definition | 20 | |
diagram 80, 83, 107 | ||
create | 138 | |
interaction diagram 85 | ||
model | 80 |
|
semantics | 81 | |
stereotype | 107 | |
logical |
|
|
architecture 70 | ||
element | 71 | |
entities | 102 | |
model | 87 |
|
service | 82 | |
viewpoint | 6, 27, 70, 80 | |
M
manage complexity 3
material flow 81 MDSD 1
abstractions 3 actor 40 artifacts 109 benefits 8 collaboration 12 context diagram 44 definitions 18 diagrams 9 disciplines 23 framework 24 horizontal integration 14 integration 22 iteration 23
key concepts 24 meta model 12, 28 model 58, 94 modeling process 39
installation 114
problems addressed 4 process 10, 32 request 57 responsibilities 15 risk 9
RUP
Step 1 - Define the system context 40
Step 10 - Creating element context diagrams 71 Step 11 - Create use case models at levels be- low the enterprise 77
Step 12 - Developing a locality model 80 Step 2 - Finding actors 40
Step 3 - Create a context diagram 44 Step 4 - Finding I/O entities 45 Step 5 - Finding use cases 48
Step 6 | - Write use case |
Step 7 | - Operation identification 55 |
Step 8 | - Refactoring and consolidating enter- |
prise operations 65
Step 9 - Operation realization 70 stereotypes 99
SysML 16
system decomposition 22, 29 template 118
template for a use case 53 tools 93
traceability 12 transformations 4 UML Profile 97 use case 14, 46
specification template 181 value 42
viewpoints 6, 37 MDSDUseCaseSpecification.doc 194 methodology 8, 37
model analysis 5 definition 18 level 25
see MDSD modeling
benefits 4 languages 24 perspective 111 semantic 12
N
network bandwidth 83 nonfunctional requirements 32
O
object framework 10
Index 201
