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The impact of digital engineering on defense acquisition and the supply chain insights from an industry survey / Brittany Clayton, Obaid Younossi, Sarah W. Denton, Hilary Reininger, Angela Yun, David M. Adamson, Thao Liz Nguyen, Jonathan Roberts, Padmaja Vedula, Thomas Light, Augustine Bravo, Oluwatimilehin Sotubo, Mohammad Ahmad

RAND Reports Available online

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Format:
Book
Author/Creator:
Clayton, Brittany
Contributor:
Younossi, Obaid
Project Air Force (U.S.)
Rand Corporation.
United States. Department of the Air Force.
Language:
English
Subjects (All):
United States. Air Force--Procurement.
United States.
Computer-aided engineering.
United States--Armed Forces--Procurement.
Other Title:
Impact of Digital Engineering on Defense Acquisition and the Supply Chain
Place of Publication:
RAND Corporation 2024
Summary:
In 2018, the U.S. Air Force announced a new strategy for using digital engineering (DE) in its acquisition life cycle process. The policy emphasizes the importance of DE in improving the efficiency, effectiveness, cost, and quality of Air Force systems and highlights the need for a common digital thread that connects all aspects of the acquisition process and life cycle management of weapon systems. To help the Department of the Air Force (DAF) gain insight into the potential benefits, costs, and challenges of implementing DE, RAND researchers examined the use of DE in the acquisition life cycle. This report summarizes the results of a survey of industry that was designed to assess the progress of DE implementation and to identify implementation challenges and opportunities along with possible metrics for tracking DE implementation. Survey results are supplemented by an open-source literature review and discussions with key government experts. Despite the perceptions captured in the survey, the benefits of DE to date have not resulted in notable cost savings or schedule reduction, but DE has benefited the Air Force in a multitude of other ways: allowing for an expanded trade space of design alternatives, enabling increased complexity in system design, collecting warfighter feedback in a more meaningful way, and supporting more accurate and comprehensive modeling and simulation. Overall, although the benefits of DE might not be immediately apparent in terms of cost savings or schedule reduction, it has the potential to provide significant long-term benefits to defense acquisition.
Contents:
CHAPTER 1. Introduction
CHAPTER 2. Industry Survey
CHAPTER 3. Digital Engineering Goals and Activities
CHAPTER 4. Costs and Benefits
CHAPTER 5. Implementation Challenges
CHAPTER 6. Potential Metrics Reported in the Survey
CHAPTER 7. Key Findings and Implications APPENDIX A. Survey Instrument Distributed to Aerospace Industry
APPENDIX B. Digital Engineering Metrics
APPENDIX C. Cybersecurity Implications

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