Bosworth, Michael L., Gregory J. Opas, Thomas M. Rivers, Malcolm Whitford, and Thomas Wetherald, " Supporting Affordable and Sustainable Amphibious Assault and Utility Capabilities with a Revitalized High–Low Mix of Platforms," Naval Engineers Journal, Volume 121, Number 4, October 2009 , pp. 69-78.
Campbell, Mark A., John Krempasky, and Michael Bosworth, " A Persistent, Effective, and Affordable Global Fleet Station Concept," Naval Engineers Journal, Volume 123, Number 4, December 2011 , pp. 51-66.
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Koenig, Philip, Don Nalchajian, and John Hootman, " Ship Service Life and Naval Force Structure ," Naval Engineers Journal, Volume 121, Number 1, 1 March 2009 , pp. 69-77.
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Bosworth, Michael Lane, " Producibility as a Design Factor in Naval Combatants," Thesis, MIT, Ocean Engineer and MS Naval Architecture and Marine Engineering, May 16, 1985.
Bosworth, Michael, Scott Black, and John R. Meyer, " Well Deck Deployable Naval Combatants," Naval Engineers Journal, Volume 106, Number 1, 1 January 1994 , pp. 108-122.
Bosworth, Michael L., Aileen G. Kleiman, and Steven C. Matz, " Multimission Ship Design for an Alternative Fleet Concept," Naval Engineers Journal, Volume 103, Number 3, 1 May 1991 , pp. 91-106.
Broome, Granville W., David W. Nelson, and William D. Tootle," The Design of Variable Payload Ships ," Naval Engineers Journal, Volume 94, Number 2, 1 April 1982 , pp. 147-178.
Brown, Alan, and Juan Salcedo, " Multiple-Objective Optimization in Naval Ship Design," Naval Engineers Journal, Volume 115, Number 4, 1 October 2003 , pp. 49-62.
Brown, Alan; Waltham-Sajdak, John, " Still Reengineering the Naval Ship Concept Design Process," Naval Engineers Journal, Volume 127, Number 1, 1 March 2015, pp. 49-61(13).
Calvano, C.N., O. Jons and R.G. Keane, " Systems Engineering in Naval Ship Design," Naval Engineers Journal, Volume 112, Number 4, 1 July 2000 , pp. 45-57.
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Giammarco, Kristin; Hunt, Spencer; Whitcomb, Clifford Using the Design Reference Mission for Framing Naval Ship Design Problems," Naval Engineers Journal, Volume 130, Number 1, 1 March 2018, pp. 53-63(11).
Goff, Christy I., Charles L. McNamara, Joseph M. Bradley, Christopher S. Trost, William J. Dalton, and Michael E. Jabaley, Jr., " Maximizing Platform Value: Increasing VIRGINIA Class Deployments ," Naval Engineers Journal, Volume 123, Number 3, September 2011 , pp. 119-139.
Gray, Alexander Westley, " Enhancement of Set-Based Design Practices Via Introduction of Uncertainty Through the Use of Interval Type-2 Modeling and General Type-2 Fuzzy Logic Agent Based Methods." PhD dissertation, Naval Architecture and Marine Engineering, University of Michigan 2011.
Gray, Alexander W.; Rigterink, Douglas T.; McCauley, Peter, " Point-Based Versus Set-Based Design Method for Robust Ship Design Naval Engineers Journal, Volume 129, Number 2, 1 June 2017, pp. 83-96(14).
Gray, Alexander W.; Rigterink, Douglas T., " Set-Based Design Impacts on Naval Ship Upgradability ," Naval Engineers Journal, Volume 130, Number 3, 1 September 2018, pp. 117-126(10).
Hannapel, Shari, and Nickolas Vlahopoulos, " Introducing Uncertainty in Multidiscipline Ship Design ," Naval Engineers Journal, Volume 122, Number 2, 1 June 2010 , pp. 41-52.
Hannapel, Shari E., Nickolas Vlahopoulos, and David J. Singer, " Including Principles of Set-Based Design in Multidisciplinary Design Optimization," AIAA 2012-5444, 12th AIAA Aviation Technology, Integration, and Operations (ATIO) Conference and 14th AIAA/ISSM 17 - 19 September 2012, Indianapolis, Indiana.
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Keane, Robert G., John McIntire, Howard Fireman, and Daniel J. Maher, " The LPD 17 Ship Design: Leading a Sea Change Toward Collaborative Product Development ," Naval Engineers Journal, Volume 121, Number 2, 1 June 2009 , pp. 15-61.
Keane, Robert G.; Mierzwicki, Timothy; Grogan, Glen, " Designing Out Complexity Early: A Path to Affordable Flexible Warships ," Naval Engineers Journal, Volume 129, Number 1, 1 March 2017, pp. 25-40(16).
