implementing model based systems engineering human
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Implementing Model Based Systems Engineering –Human Centricity through Agility T. Gilz, J. Epple, E. Weißschuh, F. Arbes, Daimler AGS. Blankenburg, M. Keckeisen, TWT GmbH
Daimler AG Seite 2
WHY: THE DEVELOPERS
PERSPECTIVE
4
8.000[Functional Depencies per Series]
5
...
…
…
…
Challenges Developers Are Facing TodayConnected. Correlated. Global.
...
...
„Little time!“
„Complex dependencies“
„So much to document!“
WHAT:THE MBSE
VISION
The SolutionModel-Based Systems Engineering
No specification errors
Agile implementation
Collaboration in the company
Collaboration over
development sections
system specification
Conflict-free development
of First Prototype
Provision of MBSE platform
Full integration of functional
dependencies of all systems
Description of models
component specification
MBSEGOAL
VISION
7
Interlinked tool chain
8
Connected Engineer
Different thinking and conceptual worlds
Traceability Preservingknowledge
Integral view
Our Human-centric Approach : The Added Values of MBSE
…
Central database
Minimization
Workflow management
Simplification of interdisciplinary
work
Collaboration
Error reduction
…
HOW:THE INTEGRATED
SOLUTION
page 10
The ChangeValue added for daily work
Mail Dashboard
Text Model Isolated LinkedData / Tools
Communi-cation
Specifi-cation
MBSE
page 11
The ImplementationHuman Centricity through Agility
Emotion
Evolution
Participation
MBSE
page 12
The ImplementationFlexible Modeling Framework: e.g. SPES
MBSE
Lev
el o
fD
eta
il
Viewpoint
low
high
Requirements Functional Logical Technical
page 13
Secure
Process
TomFunction Developer
Devision Warning Light
User Journey for a Demand Sequence
CreateMichael
System SupervisorDevision PostCrash
MBSEplatform
OSLC connection
SarahDemand ManagerSafety
RTC
Demand Management
RTC
Demand Management
RTC
Demand Management
DNG
MBSE frontend
RTC
Simulink
DNG
DM
MarioSystem Supervisor
Devision Outside Light
Assign
Rhapsody
page 14
User Journey Michael creates a demand
MichaelSystem Supervisor
Devision PostCrash
SarahDemand ManagerSafety
RTC Demand Management
page 15
MichaelSystem Supervisor
Devision PostCrash
MarioSystem Supervisor
Devision Outside Light
User Journey Sarah assings the demand
SarahDemand ManagerSafety
?
RTC
Demand Management
page 16
MarioSystem Supervisor
Devision Outside Light
User Journey Mario processes the demand
TomFunction Developer
Devision Warning Light
RTC
DNGMBSE frontend
page 17
MarioSystem Supervisor
Devision Outside Light
User Journey Tom secures the demand
TomFunction Developer
Devision Warning Light
RTC
SimulinkDNG
DM Rhapsody
page 18
Secure
Process
TomFunction Developer
Devision Warning Light
User Journey Collaboration Platform
CreateMichael
System SupervisorDevision PostCrash
MBSEplatform
OSLC connection
SarahDemand ManagerSafety
RTC
Demand Management
RTC
Demand Management
RTC
Demand Management
DNG
MBSE frontend
RTC
Simulink
DNG
DM
MarioSystem Supervisor
Devision Outside Light
Assign
Rhapsody
Virtual Vehicle
Implementing Model-Based Systems EngineeringOur Contribution to the Digital Twin
€
Functional FPT
Simulation DPT
Geometry DMU
Development & Digital Testing Production & After Sales
Digital Twin
Real Vehicle
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