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Test3
Test3
Operational Analysis
Stakeholder Requirements
Test technologies
The mission shall test the impact of human metabolic activities on environmental...
The mission shall validate AI-assisted control systems, develop and validate inn...
Mission services
The mission shall provide a mobility system, enabling transferability, provide i...
Operational Activities
Root Operational Activity
Testing Operational Process
To simulate an human space mission
To analyze outcomes
To update technologies
To exploit outcomes
To define their objectives
To validate outcomes
To design new solutions
To move the habitat
To support mission functioning
To test technologies
To share results
To uncover goals
To share results
To uncover goals
To collect data
Operational Capabilities
To assess and advance autonomous control, human-machine interaction, and system modularity and scalability
[OES] Scenario Human Space Mission Conditions and Technologies
To provide mobility, autonomous power, command, data and communication systems, and crew support facilities
[OES] Scenario Mission Support Services
To evaluate human-environment interactions and new ECLS systems
[OES] Scenario Human Life Technologies
Interfaces
Data
Roles
Operational Entities
Consortium (Space Company & University) : Consortium (Space Company & University)
Space Agency : Space Agency
Operator : Operator
Consortium (Space Company & University)
StateMachine 1
Default Region
Start
Mission Definition
region
Mission Start
region
Update Technologies
region
Test Phase
region
Analyze Phase
region
Mission Conclusion
region
Validate Technologies
region
Error?
End
Space Agency
Operator
System Analysis
Stakeholder Requirements
Test technologies
The system shall control human metabolic outputs, environmental parameters, huma...
The system shall manage water, atmosphere, human health and waste, and prevent f...
The system shall process and monitor AI commands.
The system shall collect human feedback, process and monitor interface commands.
The system shall allow system design modifications and monitor systems functioni...
The system shall manage human sleep, hygiene, nutrition and privacy, and monitor...
Mission services
The system shall move.
The system shall manage electric power, commands and communications.
System Functions
Root System Function
Testing Functional Chain
Supporting Functional Chain
Miss Goals Functional Chain
Meet Goals Functional Chain
Moving Functional Chain
To simulate an human space mission
FIP 1
To analyze outcomes
FIP 2
outTo share results
outTo share results
outTo share results
outTo uncover goals
To update technologies
inTo uncover goals
To exploit outcomes
inTo share results
To define their objectives
FOP 1
To validate outcomes
inTo share results
To design new solutions
inTo share results
To move the habitat
FOP 1
To support mission functioning
FOP 1
FOP 2
FOP 3
To test technologies
FOP 1
FOP 2
FOP 3
FOP 4
FOP 5
FOP 6
To enable system's movability
FIP 1
To manage electric power
FIP 1
To manage commands
FIP 1
To manage data
FIP 6
FIP 7
inTo collect data
FIP 8
FIP 5
FIP 9
FOP 1
To manage communications
FIP 1
To test human environment interactions
FIP 1
outTo collect data
To monitor human metabolic outputs
To monitor human behaviour
To monitor environmental parameters
To monitor human health
To test ECLS technologies
FIP 1
FOP 1
To manage water
To monitor water system
To manage human health
To manage atmosphere
To monitor atmosphere system
To monitor fire system
To prevent fires
To monitor waste system
To manage waste
To monitor human health system
To test AI control systems
FIP 1
FOP 1
To process AI commands
To monitor AI performances
To test human machine interfaces
FIP 1
FOP 1