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McKenney, Thomas A.; Lauren F. Kemink; and David J. Singer, Adapting to Changes in Design Requirements Using Set-Based Design , Naval Engineers Journal, Volume 123, Number 3, September 2011 , pp. 67-77.
Mebane, Walter L.;Craig M. Carlson; Chris Dowd; David J. Singer; and Michael E. Buckley, Set-Based Design and the Ship to Shore Connector, Naval Engineers Journal, Volume 123, Number 3, September 2011 , pp. 79-92.
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Intro and Section A
Section B
Section C
Appendix
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Shields, Colin P. F.; Singer, David J., " Naval Design, Knowledge-Based Complexity, and Emergent Design Failures," Naval Engineers Journal, Volume 129, Number 4, 1 December 2017, pp. 75-86(12)
Sims, Philip, and Jennifer Lin, " Common Studies Necessary to Support Early Stage Ship Alternative Evaluations," Naval Engineers Journal, Volume 125, Number 2, June 2013 , pp. 135-143.
Skomedal, Dr. Nere G., " The role of set-based design in successful shipbuilind project execution. Experiences from Umoe," Trondheim, presentation dated 21 May 2014.
Specking, Eric A.; Whitcomb, Cliff; Parnell, Gregory S.; Goerger, Simon R.; Pohl, Edward; Kundeti, Naga Sai Achyuth, " Literature Review: Exploring the Role of Set-Based Design in Trade-Off Analytics," Naval Engineers Journal, Volume 130, Number 2, 1 June 2018, pp. 51-62(12).
Surko, CDR Steve, and Michael Osborne, " Operating Speed Profles and the Ship Design Cycle," Naval Engineers Journal, Volume 117, Number 3, 1 July 2005 , pp. 79-85.
van Oers, Bart; Takken, Erik; Duchateau, Etienne; Zandstra, Ruben; Cieraad, Siebe; van den Broek-de Bruijn, Wendy; Janssen, Michel, " Warship Concept Exploration and Definition at The Netherlands Defence Materiel Organisation," Naval Engineers Journal, Volume 130, Number 2, 1 June 2018, pp. 63-84(22).
Whitcomb, Clifford; Hernandez, Alejandro; Vizzini, Mary, " Engineering Reasoning in Set-Based Design ," Naval Engineers Journal, Volume 131, Number 1, 1 March 2019, pp. 55-63(9).
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Ashton, Robert W.; Corzine, Keith A., " The Series-Load-Resonant Converter as a Shipboard Power System Interface: A Detailed Analysis ," Naval Engineers Journal, Volume 133, Number 1, 1 March 2021, pp. 155-166(12).
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Calfo, Raymond M., Gregory E. Poole, and John E. Tessaro, " High Frequency AC Power System," Naval Engineers Journal, Volume 120, Number 4, 1 December 2008 , pp. 45-54.
Calfo, Ray M., Matt B. Smith, and John E. Tessaro, " High-Speed Generators for Power-Dense, Medium-Power, Gas Turbine Generator Sets," Naval Engineers Journal, Volume 119, Number 2, 1 October 2007 , pp. 63-81.
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Dutton, Jeffrey, L., " Contrarotating Electric Drive for Attack Submarines," Naval Engineers Journal, Volume 112, Number 2, 1 March 2000 , pp. 47-52.
Eckels, P.W. and G. Snitchler, " 5 MW High Temperature Superconductor Ship Propulsion Motor Design and Test Results," Naval Engineers Journal, Volume 117, Number 4, 1 October 2005 , pp. 31-36.
Elger, Wallace, " Development of Metal Fiber Electrical Brushes for 500 kW SSMG Sets," Naval Engineers Journal, Volume 117, Number 4, 1 October 2005 , pp. 37-44.
Hebner, Robert E., John D. Herbst, and Angelo L. Gattozzi, " Pulsed Power Loads Support and Efficiency Improvement on Navy Ships ," Naval Engineers Journal, Volume 122, Number 4, 1 December 2010 , pp. 23-32.
Huynh, Co, Larry Hawkins, Ali Farahani, and Patrick McMullen, " Design and Development of a Two-Megawatt, High Speed Permanent Magnet Alternator for Shipboard Application," Naval Engineers Journal, Volume 117, Number 4, 1 October 2005 , pp. 23-29.
Jacobson, Boris, and John Walker, " Grounding Considerations for DC and Mixed DC and AC Power Systems," Naval Engineers Journal, Volume 119, Number 2, 1 October 2007 , pp. 49-62.
