Model-based system architecture:
"The book covers the practice of being a system architect in an organization that uses models to support the systems engineering processes. It will therefore introduce the fundamentals of both architecting systems and using models to assist the architecting process. While the first edition of t...
Gespeichert in:
| Hauptverfasser: | , , , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Hoboken, NJ
Wiley
2022
|
| Ausgabe: | Second edition |
| Schriftenreihe: | Wiley series in systems engineering and management
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Zusammenfassung: | "The book covers the practice of being a system architect in an organization that uses models to support the systems engineering processes. It will therefore introduce the fundamentals of both architecting systems and using models to assist the architecting process. While the first edition of the book had a balanced description of both the technicalities of modeling the system architecture and concrete advice on the practical work as a system architect, the second edition focuses even more on the system architect role and what it means to be a system architect. It includes new chapters on systems, systems-of-systems, and cyber-physical systems; model governance; and tools for the architect. It also provides guidance on how a practitioner can benefit and apply the presented concepts."-- |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | xxi, 432 Seiten Illustrationen |
| ISBN: | 9781119746652 |
Internformat
MARC
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| 008 | 240725s2022 xxua||| |||| 00||| eng d | ||
| 020 | |a 9781119746652 |c cloth |9 978-1-119-74665-2 | ||
| 035 | |a (OCoLC)1351713322 | ||
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| 100 | 1 | |a Weilkiens, Tim |e Verfasser |0 (DE-588)128959940 |4 aut | |
| 245 | 1 | 0 | |a Model-based system architecture |c Tim Weilkiens, Jesko G. Lamm, Stephan Roth, Markus Walker |
| 250 | |a Second edition | ||
| 264 | 1 | |a Hoboken, NJ |b Wiley |c 2022 | |
| 300 | |a xxi, 432 Seiten |b Illustrationen | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 0 | |a Wiley series in systems engineering and management | |
| 500 | |a Includes bibliographical references and index | ||
| 520 | 3 | |a "The book covers the practice of being a system architect in an organization that uses models to support the systems engineering processes. It will therefore introduce the fundamentals of both architecting systems and using models to assist the architecting process. While the first edition of the book had a balanced description of both the technicalities of modeling the system architecture and concrete advice on the practical work as a system architect, the second edition focuses even more on the system architect role and what it means to be a system architect. It includes new chapters on systems, systems-of-systems, and cyber-physical systems; model governance; and tools for the architect. It also provides guidance on how a practitioner can benefit and apply the presented concepts."-- | |