To collect human feedback
To monitor interfaces perfomances
To process interface commands
To test system modularity and scalability
FIP 1
FOP 1
To allow system design modifcations
To monitor systems functioning
To test crew support facilities
FIP 1
FOP 1
To manage sleep
To manage hygiene
To manage nutrition
To manage privacy
To monitor crew system
To share positive results
To uncover goals
To share positive results
To uncover goals
To collect data
To collect data
To collect data
To collect data
To collect data
Testing preparation
Testing preparation
Testing preparation
Testing preparation
Testing preparation
Data analysis
Processing communications
Distributing power
Executing commands
Processing movement commands
Mission Planning
Testing preparation
To collect data
Capabilities
To test human-environment interactions
[FS] Human Environment Scenario
[ES] Human Environment Interactions Scenario
[ES] Human Environment Interactions Scenario
[ES] Human Environment Interactions Scenario
[FS] Human Environment Interactions Scenario
[ES] Human Environment Interactions Scenario
[ES] To test human environment interactions
[ES] Human Environment Interactions Scenario
To test ECLS technologies
[FS] Life Support Scenario
[ES] Life Support Scenario
[ES] Life Support Scenario
To test AI control systems
[FS] AI Control Scenario
[ES] AI Control Scenario
To test human-machine interfaces
[FS] Human Machine Interfaces Scenario
[ES] Human Machine Interfaces Scenario
To test system modularity and scalability
[FS] System Usability Scenario
[ES] System Usability Scenario
To integrate a mobility system
[FS] Mobility Scenario
[ES] Mobility Scenario
To integrate self-sustaining electric energy, command, data and communication systems
[FS] Utility Scenario
[ES] Utility Scenario
To test crew support facilities
[ES] Crew Support Facilities Scenario
Interfaces
Data
Predefined Types
Boolean
Byte
Char
Double
Float
Hexadecimal
Integer
Long
LongLong
Short
String
UnsignedInteger
UnsignedShort
UnsignedLong
UnsignedLongLong
Structure
System : System
Consortium (Space Company & University) : Consortium (Space Company & University)
Space Agency : Space Agency
Operator : Operator
TAS-I : TAS-I
PoliTO : PoliTO
System
System State Machine
Default Region
Consortium (Space Company & University)
Space Agency
Operator
TAS-I
PoliTO
Missions
To provide mobility, autonomous power, command, data and communication systems, and crew support facilities
To assess and advance autonomous control, human-machine interaction, and system modularity and scalability
To evaluate human-environment interactions and new ECLS systems
Logical Architecture
Logical Functions
Root Logical Function
Miss goals Functional Chain
Meet goals Functional Chain
Water Functional Chain
Fire Functional Chain
Health Functional Chain
Waste Functional Chain
Human Functional Chain
User feedback Functional Chain
Systems Functional Chain
Testing Functional Chain
Supporting Functional Chain
Miss Goals Functional Chain
Meet Goals Functional Chain
Moving Functional Chain
Atmosphere Functional Chain
Crew Systems Functional Chain
AI Functional Chain
Interfaces Functional Chain
Systems Functional Chain
Moving Functional Chain
Supporting Functional Chain
Environment Functional Chain
To simulate an human space mission
FIP 1
To analyze outcomes
FIP 2
FIP 3
FOP 1
To update technologies
inTo uncover goals
To exploit outcomes
inTo share results
To define their objectives
FOP 1
To validate outcomes
inTo share results
To design new solutions
inTo share results
To move the habitat
FOP 1
FOP 2
To support mission functioning
FOP 1
FOP 2
FOP 3
FOP 4
FOP 6
FOP 1
To test technologies
FOP 1
FOP 2
FOP 3
FOP 4
FOP 5
FOP 6
To enable system's movability
FIP 1
To regulate movement
FIP 1
FOP 1