Leeb, Steven B., James L. Kirtley, Jr., Warit Wichakool, Zachary Remscrim, Chad N. Tidd, J. Andrew Goshorn, Kevin Thomas, Robert W. Cox, and Rachel Chaney, " How Much DC Power is Necessary? ," Naval Engineers Journal, Volume 122, Number 2, 1 June 2010 , pp. 79-92.
Little, Commander G.T., Commander P.A. Erskine, and P. Norton, " Demonstrating the Electric Ship," Naval Engineers Journal, Volume 115, Number 4, 1 October 2003 , pp. 91-105.
Mills, Adam J.; Ashton, Robert W. Improving Stability in Shipboard DC Power Systems with Constant Power Loads," Naval Engineers Journal, Volume 129, Number 2, 1 June 2017, pp. 97-106(10).
Mongeau, Peter, " High Torque Density Propulsion Motors," Naval Engineers Journal, Volume 117, Number 4, 1 October 2005 , pp. 53-57.
Pichot, M.A., J.J. Zierer, A. Ouroua, and J.H. Beno, " Optimization of Gas Turbine Generator-Sets for Improved Power Density ," Naval Engineers Journal, Volume 118, Number 4, 1 October 2006 , pp. 49-56.
Plesnick, Shawn; Singh, Pritpal, " Stabilization of a Cascaded Converter MVDC System Through Passivity Based Control ," Naval Engineers Journal, Volume 131, Number 4, 1 December 2019, pp. 111-120(10).
Schegan, C.; Teti, J.; Rougeux, J.," Incorporating Variable Frequency Drives into a Navy Shipboard Environment: Lessons Learned ," Naval Engineers Journal, Volume 130, Number 2, 1 June 2018, pp. 153-158(6).
Schweitzer, E.O.,Fleming B., Lee, T.J. and Anderson, P.M.," Reliability Analysis of Transmission Protection Using Fault Tree Methods ," Schweitzer Engineering Laboratories, Inc., 1997,1998.
Stone, Philip E. C.; Wang, Jingjiang; Dougal, Roger; Shin, Yong-June, " Strategic Harmonic Filter Placement in an Electric Ship Integrated Power System ," Naval Engineers Journal, Volume 128, Number 1, 1 March 2016, pp. 35-46(12).
Strock, Justin and Alan Brown, " Methods for Naval Ship Concept and Propulsion Technology Exploration in a CGX Case Study ," Naval Engineers Journal, Volume 120, Number 4, 1 December 2008 , pp. 95-122.
Tate, Andrew and William Weidle, " Integration Impacts of a Hybrid Contra-Rotating Shaft-Pod (HCRSP) Arrangement on Naval Auxiliaries ," Naval Surface Warfare Center, Carderock Division, West Bethesda, MD, NSWCCD-CISD-2011/0013 October 2011.
Trinklein, Eddy H.; Parker, Gordon G.; McCoy, Timothy J.; Robinett, Rush D.; Weaver, Wayne W. ," Reduced Order Multi-Domain Modeling of Shipboard Systems for Exergy-Based Control Investigations ," Naval Engineers Journal, Volume 130, Number 3, 1 September 2018, pp. 87-105(19).
Wetz, David A., " Characterization of High Power Electrochemical Energy Storage Devices for Use in Naval Applications ," Naval Engineers Journal, Volume 125, Number 3, 1 September 2013, pp. 125-136(12).
Xiong, Han; Liu, Rui; Hu, Boxue; Wei, Zhuo; You, Haoyang; Zhang, Julia; Wang, Jin, " Insulation Monitoring in Medium-Voltage Propulsion Electric Machine with SiC Based Variable Speed Drive ," Naval Engineers Journal, Volume 131, Number 4, 1 December 2019, pp. 121-137(17).
Young, Stuart, CDR RN, CDR John Newell RN, and CDR Graeme Little, RN, " Beyond Electric Ship," Naval Engineers Journal, Volume 113, Number 4, 1 October 2001 , pp. 79-92.
Koenig, Philip C., Hitoshi Narita, and Koichi Baba, " Shipbuilding Productivity Rates of Change in East Asia," Journal of Ship Production, Vol. 19, No. 1, February 2003, pp. 32-37.
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Cusanelli, Dominic S., and Gabor Karafiath, " Hydrodynamic Energy Saving Enhancements for DDG 51-Class Ships," Naval Engineers Journal, Volume 124, Number 2, June 2012 , pp. 123-138.
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Karafiath, Gabor, Donald McCallum, and Dane Hendrix, " Designing Navy Hull Forms for Fuel Economy," Naval Engineers Journal, Volume 116, Number 2, 1 April 2004 , pp. 43-54.
Naval Sea Systems Command, "Shipboard Energy Conservation Guide" NAVSEA Technical Publication SL101-AA-GYD-010 Revision 5, 19 July 2016.