| 653 | 0 | |a System design | |
| 653 | 0 | |a Computer simulation | |
| 653 | 0 | |a SysML (Computer science) | |
| 700 | 1 | |a Lamm, Jesko G. |d 1976- |e Verfasser |0 (DE-588)1194409245 |4 aut | |
| 700 | 1 | |a Roth, Stephan |d 1968- |e Verfasser |0 (DE-588)1164727982 |4 aut | |
| 700 | 1 | |a Walker, Markus |e Verfasser |0 (DE-588)1194410839 |4 aut | |
| 856 | 4 | 2 | |m Digitalisierung Bibliothek HTW Berlin |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=035138001&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 943 | 1 | |a oai:aleph.bib-bvb.de:BVB01-035138001 | |
Datensatz im Suchindex
| _version_ | 1808497230791835648 |
|---|---|
| adam_text |
MD YY
V
CONTENTS
FOREWORD
XV
PREFACE XVII
ABOUT THE COMPANION WEBSITE
XXI
1
INTRODUCTION 1
2
AN EXAMPLE:
THE SCALABLE OBSERVATION
AND RESCUE
SYSTEM
5
3
BETTER PRODUCTS - THE
VALUE OF SYSTEMS
ARCHITECTING
9
3.1
THE SHARE OF SYSTEMS
ARCHITECTING IN
MAKING BETTER PRODUCTS 9
3.2
BENEFITS THAT CAN BE ACHIEVED
10
3.2.1
BENEFIT
FOR
THE
CUSTOMER
10
3.2.2
BENEFIT FOR THE ORGANIZATION
12
3.3
BENEFITS THAT CAN BE
COMMUNICATED INSIDE THE
ORGANIZATION
14
3.4
BENEFICIAL ELEMENTS
OF SYSTEMS ARCHITECTING
15
3.5
BENEFITS OF MODEL-BASED
SYSTEMS ARCHITECTING
16
4
SYSTEMS, SYSTEMS OF SYSTEMS,
AND CYBER-PHYSICAL
SYSTEMS 17
4.1
DEFINITION
OF "SYSTEM"
17
4.1.1
SYSTEM ELEMENTS
19
4.1.2
SYSTEM CONTEXT
20
4.1.3
SYSTEM CHARACTERISTICS
21
4.1.4
PURPOSE
22
4.1.5
SYSTEM EVOLUTION
23
4.2
DEFINITION OF "SYSTEM OF SYSTEMS"
23
4.3
DEFINITION OF "CYBER-PHYSICAL
SYSTEM"
26
4.4
COMPOSITION
OF A "CYBER-PHYSICAL
SYSTEM OF SYSTEMS"
27
STEM,
.ING OR
'AL
TILLED
ILEY
.ME
IN THE
HER
NS OR
'
BY
T
NTIAL
ONS
.LE
VIL
CONTENTS
5
5.1
5.2
5.3
5.3.1
5.3.2
5.3.3
5.4
5.5
5.5.1
5.5.2
5.5.3
5.6
5.6.1
5.6.2
5.6.3
6
7
7.1
7.2
8
8.1
8.2
8.2.1
8.2.2
8.2.3
8.2.4
8.3
8.3.1
8.3.2
9
9.1
9.2
9.3
9.4
9.5
DEFINITION OF SYSTEM ARCHITECTURE
31
WHAT IS ARCHITECTURE? - DISCUSSION
OF SOME EXISTING DEFINITIONS
31
RELATIONS BETWEEN CONCEPTS
OF "SYSTEM," "ARCHITECTURE,"
AND
"ARCHITECTURE DESCRIPTION" 33
DEFINITION OF
"ARCHITECTURE" 35
INTERACTIONS 36
PRINCIPLES 37
ARCHITECTURE DECISIONS 37
FUNCTIONAL AND PHYSICAL ARCHITECTURE 37
TAXONOMY OF PHYSICAL ARCHITECTURES
39
LOGICAL
ARCHITECTURE
40
PRODUCT ARCHITECTURE
41
BASE
ARCHITECTURE
41
ARCHITECTURE LANDSCAPE
FOR SYSTEMS
41
SYSTEM ARCHITECTURE
42
SYSTEM DESIGN
43
DISCIPLINE-SPECIFIC
ARCHITECTURE AND DESIGN 44
MODEL-BASED SYSTEMS ARCHITECTING
45
MODEL GOVERNANCE
51
OVERVIEW
51
MODEL GOVERNANCE
