Home Page Icon
Home Page
Table of Contents for
INDEX
Close
INDEX
by Steven M. Biemer, Samuel J. Seymour, William N. Sweet, Alexander Kossiakoff
Systems Engineering Principles and Practice, 2nd Edition
Cover
Series
Title
Copyright
DEDICATION
LIST OF ILLUSTRATIONS
LIST OF TABLES
PREFACE TO THE SECOND EDITION
PREFACE TO THE FIRST EDITION
Part I: FOUNDATIONS OF SYSTEMS ENGINEERING
1 SYSTEMS ENGINEERING AND THE WORLD OF MODERN SYSTEMS
1.1 WHAT IS SYSTEMS ENGINEERING?
1.2 ORIGINS OF SYSTEMS ENGINEERING
1.3 EXAMPLES OF SYSTEMS REQUIRING SYSTEMS ENGINEERING
1.4 SYSTEMS ENGINEERING AS A PROFESSION
1.5 SYSTEMS ENGINEER CAREER DEVELOPMENT MODEL
1.6 THE POWER OF SYSTEMS ENGINEERING
1.7 SUMMARY
PROBLEMS
2 SYSTEMS ENGINEERING LANDSCAPE
2.1 SYSTEMS ENGINEERING VIEWPOINT
2.2 PERSPECTIVES OF SYSTEMS ENGINEERING
2.3 SYSTEMS DOMAINS
2.4 SYSTEMS ENGINEERING FIELDS
2.5 SYSTEMS ENGINEERNG APPROACHES
2.6 SYSTEMS ENGINEERING ACTIVITIES AND PRODUCTS
2.7 SUMMARY
PROBLEMS
3 STRUCTURE OF COMPLEX SYSTEMS
3.1 SYSTEM BUILDING BLOCKS AND INTERFACES
3.2 HIERARCHY OF COMPLEX SYSTEMS
3.3 SYSTEM BUILDING BLOCKS
3.4 THE SYSTEM ENVIRONMENT
3.5 INTERFACES AND INTERACTIONS
3.6 COMPLEXITY IN MODERN SYSTEMS
3.7 SUMMARY
PROBLEMS
4 THE SYSTEM DEVELOPMENT PROCESS
4.1 SYSTEMS ENGINEERING THROUGH THE SYSTEM LIFE CYCLE
4.2 SYSTEM LIFE CYCLE
4.3 EVOLUTIONARY CHARACTERISTICS OF THE DEVELOPMENT PROCESS
4.4 THE SYSTEMS ENGINEERING METHOD
4.5 TESTING THROUGHOUT SYSTEM DEVELOPMENT
4.6 SUMMARY
PROBLEMS
5 SYSTEMS ENGINEERING MANAGEMENT
5.1 MANAGING SYSTEM DEVELOPMENT AND RISKS
5.2 WBS
5.3 SEMP
5.4 RISK MANAGEMENT
5.5 ORGANIZATION OF SYSTEMS ENGINEERING
5.6 SUMMARY
PROBLEMS
Part II: CONCEPT DEVELOPMENT STAGE
6 NEEDS ANALYSIS
6.1 ORIGINATING A NEW SYSTEM
6.2 OPERATIONS ANALYSIS
6.3 FUNCTIONAL ANALYSIS
6.4 FEASIBILITY DEFINITION
6.5 NEEDS VALIDATION
6.6 SYSTEM OPERATIONAL REQUIREMENTS
6.7 SUMMARY
PROBLEMS
7 CONCEPT EXPLORATION
7.1 DEVELOPING THE SYSTEM REQUIREMENTS
7.2 OPERATIONAL REQUIREMENTS ANALYSIS
7.3 PERFORMANCE REQUIREMENTS FORMULATION
7.4 IMPLEMENTATION OF CONCEPT EXPLORATION
7.5 PERFORMANCE REQUIREMENTS VALIDATION
7.6 SUMMARY
PROBLEMS
8 CONCEPT DEFINITION
8.1 SELECTING THE SYSTEM CONCEPT
8.2 PERFORMANCE REQUIREMENTS ANALYSIS
8.3 FUNCTIONAL ANALYSIS AND FORMULATION
8.4 FUNCTIONAL ALLOCATION
8.5 CONCEPT SELECTION
8.6 CONCEPT VALIDATION
8.7 SYSTEM DEVELOPMENT PLANNING
