References

Last Update: April 19, 2021

Force Architecture

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.

Koenig, Philip C., Peter M. Czapiewski, and John C. Hootman, " Synthesis and analysis of future naval fleets," Ships and Offshore Structures, SAOS 2008 Vol. 3 No. 2 pp. 81–89.

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.

Moreland, James D., " Structuring a Flexible, Affordable Naval Force to Meet Strategic Demand in the 21st Century ," Naval Engineers Journal, Volume 121, Number 1, 1 March 2009 , pp. 35-51.

Ship Design

Arentzen, E.S. and Philip Mandel, "Naval Architectural Aspects of Submarine Design," Presented at the SNAME Annual Meeting, New York, NY, November 17-18, 1960.

Bernstein, Joshua I., " Design Methods in the Aerospace Industry: Looking for Evidence of Set-Based Practices ," Thesis, MIT, May 1998.

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.

Covich, Philip, and Michael Hammes, " Repeat Ship Designs Facts and Myths , Naval Engineers Journal, Volume 95, Number 3, 1 May 1983 , pp. 101-108.

Frye, Matthew C., " Applying set based methodology in submarine concept design," Thesis, Massachusetts Institute of Technology. Dept. of Mechanical Engineering.; Massachusetts Institute of Technology. Engineering Systems Division.; System Design and Management Program. June 2010.

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.

Hootman, John C., and Dr. Cliff Whitcomb, " A Military Effectiveness Analysis and Decision Making Framework for Naval Ship Design and Acquisition," Naval Engineers Journal, Volume 117, Number 3, 1 July 2005 , pp. 43-61.

Jansen, Agnieta Habben; de Vos, Peter; Duchateau, Etienne; Stapersma, Douwe; Hopman, Hans; van Oers, Bart; Kana, Austin A.," A Framework for Vulnerability Reduction in Early Stage Design of Naval Ship Systems Naval Engineers Journal, Volume 132, Number 2, 1 June 2020, pp. 119-132(14).

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).

Kehoe, CAPT James W., Kenneth S. Brower, and Herbert A. Meier, " The Impact of Design Practices on Ship Size and Cost ," Naval Engineers Journal, Volume 94, Number 2, 1 April 1982 , pp. 68-86.

Kertmen, Aykut, " Evaluation of the Littoral Combat Ship (LCS) Potential for the Turkish Navy ," Thesis, Naval Postgraduate School, September 2006.

Lawson, Charles, E.," SEAMOD - A New Way to Design, Construct, Modernize and Convert U.S. Navy Combatant Ships ," 14th Annual Technical Symposium, Association of Scientists and Engineers of the Naval Air and Sea Systems Command, March 1977.

Leopold, Reuven," Mathematical Optimization Metrhods Applied to Ship Design," Massachusetts Institute of Technology, Reporrt No. 65-8, October 1965.

McKenney, Thomas Abbott, An Early-Stage Set-Based Design Reduction Decision Support Framework Utilizing Design Space Mapping and a Graph Theoretic Markov Decision Process Formulation , Doctoral dissertation, Naval Architecture and Marine Engineering, University of Michigan, 2013.

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.

Mercer, CAPT C. P., Ship to Shore Connector (SSC) A Turning Point in Naval Ship Design , Presentation, Amphibious Warfare Program Office PMS 377, 9 September 2010.

Mierzwicki, Timothy S.," Risk Index for Multi-Objective Design Optimization of Naval Ships ," Thesis, Virginia Polytechnic Institute and State University, April 24, 2003.

Naval Sea Systems Command, " T9070-AE-DPC-010/001-1, General – Design Practices and Criteria Manual, Publications Index and User Guide, NAVSEA Technical Publication, 29 July 2015.

Naval Sea Systems Command, " US Navy Report, Alternative Propulsion Methods for Surface Combatants and Amphibious Warfare Ships ," March 2007. Executive Summary Report

Naval Sea Systems Command, " NAVSEA 5230/32 Weight Estimate Data Transmittal Form ," (9-78)

Naval Surface Warfare Center Carderock Division, "The Navy Ship Design Process," January 6, 2012
Intro and Section A
Section B
Section C
Appendix

Parsons, Michael G., David J. Singer, and John A. Sauter, " A Hybrid Agent Approach for Set-Based Conceptual Ship Design," the International Conference on Computer Applications in Shipbuilding, Cambridge, MA June 7-11, 1999.

Rains, Dean A, " Combatant Ship Design Guidance Through Mission Effectiveness Analysis" Naval Engineers Journal, Volume 96, Number 3, May 1984, pp. 112-127.

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).

White, James W, and Amy Billups, " Navy Radar Trades at the Ship Interface," Naval Engineers Journal, Volume 120, Number 4, 1 December 2008 , pp. 79-86.

Yarbrough, Norman R., and Russell E. Kupferer,“ The Joint Command and Control Ship (JCC(X)) Approach to Survivability Requirements Development: Total Ship Survivability Assessment ,” Association of Scientists and Engineers – 38th Annual Technical Symposium, May 9, 2002.

Yukish, Michael A; Miller, Simon W; Martin, Jay D; Bennett, Lorri A; Hoskins, Meghan E, " Set-Based Design, Model-Based Systems Engineering, and Sequential Decision Processes ," Naval Engineers Journal, Volume 130, Number 4, 1 December 2018, pp. 93-104(12).