IN PRACTICE
52
ARCHITECTURE DESCRIPTION
57
ARCHITECTURE DESCRIPTIONS FOR
STAKEHOLDERS
58
DEFINITION OF "ARCHITECTURE DESCRIPTION"
60
ARCHITECTURE VIEWPOINTS
62
ARCHITECTURE VIEWS
65
ARCHITECTURE DECISIONS
67
ARCHITECTURE RATIONALES
69
HOW TO GET ARCHITECTURE
DESCRIPTIONS?
69
MODEL-BASED VISION
69
FORMS AND
TEMPLATES
71
ARCHITECTURE PATTERNS
AND PRINCIPLES
75
THE SYSMOD ZIGZAG PATTERN
76
THE BASE ARCHITECTURE
82
COHESION AND COUPLING
85
SEPARATION OF DEFINITION, USAGE, AND
RUN-TIME
87
SEPARATE STABLE FROM UNSTABLE
PARTS
89
9.6
THE IDEAL SYSTEM
89
9.7
VIEW AND MODEL
90
9.8
DIAGRAM LAYOUT
92
9.9
SYSTEM MODEL STRUCTURE
9.10
SYSTEM ARCHITECTURE
PRIN
9.11
HEURISTICS 95
9.11.1
HEURISTICS AS A
TOOL FOR TL
9.11.2
SIMPLIFY,
SIMPLIFY, SIMPLI
10
MODEL-BASED REQUIREMEI
ANALYSIS
99
10.1
REQUIREMENT
AND USE CA
10.2
MODEL-BASED
REQUIREMEL
VIEWPOINT
102
10.2.1
IDENTIFY AND
DEFINE REQU
10.2.2
SPECIFY THE
SYSTEM CONTE
10.2.3
IDENTIFY
USE CASES
105
10.2.4
DESCRIBE USE
CASE FLOWS
10.2.5
MODEL
THE DOMAIN KNOW
10.3
THE SAMS METHOD
112
10.3.1
SAMS METHOD DEFINITION
10.3.2
SAMS METHOD
114
10.4
USE CASES
2.0
117
11
PERSPECTIVES,
VIEWPOINTS
ARCHITECTURE
119
11.1
INTRODUCTION
119
11.2
THE FUNCTIONAL PERSPECTI
11.2.1
SYSML MODELING OF
FUNC
11.2.2
ARCHITECTURE
VIEWS FOR TH
11.2.3
DIFFERENT
ARCHITECTURE VI
FUNCTIONS
124
11.3
THE PHYSICAL
PERSPECTIVE
11.3.1
LOGICAL
ARCHITECTURE EXA]
11.3.2
PRODUCT ARCHITECTURE
EXA
11.4
THE BEHAVIORAL PERSPECTII
11.5
THE LAYERED PERSPECTIVE
11.5.1
THE LAYERED APPROACH
11.5.2
THE LAYERED PERSPECTIVE
I
11.5.3
RELATION
TO THE DOMAIN I
11.5.4
ARCHITECTING THE LAYERS
CL
CU
CONTENTS
IVII
9.6
THE IDEAL SYSTEM
89
9.7
VIEW AND
MODEL
90
9.8
DIAGRAM LAYOUT
92
9.9
SYSTEM MODEL STRUCTURE 93
9.10
SYSTEM
ARCHITECTURE PRINCIPLES 95
9.11
HEURISTICS
95
9.11.1
HEURISTICS
AS A TOOL FOR THE SYSTEM
ARCHITECT
95
9.11.2
SIMPLIFY, SIMPLIFY, SIMPLIFY: STRENGTH
AND PITFALL 97
10
MODEL-BASED REQUIREMENTS ENGINEERING AND USE CASE
ANALYSIS
99
10.1
REQUIREMENT AND
USE CASE DEFINITIONS
99
10.2
MODEL-BASED REQUIREMENTS AND USE
CASE ANALYSIS FROM
THE MBSA
VIEWPOINT
102
10.2.1
IDENTIFY AND DEFINE REQUIREMENTS
103
10.2.2
SPECIFY THE SYSTEM CONTEXT
104
10.2.3
IDENTIFY USE CASES
105
10.2.4
DESCRIBE USE CASE FLOWS
109
10.2.5
MODEL THE DOMAIN
KNOWLEDGE
110
10.3
THE SAMS METHOD
112
10.3.1
SAMS METHOD DEFINITIONS
113
10.3.2
SAMS METHOD
114
10.4
USE
CASES 2.0
117
11
PERSPECTIVES,
VIEWPOINTS AND VIEWS IN SYSTEM
ARCHITECTURE
119
11.1
INTRODUCTION
119
11.2
THE
FUNCTIONAL PERSPECTIVE
121
11.2.1
SYSML MODELING OF FUNCTIONAL BLOCKS
123
11.2.2
ARCHITECTURE VIEWS FOR THE SYSTEM ARCHITECT
124
11.2.3
DIFFERENT ARCHITECTURE VIEWS FOR THE STAKEHOLDERS
OF DIFFERENT
FUNCTIONS
124
11.3
THE PHYSICAL PERSPECTIVE
125
11.3.1
LOGICAL ARCHITECTURE EXAMPLE
126
11.3.2
PRODUCT ARCHITECTURE EXAMPLE
127
11.4