Reed, Arthur M., and William C. Day Jr., " Evaluation of Various Propulsion Arrangements to Improve Energy Conservation for Naval Combatants - Summary Report," DTNSRDC/SPD-0829-27, David W. Taylor Naval Ship Research and Development Center, Bethesda, MD, May 1984.
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Scherer, Timothy, and Jeffrey Cohen, " The Evolution of Machinery Control Systems Support At the Naval Ship Systems Engineering Station ," Naval Engineers Journal, Volume 123, Number 2, June 2011 , pp. 85-109.
Drake, Kimberly J., Michael Robinson, Patrick Violante, Sara E. Wallace, and David Woodward, " Intelligent Tools Used in the Design of Navy Ships ," Naval Engineers Journal, Volume 120, Number 1, 1 March 2008 , pp. 41-49.
Gray, Alexander W., Anthony S. Daniels, and David J. Singer, " Impacts of Fuzzy Logic Modeling for Constraints Optimization ," Naval Engineers Journal, Volume 122, Number 2, 1 June 2010 , pp. 121-132.
Lavis, David R., and Brian G. Forstell, " The Cost of Requirements and Emerging Technologies ," Naval Engineers Journal, Volume 120, Number 1, 1 March 2008 , pp. 59-76.
Parsons, Michael G., Hyun Chung, Eleanor Nick, Anthony Daniels, Su Liu, and Jignesh Patel, " Intelligent Ship Arrangements: A New Approach to General Arrangement ," Naval Engineers Journal, Volume 120, Number 3, 1 December 2008 , pp. 51-65.
Wilson, Wesley, Dane Hendrix, and Joseph Gorski, " Hull Form Optimization for Early Stage Ship Design ," Naval Engineers Journal, Volume 122, Number 2, 1 June 2010 , pp. 53-65.
Wintersteen, Bruce, and Igor Mizine, " Effective Application of Design Space Exploration In Ship Design," Naval Engineers Journal, Volume 124, Number 2, June 2012 , pp. 167-175.
Barker, C.F., and C.B. Campbell, " Risk Management in Total System Ship Design," Naval Engineers Journal, Volume 112, Number 4, 1 July 2000 , pp. 355-365.
Bowers, Daniel, Amanda Cardiel, Bella Curtis, and Scott Montrief " Overcoming Cost-Estimating Challenges for Navy Combat Systems ," Naval Engineers Journal, Volume 122, Number 4, 1 December 2010 , pp. 33-43.
Brown, Dr. Alan, and Timothy Mierzwicki, " Risk Metric for Multi-Objective Design of Naval Ships," Naval Engineers Journal, Volume 116, Number 2, 1 April 2004 , pp. 55-72.
Cooper, Dane; Koenig, Philip, " Cost Estimating Concepts and Approaches for Modular Adaptable Ship Designs ," Naval Engineers Journal, Volume 132, Number 2, 1 June 2020, pp. 141-146(6).
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Sims, Philip, " An Alternative Comparison of DDG 2 to DDG 51 Costs," Naval Engineers Journal, Volume 118, Number 4, 1 October 2006 , pp. 65-72.
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Gregor, Jeffrey Allen, " Real Options for Naval Ship Design and Acquisition: A method for valuing flexibility under uncertainty ," SM Thesis, MIT, Department of Ocean Engineering, 2003.
Guertin, Nickolas H.; Van Benthem, Paul, " Modularity and Open Systems Architecture Applied to the Flexible Modular Warship ," Naval Engineers Journal, Volume 128, Number 4, 1 December 2016, pp. 37-43(7).
Koenig, Philip C., " Real Options in Ship and Force Structure Analysis: A Research Agenda ," Naval Engineers Journal, Volume 121, Number 4, 1 October 2009 , pp. 95-105.
Mun, Johnathan, " Flexible Ships: Business Case Modeling by Applying Strategic Real Options and Monte Carlo Simulation Modeling ," Naval Engineers Journal, Volume 133, Number 1, 1 March 2021, pp. 103-120(18).
Page, Jonathan, " Flexibility in Early Stage Design of US Navy Ships: An Analysis of Options," SM and NE Thesis, MIT, Engineering Systems Division and the Department of Mechanical Engineering, June 2011
Sturtevant, Glen H.; Flitter, Lance A.; Marshall, Heath L.; Voth, Jeffrey M., " Flexible Ships: Affordable Relevance Over the Lifecycle ," Naval Engineers Journal, Volume 126, Number 3, 1 September 2014, pp. 53-66(14).
U.S. Marine Corps, " Leading Marines," MCWP 6-11, 27 Nov 2002.
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