8.8 SYSTEMS ARCHITECTING
8.9 SYSTEM MODELING LANGUAGES: UNIFIED MODELING LANGUAGE (UML) AND SYSTEMS MODELING LANGUAGE (SysML)
8.10 MODEL-BASED SYSTEMS ENGINEERING (MBSE)
8.11 SYSTEM FUNCTIONAL SPECIFICATIONS
8.12 SUMMARY
PROBLEMS
9 DECISION ANALYSIS AND SUPPORT
9.1 DECISION MAKING
9.2 MODELING THROUGHOUT SYSTEM DEVELOPMENT
9.3 MODELING FOR DECISIONS
9.4 SIMULATION
9.5 TRADE-OFF ANALYSIS
9.6 REVIEW OF PROBABILITY
9.7 EVALUATION METHODS
9.8 SUMMARY
PROBLEMS
Part III: ENGINEERING DEVELOPMENT STAGE
10 ADVANCED DEVELOPMENT
10.1 REDUCING PROGRAM RISKS
10.2 REQUIREMENTS ANALYSIS
10.3 FUNCTIONAL ANALYSIS AND DESIGN
10.4 PROTOTYPE DEVELOPMENT AS A RISK MITIGATION TECHNIQUE
10.5 DEVELOPMENT TESTING
10.6 RISK REDUCTION
10.7 SUMMARY
PROBLEMS
11 SOFTWARE SYSTEMS ENGINEERING
11.1 COPING WITH COMPLEXITY AND ABSTRACTION
11.2 NATURE OF SOFTWARE DEVELOPMENT
11.3 SOFTWARE DEVELOPMENT LIFE CYCLE MODELS
11.4 SOFTWARE CONCEPT DEVELOPMENT: ANALYSIS AND DESIGN
11.5 SOFTWARE ENGINEERING DEVELOPMENT: CODING AND UNIT TEST
11.6 SOFTWARE INTEGRATION AND TEST
11.7 SOFTWARE ENGINEERING MANAGEMENT
11.8 SUMMARY
PROBLEMS
12 ENGINEERING DESIGN
12.1 IMPLEMENTING THE SYSTEM BUILDING BLOCKS
12.2 REQUIREMENTS ANALYSIS
12.3 FUNCTIONAL ANALYSIS AND DESIGN
12.4 COMPONENT DESIGN
12.5 DESIGN VALIDATION
12.6 CM
12.7 SUMMARY
PROBLEMS
13 INTEGRATION AND EVALUATION
13.1 INTEGRATING, TESTING, AND EVALUATING THE TOTAL SYSTEM
13.2 TEST PLANNING AND PREPARATION
13.3 SYSTEM INTEGRATION
13.4 DEVELOPMENTAL SYSTEM TESTING
13.5 OPERATIONAL TEST AND EVALUATION
13.6 SUMMARY
PROBLEMS
Part IV: POSTDEVELOPMENT STAGE
14 PRODUCTION
14.1 SYSTEMS ENGINEERING IN THE FACTORY
14.2 ENGINEERING FOR PRODUCTION
14.3 TRANSITION FROM DEVELOPMENT TO PRODUCTION
14.4 PRODUCTION OPERATIONS
14.5 ACQUIRING A PRODUCTION KNOWLEDGE BASE
14.6 SUMMARY
PROBLEMS
15 OPERATIONS AND SUPPORT
15.1 INSTALLING, MAINTAINING, AND UPGRADING THE SYSTEM
15.2 INSTALLATION AND TEST
15.3 IN-SERVICE SUPPORT
15.4 MAJOR SYSTEM UPGRADES: MODERNIZATION
15.5 OPERATIONAL FACTORS IN SYSTEM DEVELOPMENT
15.6 SUMMARY
PROBLEMS
INDEX
WILEY SERIES IN SYSTEMS ENGINEERING AND MANAGEMENT
End User License Agreement
Search in book...
Toggle Font Controls
Playlists
Add To
Create new playlist
Name your new playlist
Playlist description (optional)
Cancel
Create playlist
Sign In
Email address
Password
Forgot Password?