THE BEHAVIORAL PERSPECTIVE
130
11.5
THE
LAYERED PERSPECTIVE
130
11.5.1
THE LAYERED APPROACH
130
11.5.2
THE LAYERED PERSPECTIVE IN SYSTEMS ARCHITECTING
132
11.5.3
RELATION TO THE DOMAIN KNOWLEDGE MODEL
134
11.5.4
ARCHITECTING THE LAYERS
136
VIII I CONTENTS
11.5.5
SYSML MODELING OF LAYERS
136
11.6
SYSTEM DEPLOYMENT
PERSPECTIVE
142
11.7
OTHER PERSPECTIVES
144
11.8
RELATION TO THE SYSTEM CONTEXT
146
11.8.1
VALIDITY OF THE SYSTEM BOUNDARY
146
11.8.2
USING THE SYSTEM CONTEXT
AS A PART OF THE STAKEHOLDER-SPECIFIC
VIEWS
146
11.8.3
SPECIAL SYSTEM
CONTEXT VIEW FOR VERIFICATION
147
11.9
MAPPING DIFFERENT SYSTEM
ELEMENTS ACROSS DIFFERENT
LEVELS
148
11.9.1
FUNCTIONAL-TO-PHYSICAL
PERSPECTIVE MAPPING
149
11.9.2
MAPPING
MORE PERSPECTIVES
153
11.9.3
MAPPING
DIFFERENT LEVELS
153
11.10 TRACEABILITY
155
11.11
PERSPECTIVES
AND ARCHITECTURE VIEWS IN MODEL-BASED
SYSTEMS
ARCHITECTING
155
11.11.1 CREATING
DIFFERENT ARCHITECTURE VIEWS IN A
MODEL-BASED
APPROACH
155
11.11.2 USING
SYSML FOR WORKING WITH DIFFERENT PERSPECTIVES
AND ARCHITECTURE
VIEWS
157
11.11.3 THE
IMPORTANCE OF ARCHITECTURE VIEWPOINTS IN MODEL-BASED
SYSTEMS
ARCHITECTING
159
12
TYPICAL
ARCHITECTURE STAKEHOLDERS
161
12.1
OVERVIEW
161
12.2
REQUIREMENTS
ENGINEERING
162
12.3
VERIFICATION
163
12.4
CONFIGURATION MANAGEMENT
166
12.5
ENGINEERING AND INFORMATION
TECHNOLOGY DISCIPLINES
167
12.6
PROJECT AND PRODUCT MANAGEMENT
171
12.7
RISK
MANAGERS
174
12.8
DEVELOPMENT ROADMAP PLANNERS
174
12.9
PRODUCTION AND DISTRIBUTION
177
12.10 SUPPLIERS
178
12.11
MARKETING AND BRAND MANAGEMENT
178
12.12 MANAGEMENT
180
13
ROLES
185
13.1
ROLES
185
13.2
THE SYSTEM ARCHITECT ROLE
186
13.2.1 OBJECTIVE
186
13.2.2 RESPONSIBILITIES
186
13.2.3 TASKS
187
13.2.4 COMPETENCES
188
13.2.5
REQUIRED SKILLS OF A SYSTE
13.2.6
REQUIRED SKILLS FOR MODE
13.3
SYSTEM ARCHITECTURE TEA
13.4
SYSTEM ARCHITECTURE STAL
13.5
RECRUITING
SYSTEM ARCHI
13.6
TALENT DEVELOPMENT
FOR
14
PROCESSES 199
14.1
SYSTEMS ARCHITECTING PRC
14.1.1 OVERVIEW
199
14.1.2
EXAMPLE
OF GENERIC PROC
14.1.3
EXAMPLE OF CONCRETE PRC
14.1.4
VALIDATION,
REVIEW, AND I
14.2
DESIGN
DEFINITION PROCE5
14.3
CHANGE AND CONFIGURATII
14.4
OTHER PROCESSES
INVOLVIN
15
TOOLS FOR THE ARCHITECT
16
AGILE APPROACHES
= 213
16.1
THE HISTORY OF ITERATIVE
16.1.1
PROJECT MERCURY (NASA,
16.1.2
THE NEW NEW
PRODUCT E
16.1.3
BOEHM'S SPIRAL MODEL (1
16.1.4
LEAN (1945 ONWARDS)
16.1.5
DYNAMIC
SYSTEMS DEVEL4
16.1.6
SCRUM (1995)
220
16.2
THE
MANIFESTO FOR AGILE
16.3
AGILE PRINCIPLES IN SYSTEL
16.3.1
FACILITATE
FACE-TO-FACE
C
16.3.2
CREATE A STATE OF CONFIDE
16.3.3
BUILD
TRANSDISCIPLINARY
16.3.4
CREATE A LEARNING
ORGAN
16.3.5
DESIGN, BUT NO
BIG DESIL
16.3.6
REDUCE DEPENDENCIES
16.3.7
FOSTER A POSITIVE ERROR C
16.4
SCALING AGILE
228
16.5
SYSTEM ARCHITECTS IN AN
RE
RO
13.2.3
13.2.4
13.2.5
13.2.6
13.3
13.4
R.)
A
F
R,
!-.
