continue to rise. For this reason, lower cost alternatives must be pursued in order to balance
the affordability equation and allow required force levels to be
maintained within budgetary constraints.
<p>Acquisition cost for a DDG 51 low cost alternative should be less
than $2 billion (in FY 91 dollars) for the firs t ship. This high
initial cost would be attributed to the research, development, and
design costs associated with a new ship design, as well as the actual
construction costs for the first ship. Acquisition costs for follow
ships should average around $750 million, or $100 million less than DDG
51. Overall life cycle costs should represent at least a 10%
improvement over DDG 51. / Master of Science
Identifer | oai:union.ndltd.org:VTETD/oai:vtechworks.lib.vt.edu:10919/40781 |
Date | 26 January 2010 |
Creators | Hartman, Chris G. |
Contributors | Systems Engineering, Blanchard, Benjamin S. Jr., Fabrycky, Wolter J., Tibbitts, Barrick F. |
Publisher | Virginia Tech |
Source Sets | Virginia Tech Theses and Dissertation |
Detected Language | English |
Type | Master's project |
Format | BTD, application/pdf |
Relation | LD5655.V851_1991.H377.pdf |
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