Systems Engineering Using the DEJI Systems Model® (Systems Innovation Book Series)

Cover
Half Title
Series Page
Title Page
Copyright Page
Dedication
Table of Contents
Preface
Acknowledgments
Author
Chapter 1: Systems View of the World
	Introduction
	Alignment with the Tenets of IEOM
	IEOM Vision
	IEOM Mission
	IEOM Values
	Industrial Engineering and Systems Approach
	Who Is an Industrial Engineer?
	Industrial Engineering and Innovation
	Human Systems
	Human Factors Engineering
	Systems Productivity, Efficiency, and Effectiveness
	References
Chapter 2: Overview of DEJI Systems Model®
	Introduction
	Systems Engineering Competency Framework
	System Design
	System Evaluation
	System Justification
	Systems Integration
	Conclusion
	References
Chapter 3: Design in DEJI Systems Model®
	Introduction
	Human Aspects of Design
	A Design Case Study
	Integrative Design Process
	Design Communication, Cooperation, and Coordination
	State-Space Representation
	Design State Transformation Paths
	Real-Time State Monitoring
	State Performance Measurement
	Non-Deterministic Performance
	Quantifying Design Performance
	State Variable Structure
	Performance Quantification and Metric
	Hybrid Performance Strategy
	Using Pugh Method for Design Concept Selection
	References
Chapter 4: Evaluation in DEJI Systems Model®
	Introduction
	Cost and Value of a System
	Evaluation for Resource Allocation
	System-Based Evaluative Economics
	The MARR Approach
	References
Chapter 5: Justification in DEJI Systems Model®
	Introduction
	Value “ilities” of a System
	Systems Utility Modeling
	Quantifying Utility
	Additive Utility Function
		Utility Example
	Multiplicative Utility Model
	Fitting a Utility Function
	Composite Value Computation
		Capability
		Suitability
		Performance
		Productivity
	Value Benchmarking for System Justification
	Concluding Remarks on Justification
	References
Chapter 6: Integration Stage of DEJI Systems Model®
	Introduction
	Integration by Other Names
	Practical Measuring of Integration
	Plane Geometry of Systems Integration
	Computational Example of Quantitative Integration
	Polar Plots for Systems Integration
	Technology Transfer for Systems Integration
	Characteristics of Systems Transfer
	New Technology Means New Systems Integration
	Technology Transfer and Integration Modes
	Technology Change-Over Strategies
	Post-Implementation Evaluation
	Conclusion
	References
Chapter 7: Application Case Studies of DEJI Systems Model®
	Case 1: Mitigating Risks and Preventing Failure in Process Improvement Initiatives by Mike Kaminski
	Case 2: Applying DEJI Systems Model in Product Distribution by Mike Kaminski
		About the Author
	Case 3: Business Climate Affecting Power Supply: A Total Systems Perspective by Adedeji Badiru
		Texas Case Example
		Ohio Case Example
		A Recommended Systems Framework
	Case 4: Operation and Management of an R&D Technology Village by Adedeji Badiru
		Systems Integration for Operation and Management Excellence of a Proposed R&D Technology Village
		Using Engineering Problem-Solving Methodology
		Technology Village Operation via Industrial Engineering
	Case 5: Improving Cybersecurity by using Semi-Quantitative Analysis within the Design, Evaluation, Justification, and Integration (DEJI) Model by John S. Bommer, Jr., J.D., CISM, Lt. Col., USAF (Ret.); SAE G-32 Voting Member, Cybersecurity, Cyber-Supply C
		Introduction
		Semi-Quantitative Analysis
		Cyber Risk Assessment Analysis Approach
		DEJI Model Use of SMQA in Cyber Risk Assessment
	Case 5 Summary
	Case 6: DEJI Systems Model in Curriculum Management
	Notes
Chapter 8: Data Modeling for Systems Integration
	Introduction
	Modeling Theory
	Types of Models
	Modeling for Forecasting
	Time-Series Forecasting
	Verification and Validation of Models
	Forecasting Techniques
	Regression Analysis
	Box Jenkins Technique
	Moving Averages
	Artificial Neural Networks