,-
CONTENTS LIX
TASKS
187
COMPETENCES
188
REQUIRED SKILLS OF A SYSTEM
ARCHITECT
188
REQUIRED SKILLS FOR MODEL-RASED SYSTEMS ARCHITECTING
190
SYSTEM ARCHITECTURE TEAMS
190
SYSTEM ARCHITECTURE STAKEHOLDERS
192
13.5 RECRUITING SYSTEM ARCHITECTURE PEOPLE
192
13.6
TALENT DEVELOPMENT FOR SYSTEM ARCHITECTS
194
148
14 PROCESSES
199
14.1 SYSTEMS ARCHITECTING PROCESSES
199
14.1.1 OVERVIEW
199
14.1.2 EXAMPLE OF GENERIC PROCESS
STEPS
201
14.1.3 EXAMPLE OF CONCRETE PROCESS STEPS
202
14.1.4 VALIDATION, REVIEW, AND APPROVAL IN A MODEL-BASED ENVIRONMENT
203
14.2 DESIGN
DEFINITION PROCESS
207
14.3 CHANGE AND CONFIGURATION MANAGEMENT PROCESSES
207
ITECTURE
14.4
OTHER PROCESSES INVOLVING THE SYSTEM ARCHITECT
207
TEMS
15 TOOTS FOR THE ARCHITECT
209
16
AGILE APPROACHES
213
16.1 THE HISTORY OF ITERATIVE-INCREMENTAL
APPROACHES
214
16.1.1 PROJECT MERCURY (NASA, 1958)
214
16.1.2 THE NEW NEW PRODUCT DEVELOPMENT
GAME (1986)
215
16.1.3 BOEHM'S SPIRAL MODEL (1988)
216
16.1.4 LEAN (1945 ONWARDS)
217
16.1.5
DYNAMIC SYSTEMS DEVELOPMENT METHOD (DSDM, 1994)
219
16.1.6 SCRUM (1995)
220
16.2 THE MANIFESTO FOR AGILE SOFTWARE DEVELOPMENT (2001)
221
16.3 AGILE PRINCIPLES IN
SYSTEMS ENGINEERING
223
16.3.1 FACILITATE FACE-TO-FACE COMMUNICATION
223
16.3.2 CREATE A STATE OF CONFIDENCE
224
16.3.3 BUILD TRANSDISCIPLINARY AND SELF-ORGANIZED TEAMS
225
16.3.4 CREATE A LEARNING ORGANIZATION
225
16.3.5 DESIGN, BUT NO BIG DESIGN
(UP-FRONT)
226
16.3.6 REDUCE
DEPENDENCIES
227
16.3.7 FOSTER A POSITIVE ERROR CULTURE
228
16.4 SCALING AGILE
228
16.5 SYSTEM ARCHITECTS IN AN AGILE ENVIRONMENT
230
19.4.1
SAF AND ENTERPRISE FRAN
19.4.2
SAF
ONTOLOGY
298
19.5
WHAT TO DO WHEN WE CO
FRAMEWORKS
298
20
CROSS-CUTTING
CONCERNS
20.1
THE GAME-WINNING
NONL
20.2
HUMAN SYSTEM INTERACTIC
20.3
RISK MANAGEMENT
304
20.4
TRADE STUDIES
305
20.5
BUDGETS
306
21
ARCHITECTURE ASSESSMENT
22
MAKING IT WORK IN THE ON
22.1
OVERVIEW
313
22.2
ORGANIZATIONAL STRUCTURE
22.3
RECIPES
FROM THE
AUTHOR
22.3.1
BE HUMBLE
319
22.3.2
APPRAISE THE
STAKEHOLDER
22.3.3
CARE ABOUT ORGANIZATION
22.3.4
SHOW
THAT IT WAS ALWAYS
22.3.5
LEAD BY GOOD EXATFIPLE
22.3.6
COLLECT SUCCESS STORIES AR.