Shipboard Power System Design

Amy, John V. Jr., " Six-Phase Synchronous Machine Model in Machine Variables and "d-q" Variables," unpublished paper dated 20 November 1990.

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).

Brovont, Aaron D.; Pekarek, Steven D., " Common-Mode Equivalent Circuits for Analysis of Grounding Methods in Naval Power Systems ," Naval Engineers Journal, Volume 126, Number 4, 1 December 2014, pp. 131-136(6).

Bureau of Engineering, Navy Department, " DDS 251-1 Design Data Sheet, Forced Draft Blowers, Duct Work For ," 1 June 1935. Also available from DTIC A581566

Bureau of Ships, Navy Department, " Electrical Section History ," NAVSHIPS 250-660-24 of 26 February 1946.

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.

Doerry, Norbert, " Original IPS Module-Architecture sketches ," Advanced Surface Machinery Programs, October 18-30, 1991, Annapolis, MD.

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.

Ship Production

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.

Lamb, Thomas, Hyun Chung, Mark Spicknall, Jong Gye Shin, Jong Hun Woo, and Philip Koenig, " Simulation-Based Performance Improvement for Shibuilding Processes," Journal of Ship Production, Vol. 22, No. 2, May 2006, pp. 49-65.

Shipboard Energy

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.

Eccles, RADM Thomas J., " Surface Ship Energy Efficiency Initiatives," Livebetter eMagazine, No. 16, Jan 2012.

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.

Schlappi, Herman C., " An Innovative Energy Saving Propulsion System for Naval Ships," Naval Engineers Journal, Volume 94, Number 2, 1 April 1982 , pp. 200-213.

Sharma, R., and O.P. Sha, " Practical Hydrodynamic Design of Bulbous Bows for Ships," Naval Engineers Journal, Volume 117, Number 1, 1 January 2005 , pp. 57-76

Shipboard Machinery Control Systems

Butler-Perry, Karen L. and N.D.R. Sarma, " Geographical Information Systems for Automation of Shipboard Power Systems," Naval Engineers Journal, Volume 118, Number 1, 1 January 2006 , pp. 63-75.

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.

Design Tools

Daniels, Anthony S., Farah Tahmasbi, and David J. Singer, " Intelligent Ship Arrangement Passage Variable Lattice Network Studies and Results ," Naval Engineers Journal, Volume 122, Number 2, 1 June 2010 , pp. 107-119.

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.

Cost and Risk Management

Ayyub, Bilal M., Jeffrey E. Beach, Shahram Sarkani, and Ibrahim A. Assakkaf, " Risk Analysis and Management for Marine Systems," Naval Engineers Journal, Volume 114, Number 2, 1 April 2002 , pp. 181-206.

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).

Malley, VADM Kenneth C., USN, " Affordability through Commonality," Naval Engineers Journal, Volume 104, Number 4, 1 July 1992 , pp. 45-46.

Malone, Michael L.; Trost, Christopher S.; Firestone, Courtney; Mullen, Tom; Krebs, William K.," Maximizing Value Across the Lifecycle of Long-lived Capital-intensive Assets ," Naval Engineers Journal, Volume 126, Number 3, 1 September 2014, pp. 67-79(13).

Rains, Dr. Dean A., " Naval Ship Affordability," Naval Engineers Journal, Volume 108, Number 4, 1 July 1996 , pp. 19-30.

Rogal, James E., Abhay Tase, Raphael D. Lockett, and Philip C. Koenig, " Analyzing and Forecasting Overhead Costs in U.S. Naval Shipbuilding," Naval Engineers Journal, Volume 128, Number 4, 1 Dec 2016, pp. 45-51.

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.

Project and Program Management

Johnson, David C., George M. Drakeley, Thomas N. Plante, William J. Dalton, and Christopher S. Trost, " Managing Change on Complex Programs: VIRGINIA Class Cost Reduction ," Naval Engineers Journal, Volume 121, Number 4, 1 October 2009 , pp. 79-94.

Johnson, William M., " The A-RCI Process - Leadership and Management Principles," Naval Engineers Journal, Volume 116, Number 4, 1 October 2004 , pp. 99-105

Rittel, Horst W. J., and Melvin M. Webber, " Dilemmas in a General Theory of Planning," Elsevier Scientific Publishing Company, Amsterdam, Policy Sciences 4 (1973), 155-169.

Technology Transition

Psallidas, Konstantinos, Clifford A. Whitcomb, and John C. Hootman, " Forecasting System-Level Impacts of Technology Infusion in Ship Design ," Naval Engineers Journal, Volume 122, Number 1, 1 March 2010 , pp. 21-31.

Valuing Flexibility

Baldwin, Carliss Y., and Kim B. Clark, " Modularity in the Design of Complex Engineering Systems," In: Braha D., Minai A., Bar-Yam Y. (eds) Complex Engineered Systems. Understanding Complex Systems. Springer, Berlin, Heidelberg.

Gonzalez-Zugasti, Javier P., Kevin N. Otto, and Clifford A. Whitcomb, " Options-Based Multi-Objective Evaluation of Product Platforms," Naval Engineers Journal, Volume 119, Number 3, 1 November 2007 , pp. 89-106.

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).

Leadership

U.S. Marine Corps, " Leading Marines," MCWP 6-11, 27 Nov 2002.


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