	Feedforward ANNs
	Feedback/Recurrent ANNs
		Supervised Learning
		Unsupervised Learning
	Big Data
	Challenges of Big Data
	Big Data Management Strategy
	Enterprise Resource Planning
	Building the Big Data Warehouse
	Big Data Analytics
	Open-Source Big Data Analytics
	Data Visualization
	Importance of Data Visualization
	Usage of Data Visualization
	Conclusion
	References
Chapter 9: Case Study of Systems Drivers in Aerospace Product Development
	Introduction
	Case Study Background
		Product Development in the Aerospace Industry
	Effort and Time Drivers in the Literature
	Estimation Models for Effort and Time Drivers
	Categorization of Efforts and Time Drivers
	Complexity of Effort and Time Drivers
	Badiru’s Project Complexity Measure
	Relevance of Complexity Factors
	Uncertainty in Effort and Time Estimation
	Effort and Time Drivers Related to Proficiency
	Synthesis as a Component of Integration
	Elements from the Case Study
	Case Study Data Collection and Analysis
	Semi-Structured Interviews
	Workshops in the Case Study
	Internal Survey
	Case Study Limitations
	Summary of Effort and Time Drivers in the Case Study
	Results from the Survey
	Implications for Systems and Engineering Management
	Case Study Conclusion
	References
Chapter 10: Case Study of Nigeria’s Industrial Development Centers
	Introduction
	Segment 1: Integrated Industrialization through Manufacturing
		Complexity of Manufacturing
		Industrial Development and Economic Development
		Pursuit of Technological Change
		Social Change and Development
		Education of Producers and Consumers
		Political Stability and Manufacturing Development
		Global Influences on Domestic Manufacturing
		Rural Area Development for Industrialization
		Education and Industrial Development
		Research and Development Partnership
		Agriculture and Industrialization
		Developing Workforce for Industrialization
		Technology Attributes for Industrialization
		Four-Sided Infrastructure for Industrialization
		Reliable Power Supply
		Consistent Water Supply
		Accessible Transportation System
		Efficient Communication System
		Indigenous Economic Models
		Product Standardization and Systems Integration
		Strategic Planning for Manufacturing
			Supra-Level Planning
			Macro-Level Planning
			Micro-Level Planning
	Segment 2: Evaluation and Justification
		The Case of Nigeria’s IDCs for Industrialization
		Nigeria’s Policy Objectives of the 1980s
		Nigeria’s Industrialization Objectives of the 1980s
		The Structural Adjustment Program and Industrialization
		Exchange Rate
		Trade Policies
		Fiscal Policies
		Nigeria’s Policy Objectives of the 1990s
		Expected Roles of the Private Sector
		Strategic Management of Industrial Development
		Strategies for Implementation
		Problems of Implementation
		Nigeria’s Strategies of the 1960s
	Nigeria’s Strategies of the 1970s
		The Nigerian Enterprises Promotion Board (NEPB)
		Industrial Training Fund (ITF)
		Strategies of the 1980s
		Policy Package
		Nigeria’s Industrial Policy of 1980s
		The Structural Adjustment Program
		Impact of SAP on Manufacturing Activities
		Nigeria’s Strategies of the 1990s
			Perspective Plan
			Rolling Plans
			Nigeria’s Industrial Master Plan
		The Move toward Privatization
		Nigeria Industrial Policy of 1989
		Industrial Development Coordinating Committee
		Small-Scale Industries
		Industrial Incentives
		Institutional Framework
	Segment 3: Integration
		Akinwale’s Investigative Report on Nigeria’s IDCs
	DEJI Systems Model Analysis of Nigeria’s IDCs
	References
Chapter 11: Case Study of DEJI Systems Model® Application to Intelligence Operations
	Introduction
	Homeland Security Aspect
	Technical Background
	Systems Methodology
	Design Section
	Evaluation Section
	Justification Section
	Integration Section
	Case Example: More attention to Human Intelligence in order to augment Signals Intelligence
	Conclusion
	References
Index