Post on 04-Jan-2016
Web-Based Modeling and Simulation Understanding and Dealing With Complexity in...
Mr. Dana Paterson AIR4.0X C4ISR Systems Architecture Development and Analysis Engineer
S S e e a a S S t t r r i i k k e e FORCEnet
S S e e a a B B a a s s i i n n g g
S S e e a a S S h h i i e e l l d d
CNO’s Transformation Roadmap
FORCEnetFORCEnetFORCEnet
Command &Control
Grid
SensorGrid(s)
WeaponGrid(s)
For the purposes of this presentation
… is the operational construct and architectural framework for Naval Warfare in the Information Age which integrates warriors, sensors, networks, command and control, platforms and weapons into a networked, distributed combat system, scalable across the spectrum of conflict from seabed to space and sea to land.
ConceptDevelopment
ExperimentsRequirements
Generation
LIVE
CONSTRUCTIVE
VIR
TUA
L
M&S
ISTF
RA
NG
E
HITL
LAB
S
ANALYSIS
Iterative Process
Naval Aviation Experimentation Framework
Iterative, Step-wise Refinement Exploiting M&S in a DoD 5000 Framework
The Concept Maturation Engine
ConceptDefinition
StrategyDevelopment
Planning &Management
RequirementsManagement
ConceptDevelopment
Knowledge ManagementFunctions
Define
Assess
Strategize
Validate
IterativeFunction
The Concept Maturation Process is comprised of four components which are Closely integrated through an iterative and continuous concept assessment
Approach (DEFINE-ASSESS-STRATEGIZE-VALIDATE). LIVE
CONSTRUCTIVE
VIR
TUA
L
ISTF
RA
NG
E
HITL
LAB
S
Spiral Process
Naval Aviation Experimentation Framework
ConceptDevelopment
Experiments RequirementsGeneration
M&S
ANALYSIS
The Inner Workings of Concept Maturation
SYSTEM ANALYSIS
SYSTEM DESIG
NSYSTEM INTEGRATION
SYSTEM VERIFICATIO
N
ARCHITECTUREDigital Models
Inte
grat
ed P
rodu
ct
Team
s
Stakeholders
System Verification
Wor
king
Group
sContractors
Trades &Analysis
System Design &Implementation
RequirementsDefinition
An Architecturally-Governed, Iterative Systems Engineering Process
The Systems Engineering Engine
SYSTEM ANALYSIS
SYSTEM DESIG
NSYSTEM INTEGRATION
SYSTEM VERIFIC
ATION
Architecture
Digital Models
Inte
grat
ed P
rodu
ct
Team
sStakeholders
System Verification
Wor
king
Group
sContractors
Trades &Analysis
System Design &Implementation
RequirementsDefinition
Mission NeedsORD
Changing Operational EnvironmentTechnology Opportunity
New MissionInnovation OpportunityPerformance Shortfalls
Problems with “existing” systems
Modeling &Simulation
AnalyticalTools
TechnologyExisting Designs
(COTS, GOTS…)
EvaluationCriteria
SystemSpecs
UserValidation
Plans
Lessons
Learned
The System Engineering Context
External Factors Provide the “Rotational Force”
Collaborative Engineering for a Single System
System Engineering Over Time
Weapons Grid(For Example)
Synchronized System EngineeringRequired to Deploy System of Systems
Many Concepts, Much Engineering, Timely Deployments Synchronized, Over Time
Synchronous EngineeringScientific Method
Analytic Rigor
COLLABORATIVEENGINEERINGENVIRONMENT
Simultaneous Engineering in the Large
…sensors, networks, decision aids, weapons, warriors and supporting systems integrated…
METRICS
DESIGN
ANALYSIS
EXPERIMENT
SENSORS
COMMAND &CONTROL
WEAPONS
VALIDATION &
CERTIFICATION
FORCEnetBackplane
Architecture for a System of Systems of Systems (an Architecture of Architectures)
Typical Infrared Hardware-In-the-Loop Test Lash-up
Atmosphere
Scenario (movements)
Obscurants
Targets
Terrain
Sce
ne
Ren
der
ing
SceneIR
IR Scene Projector
IR Scene Sensor
DATABASES
Sensor Platform State Vector
Signals
Instrumentation
Nav
JIMM
In Development
Untested
Nearly Ready or Ready
EA-6B ICAP-III Multi-Sensor Test Lash-UpAs of December 12, 2001 IOC: February 18, 2002 FOC: April 1, 2002
HARDWARE-IN-THE-LOOP
ANECHOIC CHAMBERS
FLIGHT TEST SQUADRONS
SIMULATIONS
TARGETS
PATUXENT RIVER
POINT MUGU
CHINA LAKE
ConceptDevelopment
Test andEvaluation
RequirementsGeneration
LIVE
CONSTRUCTIVE
VIR
TUA
L
M&S
IST
F
RA
NG
E
HITL
LAB
S
ANALYSIS
Spiral Process
Naval Aviation Philosophy
ConceptDevelopment
Test andEvaluation
RequirementsGeneration
LIVE
CONSTRUCTIVE
VIR
TUA
L
M&S
IST
F
RA
NG
E
HITL
LAB
S
ANALYSIS
Spiral Process
Naval Aviation Philosophy
OPEN AIR RANGES
INSTALLED SYSTEMTEST FACILITIES
HARDWARE-IN-THE-LOOPFACILITIES
SYSTEM INTEGRATIONLABS
REAL-TIME MAN-IN-THE-LOOPCOCKPIT INTERFACE
REAL-TIME METRICS
E-2C
EA-6B
H-60 H-1
F/A-18
F/A-18
F/A-18
Mini-Crew Stations Re-Configurable Cockpits
UAV
E-2C
EA-6B
H-60 H-1
F/A-18
F/A-18
F/A-18
Mini-Crew Stations Re-Configurable Cockpits
UAV
SIMULATIONS
LAKEHURST
ORLANDO
TEST AND EVALUATIONENGINEERING
T&E EXPERTISE
OPEN AIR RANGES
Simultaneous FORCEnet Concept EvaluationA NAVAIR Example
Futurespective
FORCEnet
Command &Control
Grid
SensorGrid(s)
WeaponGrid(s)
Backplane
QUESTIONS