22.3.7
ACKNOWLEDGE
THAT INFECT
22.3.8
ASSIGN THE
SYSTEM ARCHIT
22.3.9
BE A LEADER
324
23
23.1
23.1.1
23.1.2
23.1.3
23.1.3.1
23.1.3.2
23.1.3.3
23.1.3.4
23.1.4
23.2
23.2.1
23.2.2
SOFT SKILLS 327
IT'S ALL ABOUT COMMUNIC
LOSSES IN
COMMUNICATION
THE ANATOMY OF A MESSAI
FACTORS INFLUENCING
COM
THE
LANGUAGE 333
THE MEDIA USED 333
SPATIAL DISTANCE 333
VARIOUS CONNOTATIONS OF
THE USAGE OF
COMMUNIC
PERSONALITY TYPES
338
PSYCHOLOGICAL 'TYPES BY C
THE 4MAT SYSTEM BY BET
XL CONTENTS
17
THE FAS METHOD 233
17.1
MOTIVATION
234
17.2
FUNCTIONAL ARCHITECTURES FOR SYSTEMS
236
17.3
HOW THE FAS
METHOD WORKS
239
17.4
FAS
HEURISTICS
242
17.5
FAS WITH SYSML
244
17.5.1
IDENTIFYING FUNCTIONAL GROUPS
244
17.5.2
MODELING THE FUNCTION STRUCTURE
246
17.5.3
MODELING THE FUNCTIONAL
ARCHITECTURE
249
17.6
SYSML MODELING TOOL SUPPORT
250
17.6.1
CREATE INITIAL FUNCTIONAL GROUPS
251
17.6.2
CHANGING AND ADDING FUNCTIONAL GROUPS
254
17.6.3
CREATING FUNCTIONAL BLOCKS AND THEIR INTERFACES
254
17.7
MAPPING OF A FUNCTIONAL ARCHITECTURE TO A PHYSICAL ARCHITECTURE
254
17.8
EXPERIENCES WITH THE FAS METHOD
256
17.9
FAS
WORKSHOPS
258
17.10
QUALITY REQUIREMENTS AND THE FUNCTIONAL
ARCHITECTURE
259
17.11
FUNCTIONAL ARCHITECTURES AND THE ZIGZAG
PATTERN
262
17.12
CPS-FAS FOR
CYHER-PHYSICAL SYSTEMS
263
18
PRODUCT LINES AND
VARIANTS 269
18.1
DEFINITIONS VARIANT MODELING
270
18.2
VARIANT MODELING WITH SYSML
271
18.3
OTHER VARIANT MODELING TECHNIQUES
276
19
ARCHITECTURE
FRAMEWORKS 279
19.1
ENTERPRISE ARCHITECTURES
280
19.2
CHARACTERISTICS OF SYSTEM OF SYSTEMS (SOS)
282
19.2.1
EMERGENCE
283
19.3
AN OVERVIEW OF ARCHITECTURE FRAMEWORKS
285
19.3.1
ZACHMAN FRAMEWORK'!"
285
19.3.2
THE TOGAF STANDARD
286
19.3.3
FEDERAL
ENTERPRISE ARCHITECTURE FRAMEWORK (FEAF)
288
19.3.4
DEPARTMENT
OF DEFENSE ARCHITECTURE FRAMEWORK (DODAF)
289
19.3.5
MINISTRY OF DEFENSE ARCHITECTURE FRAMEWORK (MODAF)
290
19.3.6
NATO ARCHITECTURE FRAMEWORK (NAF)
291
19.3.7 TRAK
292
19.3.8
EUROPEAN SPACE
AGENCY ARCHITECTURAL FRAMEWORK (ESA-AF)
293
19.3.9
OMG UNIFIED
ARCHITECTURE FRAMEWORKS (UAF)
295
19.4
SYSTEM ARCHITECTURE FRAMEWORK (SAF)
296
TOGETHER WITH MICHAEL LEUTE
296
CONTENTS LXI
19.4.1
SAF AND
ENTERPRISE FRAMEWORKS
296
19.4.2
SAF ONTOLOGY
298
19.5
WHAT TO DO WHEN WE
COME IN TOUCH WITH
ARCHITECTURE
FRAMEWORKS
298
20
CROSS-CUTTING
CONCERNS 301
20.1
THE
GAME-WINNING NONFUNCTIONAL
ASPECTS
301
20.2
HUMAN
SYSTEM INTERACTION
AND HUMAN FACTORS
ENGINEERING
303
20.3
RISK MANAGEMENT
304
20.4
TRADE STUDIES
305
20.5
BUDGETS
306
21
ARCHITECTURE
ASSESSMENT 307
22
MAKING IT WORK IN THE
ORGANIZATION 313
22.1
OVERVIEW
313
22.2
ORGANIZATIONAL
