Disciplinary Convergence in Systems Engineering Research
Herausgeber: Madni, A.M., Boehm, B., Ghanem, R., Erwin, D., Wheaton, M.J. (Eds.)
Vorschau- Maximizes readers’ understanding of convergence of engineering with other disciplines and the formation of partnerships in support of confluent investigations leading to innovative new products and services
- Integrates knowledge, tools, and thinking approaches from physical and life sciences, mathematics, computer science, and engineering to create an integrated framework for tackling scientific and societal problems
- Presents early important work in systems engineering from academic, industrial and government sectors from across the globe
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- Über dieses Buch
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The theme of this volume on systems engineering research is disciplinary convergence: bringing together concepts, thinking, approaches, and technologies from diverse disciplines to solve complex problems. Papers presented at the Conference on Systems Engineering Research (CSER), March 23-25, 2017 at Redondo Beach, CA, are included in this volume. This collection provides researchers in academia, industry, and government forward-looking research from across the globe, written by renowned academic, industry and government researchers.
- Über den Autor
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Professor Azad M. Madni is the Technical Director of the Systems Architecting and Engineering Program at the University of Southern California Viterbi School of Engineering. His research areas include complex system analysis and design, complexity management, socio-technical systems, modelling and simulation, model based engineering, resilient systems, and integration of humans with adaptable systems.
Professor Barry Boehm is the TRW Professor of Software Engineering and Director Emeritus, Center for Software Engineering, University of Southern California. His research interests focus on value-based software engineering, including a method for integrating a software system's process models, product models, property models, and success models called Model-Based (System) Architecting and Software Engineering (MBASE).
Professor Roger Ghanem is in the Sony Astani Department of Civil Engineering at the University of Southern California. He is a leading researcher in probabilistic modeling and computational stochastic mechanics, and quantitative models for the propagation of uncertainty in physical systems.
Professor Daniel Erwin is the chair of the department of Astronautical Engineering at the University of Southern California. He is a leading researcher in spacecraft propulsion, optics and optical instruments, kinetics of gases and plasmas.
Ms. Marilee Wheaton is a Systems Engineering Fellow at The Aerospace Corporation in California, where she previously was the Executive Director of Aerospace’s corporate university, The Aerospace Institute.
- Inhaltsverzeichnis (43 Kapitel)
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Engineering Resilience for Complex Systems
Seiten 3-15
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Early Life Cycle Cost Estimation: Fiscal Stewardship with Engineered Resilient Systems
Seiten 17-25
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Introducing Resilience into Multi-UAV System-of-Systems Network
Seiten 27-40
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Considerations for Engineered Resilience from Examples of Resilient Systems
Seiten 41-56
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High Reliability Imperative for Autonomous Networked Vehicles
Seiten 57-64
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Inhaltsverzeichnis (43 Kapitel)
- Download Vorwort 1 PDF (20.5 KB)
- Download Probeseiten 1 PDF (917.8 KB)
- Download Inhaltsverzeichnis PDF (33.8 KB)
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Bibliografische Information
- Bibliographic Information
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- Buchtitel
- Disciplinary Convergence in Systems Engineering Research
- Herausgeber
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- Azad M. Madni
- Barry Boehm
- Roger Ghanem
- Daniel Erwin
- Marilee J. Wheaton
- Copyright
- 2018
- Verlag
- Springer International Publishing
- Copyright Inhaber
- Springer International Publishing AG
- eBook ISBN
- 978-3-319-62217-0
- DOI
- 10.1007/978-3-319-62217-0
- Hardcover ISBN
- 978-3-319-62216-3
- Softcover ISBN
- 978-3-319-87261-2
- Auflage
- 1
- Seitenzahl
- XIV, 1201
- Anzahl der Bilder
- 140 schwarz-weiß Abbildungen, 244 Abbildungen in Farbe
- Themen
