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100   $a20190826d2014      uy             0
101 0 $aeng
135   $aurcnu||||||||
181   $ctxt
182   $cc
183   $acr
200 10$aSystems engineering and analysis /$fBenjamin Blanchard and Wolter Fabrycky
205   $aFifth edition, Pearson new international editon.
210  1$aHarlow, England :$cPearson,$d[2014]
210  4$dİ2014
215   $a1 online resource (841 pages) $cillustrations, tables
225 1 $aAlways learning
300   $aIncludes index.
311   $a1-292-02597-2 
311   $a1-299-96048-0 
327   $aCover -- Table of Contents -- 1. Systems Science and Engineering -- 2. Bringing Systems Into Being -- 3. Conceptual System Design -- 4. Preliminary System Design -- 5. Detail Design and Development -- 6. System Test, Evaluation, and Validation -- 7. Alternatives and Models in Decision Making -- 8. Models for Economic Evaluation -- 9. Optimization in Design and Operations -- 10. Queuing Theory and Analysis -- 11. Control Concepts and Methods -- 12. Design for Reliability -- 13. Design for Maintainability -- 14. Design for Usability (Human Factors) -- 15. Design for Logistics and Supportability -- 16. Design for Producibility, Disposability, and Sustainability -- 17. Design for Affordability (Life-cycle Costing) -- 18. Systems Engineering Planning and Organization -- 19. Program Management, Control, and Evaluation -- Appendix: Functional Analysis -- Appendix: Design and Management Checklists -- Appendix: Probability Theory and Analysis -- Appendix: Probability and Statistical Tables -- Appendix: Interest Factor Tables -- Appendix: Finite Queuing Tables -- Index.
330   $aFor senior-level undergraduate and first and second year graduate systems engineering and related courses.     A total life-cycle approach to systems and their analysis.      This practical introduction to systems engineering and analysis provides the concepts, methodologies, models, and tools needed to understand and implement a total life-cycle approach to systems and their analysis.      The authors focus first on the process of bringing systems into being-beginning with the identification of a need and extending that need through requirements determination, functional analysis and allocation, design synthesis, evaluation, and validation, operation and support, phase-out, and disposal. Next, the authors discuss the improvement of systems currently in being, showing that by employing the iterative process of analysis, evaluation, feedback, and modification, most systems in existence can be improved in their affordability, effectiveness, and stakeholder satisfaction.
410  0$aAlways learning.
606   $aSystems engineering
615  0$aSystems engineering.
676   $a620.001171
700   $aBlanchard$b Benjamin S.$0116844
702   $aFabrycky$b W. J$g(Wolter J.),$f1932-
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910153111903321
996   $aSystems engineering and analysis$93049898
997   $aUNINA