Create account
Login
or
Continue with Facebook
Continue with Google
Sign Up
Full Name
Email address
Confirm Email Address
Password
Login
Create account
or
Continue with Facebook
Continue with Google
Prev
Previous Chapter
15 OPERATIONS AND SUPPORT
Next
Next Chapter
WILEY SERIES IN SYSTEMS ENGINEERING AND MANAGEMENT
INDEX
A
Abstraction
Activity diagram
Adaptive software development (ASD)
Advanced development
Advanced technology
Agile software models
Analysis of alternatives
Analysis pyramid
Analytical hierarchy process (AHP)
Application software
Architecture frameworks
Automobile
Availability
B
Balanced system
Block definition diagram
Boundaries
Building blocks
Built-in test equipment
C
Capability maturity model integrated (CMMI)
Career development models
Careers
Class diagram
Coding
Commercial aircraft
Communication diagram
Competition
Complex systems
Component design
Component diagram
Component knowledge base
Components
Composite structure dDiagram
Computer-aided design (CAD)
Computer system configuration items (CSCI)
Concept development phase
Concept definition
Concept exploration
Concept of operations (CONOPS)
Concept selection
Concept validation
Concurrent development model
Concurrent engineering
Configuration baselines
Configuration items
Configuration management
Constraints
Context diagram
Cost-benefit analysis
Cost control
Cost estimating
Critical design review (CDR)
Critical experiments
Critical path method (CPM)
D
Data flow diagram
Data-intensive computing systems
Decision analysis
Decision framework
Decision making
Decision trees
Demonstration testing
Department of Defense (DOD)
acquisition model
Architecture Framework (DODAF)
Deployment diagram
Design
detailed
specialist
testing
validation
Development testing
DOD acquisition model
DODAF
E
EIA-632
Embedded software
Engineering
design
design phase
development
disciplines
for production
simulation
specialty
Enterprise systems engineering
Entity-relationship diagram (ERD)
Environment
Evolutionary software models
Extreme programming (XP)
F
Feature-driven development
Field service support
Functional allocation
Functional analysis
Functional block diagram (FBD)
tools
Functional-class decomposition
Functional definition
Functional elements
Functional flow block diagram (FFBD)
Functional flow process diagram
Functional requirements
G
Games
H
Hardware-in-the-loop simulation
Hardware software allocation
Hierarchy of complex systems
I
IEEE-1220
IEEE Std 610.12
IEEE software systems engineering process
INCOSE
Incremental software models
Installation
Integrated definition (IDEF)
Integrated product teams (IPTs)
Integration
and evaluation phase
test planning
Interaction overview diagram
Interfaces
ISO/IEC
L
Life cycle
Linear software models
Logical view
Logistics support
M
Maintainability
Management
Mathematical models
Measures of effectiveness (MOE)
Measures of performance (MOP)
MIL-STD-499B
Ministry of Defense architecture framework (MODAF)
Mission simulation
Model/modeling
agile software models
-based systems engineering
career development models
of a complex system
concurrent development model
DOD acquisition model
evolutionary software models
incremental software models
life cycle model
linear software models
mathematical models
operational effectiveness model
physical models
schematic models
spiral life cycle model
spiral model
system effectiveness model
system performance model
T model
waterfall model
Modernization
Modular partitioning
Multiattribute utility theory
Multidisciplinary knowledge
N
Needs analysis phase
Needs validation
Nondisruptive installation
NSPE
O
Object diagram
Object-oriented analysis
Objectives
analysis
tree
Obsolescence
Open Group Architecture Framework, The (TOGAF)
Operational availability
Operational concepts
Operational effectiveness model
Operational problems
Operational readiness testing
Operational requirements
Operational test and evaluation
Operational view
Operations
analysis
and support phase
Origins
P
Package diagram
Performance
vs. cost
requirements
Physical definition
Physical models
Physical requirements
Physical simulation
Physical view
Predecessor system
Preliminary design
review (PDR)
Preplanned product improvement (P3I)
Probability
Producibility
Production
phase
Profession
Program design language (PDL)
Programming languages
Project management
Proposal development
Program risks
Prototypes
Q
Qualification testing
Quality function deployment (QFD)
R
Rapid application development (RAD)
Rapid prototyping
Regression testing
Requirements
analysis
diagram
validation
Reliability
Risk(s)
assessment
management
management plan
mitigation
reduction
Robustness analysis
Robustness diagram
S
Scenarios
Schematic models
Scrum
Selection criteria
Sequence diagram
Simulation
Specifications
Spiral life cycle model
Spiral model
Software
-embedded systems
engineering management
integration and test
-intensive systems
life cycle model
metrics
prototyping
systems engineering
State machine diagram
State transition diagram (STD)
Statement of work
Structured analysis and design
System
acceptance test
architecting
definition
design team
development planning
domains
effectiveness model
effectiveness simulations
materialization
modeling language (SysML)
performance model
requirements
software
of systems
Systems engineering
approaches
definition
master plan (SEMP)
method
perspectives
viewpoint
Systems integration
T
T model
Technical professional
Technology development
Test/testing
equipment
plan
planning
scenarios
special equipment
unit
Test and evaluation
master plan (TEMP)
3-tier architecture
Timing diagram
Trade-off(s)
analysis
Trade studies
Training
Transition from development to production
U
Unified modeling language (UML)
Unit testing
Upgrades
Use case(s)
diagram
User interfaces
Utility functions
V
Verification and validation
Virtual reality simulation
Visualization
W
Waterfall model
Work breakdown structure (WBS)
Add Highlight
No Comment
..................Content has been hidden....................
You can't read the all page of ebook, please click
here
login for view all page.
Day Mode
Cloud Mode
Night Mode
Reset