STRUCTURE FOR
SYSTEMS ARCHITECTING
314
22.3
RECIPES FROM THE AUTHORS'
EXPERIENCE
318
22.3.1
BE
HUMBLE
319
22.3.2
APPRAISE THE
STAKEHOLDERS
319
22.3.3
CARE ABOUT
ORGANIZATIONAL INTERFACES
319
22.3.4
SHOW
THAT IT WAS ALWAYS THERE
321
22.3.5
LEAD BY GOOD
EXAMPLE
321
22.3.6
COLLECT
SUCCESS STORIES AND
SHARE THEM
WHEN APPROPRIATE
322
22.3.7
ACKNOWLEDGE
THAT INFECTIONS BEAT
DICTATED ROLLOUT
323
22.3.8
ASSIGN
THE SYSTEM
ARCHITECT ROLE TO
YOURSELF
324
22.3.9
BE
A LEADER
324
23
SOFT
SKILLS 327
23.1
IT'S ALL
ABOUT COMMUNICATION
328
23.1.1
LOSSES IN COMMUNICATION
329
23.1.2
THE ANATOMY OF A MESSAGE
330
23.1.3
FACTORS INFLUENCING
COMMUNICATION
333
23.1.3.1 THE LANGUAGE 333
23.1.3.2 THE MEDIA USED 333
23.1.3.3
SPATIAL DISTANCE 333
23.1.3.4 VARIOUS
CONNOTATIONS OF
WORDS 335
23.1.4
THE USAGE OF
COMMUNICATION AIDS AND
TOOLS 335
23.2
PERSONALITY TYPES
338
23.2.1
PSYCHOLOGICAL TYPES BY
C. G. JUNG
338
23.2.2
THE 4MAT
SYSTEM BY BERNICE
MCCARTHY
340
YY
254
XII I CONTENTS
23.3
23.4
23.4.1
23.4.2
23.5
TEAM
DYNAMICS
341
DIVERSITY AND PSYCHOLOGICAL SAFETY
342
PROJECT ARISTOTLE
(GOOGLE)
342
ELEMENTS
OF PSYCHOLOGICAL SAFETY 343
INTERCULTURAL COLLABORATION SKILLS
344
24
OUTLOOK:
THE WORLD AFTER ARTIFICIAL INTELLIGENCE
347
APPENDIX A
0MG SYSTEMS MODELING LANGUAGE
349
A.1
ARCHITECTURE OF THE LANGUAGE
350
A.2
DIAGRAM AND MODEL
352
A.3
STRUCTURE
DIAGRAMS
353
A.3.1
BLOCK DEFINITION DIAGRAM
354
A.3.2
INTERNAL BLOCK DIAGRAM 357
A.3.3
PARAMETRIC DIAGRAM
361
A.3.4
PACKAGE
DIAGRAM
362
A.4
BEHAVIOR DIAGRAMS
363
A.4.1
USE CASE
DIAGRAM
364
A.4.2
ACTIVITY DIAGRAM
366
A.4.3
STATE MACHINE DIAGRAM
369
A.4.4
SEQUENCE DIAGRAM
371
A.5
REQUIREMENTS DIAGRAM
372
A.6
EXTENSION
OF SYSML WITH PROFILES 374
A.7
NEXT-GENERATION MODELING
LANGUAGE SYSML V2
376
APPENDIX B THE
V-MODEL 381
B.1
A BRIEF HISTORY OF THE V-MODEL
OR THE SYSTEMS ENGINEERING VEE
381
B.2
A HANDY ILLUSTRATION BUT NO COMPREHENSIVE
PROCESS DESCRIPTION
383
B.3
CRITICAL
CONSIDERATIONS
385
B.3.1
THE V-MODEL AS PROCESS DESCRIPTION
386
B.3.2
THE V-MODEL DOES NOT IMPOSE
A WATERFALL PROCESS
386
B.3.3
THE V-MODEL ACCOMMODATES
ITERATIONS
387
B.3.4
THE V-MODEL PERMITS INCREMENTAL DEVELOPMENT
387
B.3.5
THE V-MODEL AND CONCURRENT
ENGINEERING
388
B.3.6
THE V-MODEL ACCOMMODATES CHANGE
388
B.3.7
THE V-MODEL PERMITS
EARLY VERIFICATION PLANNING
388
B.3.8
THE V-MODEL SHOWS WHERE TO PREVENT
DISSATISFACTION
388
B.4
READING INSTRUCTION FOR A MODERN SYSTEMS ENGINEERING
VEE
389
B.4.1
THE VERTICAL DIMENSION
389
B.4.2
THE
HORIZONTAL DIMENSION
389
B.4.3
THE LEFT SIDE
389
B.4.4
THE RIGHT
SIDE
390
B.4.5
THE LEVELS
390
B.4.6
LIFE CYCLE PROCESSES
3!
B.4.7
THE THIRD DIMENSION
APPENDIX C GLOSSARY 391
C.1
HERITAGE OF THE TERM
"G.
C.2
TERMS WITH SPECIFIC MEA
REFERENCES 399
INDEX 417
CONTENTS
LXIII
B.4.4
THE RIGHT
SIDE
390
B.4.5
THE LEVELS
390
B.4.6
LIFE
CYCLE PROCESSES
390
B.4.7
THE THIRD DIMENSION
390
APPENDIX C
GLOSSARY 391
C.1
HERITAGE OF THE TERM "GLOSSARY"
391
C.2
TERMS
WITH SPECIFIC MEANING
393
REFERENCES 399
INDEX 417
181
383 |
| any_adam_object | 1 |
| author | Weilkiens, Tim Lamm, Jesko G. 1976- Roth, Stephan 1968- Walker, Markus |
| author_GND | (DE-588)128959940 (DE-588)1194409245 (DE-588)1164727982 (DE-588)1194410839 |
| author_facet | Weilkiens, Tim Lamm, Jesko G. 1976- Roth, Stephan 1968- Walker, Markus |
| author_role | aut aut aut aut |
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| building | Verbundindex |
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| ctrlnum | (OCoLC)1351713322 (DE-599)KXP1805468278 |
| dewey-full | 620.001/171 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 620 - Engineering and allied operations |
| dewey-raw | 620.001/171 |
| dewey-search | 620.001/171 |
| dewey-sort | 3620.001 3171 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Technik |
| edition | Second edition |
| format | Book |
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| id | DE-604.BV049797317 |
| illustrated | Illustrated |
| indexdate | 2024-08-27T00:09:20Z |
| institution | BVB |
| isbn | 9781119746652 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-035138001 |
| oclc_num | 1351713322 |
| open_access_boolean | |
| owner | DE-523 |
| owner_facet | DE-523 |
| physical | xxi, 432 Seiten Illustrationen |
| publishDate | 2022 |
| publishDateSearch | 2022 |
| publishDateSort | 2022 |
| publisher | Wiley |
| record_format | marc |
| series2 | Wiley series in systems engineering and management |
| spelling | Weilkiens, Tim Verfasser (DE-588)128959940 aut Model-based system architecture Tim Weilkiens, Jesko G. Lamm, Stephan Roth, Markus Walker Second edition Hoboken, NJ Wiley 2022 xxi, 432 Seiten Illustrationen txt rdacontent n rdamedia nc rdacarrier Wiley series in systems engineering and management Includes bibliographical references and index "The book covers the practice of being a system architect in an organization that uses models to support the systems engineering processes. It will therefore introduce the fundamentals of both architecting systems and using models to assist the architecting process. While the first edition of the book had a balanced description of both the technicalities of modeling the system architecture and concrete advice on the practical work as a system architect, the second edition focuses even more on the system architect role and what it means to be a system architect. It includes new chapters on systems, systems-of-systems, and cyber-physical systems; model governance; and tools for the architect. It also provides guidance on how a practitioner can benefit and apply the presented concepts."-- System design Computer simulation SysML (Computer science) Lamm, Jesko G. 1976- Verfasser (DE-588)1194409245 aut Roth, Stephan 1968- Verfasser (DE-588)1164727982 aut Walker, Markus Verfasser (DE-588)1194410839 aut Digitalisierung Bibliothek HTW Berlin application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=035138001&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Weilkiens, Tim Lamm, Jesko G. 1976- Roth, Stephan 1968- Walker, Markus Model-based system architecture |
| title | Model-based system architecture |
| title_auth | Model-based system architecture |
| title_exact_search | Model-based system architecture |
| title_full | Model-based system architecture Tim Weilkiens, Jesko G. Lamm, Stephan Roth, Markus Walker |
| title_fullStr | Model-based system architecture Tim Weilkiens, Jesko G. Lamm, Stephan Roth, Markus Walker |
| title_full_unstemmed | Model-based system architecture Tim Weilkiens, Jesko G. Lamm, Stephan Roth, Markus Walker |
| title_short | Model-based system architecture |
| title_sort | model based system architecture |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=035138001&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT weilkienstim modelbasedsystemarchitecture AT lammjeskog modelbasedsystemarchitecture AT rothstephan modelbasedsystemarchitecture AT walkermarkus modelbasedsystemarchitecture |