To control displacement
FIP 1
Manage positioning
To manage electric power
FIP 1
To generate electric power
FIP 1
FOP 1
To store electric power
FIP 1
FOP 1
To distribute power
FIP 1
To regulate power consumption
FIP 1
FOP 1
Generating power
Storing power
Distribution lines
To manage commands
FIP 1
To receive commands
FIP 1
FOP 1
To process commands
FIP 1
FOP 1
To execute commands
FIP 1
FOP 1
To monitor command status
FIP 1
Processing commands
Transmit inputs
Verify command execution
To manage data
FIP 9
FIP 10
FIP 3
FIP 4
FIP 5
FIP 6
FIP 7
inTo collect data
FIP 8
FIP 5
FIP 11
FIP 12
FIP 13
FIP 14
FIP 15
FIP 16
FIP 17
FIP 18
FIP 9
FIP 20
FIP 21
FOP 1
To collect data
FIP 1
FOP 1
To store data
FIP 1
FOP 1
Storing data
To manage communications
FIP 1
To establish communications
FIP 1
FOP 1
To secure communications
FIP 1
FOP 1
To monitor signal quality
FIP 1
Ensure transmission integrity
Verify transmission
To test human environment interactions
FIP 1
outTo collect data
To monitor human metabolic outputs
To identify human metabolic outputs
FOP 1
To track human metabolic outputs
FIP 1
FOP 1
Checking variations
To monitor human behaviour
To track behavioral pattern
FIP 1
FOP 1
To identfy human interactions with the environment
FOP 1
Checking variations
To monitor environmental parameters
To identify atmospheric anomalies
FIP 1
To measure atmospheric conditions
FOP 1
To track light levels
FOP 1
To monitor human health
To analyze health metrics
FOP 1
To track physiological metrics
FIP 1
FOP 1
Checking variations
To test ECLS technologies
FIP 1
FOP 1
To manage water
To store water
FOP 1
To purify water
FIP 1
FOP 1
To distribute water
FIP 1
Purification Pipeline
To monitor water system
To measure water quality
FIP 1
FOP 1
FOP 2
To identify water system failures
FIP 1
To manage human health
To recover health
FOP 1
To mantain health
FIP 1
FOP 1
Health stabilization
To manage atmosphere
To remove CO2
FIP 1
FOP 2
To generate O2
FIP 1
FOP 1
To store gas
FOP 1
To distribute air
FIP 1
To regulate temperature
FIP 1
FOP 1
To regulate humidity
FIP 1
FOP 1
To regulate pressure
FIP 1
FOP 1
To monitor atmosphere system
To measure air quality
FIP 1
FOP 1
FOP 2
To identify atmosphere system failures
FIP 1
To monitor fire system
To measure fire contaminants
FIP 1
FOP 1
To identify fire system failures
FIP 1
To prevent fires
To detect fire
FOP 1
To suppress fire
FIP 1
FOP 1
Fire suppression activation
To monitor waste system
To measure waste quality
FIP 1
FOP 1
FOP 2
To identify waste system failures
FIP 1
To manage waste
To store waste
FOP 1
To recicle waste
FIP 1
FOP 1
To distribute waste
FIP 1
Waste purification activation
To monitor human health system
To measure physiological metrics
FIP 1
FOP 1
To identify health system failures
FIP 1
Quality monitoring
Emergency monitoring
Health monitoring
Quality monitoring
Split 11
FIP 1
FOP 1
FOP 2
Gather 14
FIP 3
FIP 2
FIP 4
FIP 5
FIP 6
FOP 1
Duplicate 15
FIP 1
FOP 1
FOP 2
FOP 2
FOP 1
FOP 5
Split 18
FIP 1
FOP 1
FOP 2
Split 15
FIP 1
FOP 1
FOP 2
Split 16
FIP 1
FOP 1
FOP 2
Split 17
FIP 1
FOP 1
FOP 2
Split 19
FIP 1
outTo share results
outTo share results
outTo share results
outTo uncover goals
To test AI control systems
FIP 1
FOP 1
To process AI commands
To process AI algorithms
FOP 1
To execute AI commands
FIP 1
FOP 1
Transmit inputs
To monitor AI performances
To identify AI failures
FIP 1
To evaluate AI functioning
FIP 1
FOP 1
Quality monitoring
To test human machine interfaces
FIP 1
FOP 1
To collect human feedback
To analyze user feedback
FIP 1
FOP 1
To collect user feedback
FOP 1
Checking results
To monitor interfaces perfomances
To identify interfaces failures
FIP 1
To evaluate interfaces functioning
FIP 1
FOP 1
To process interface commands
To process interface inputs
FOP 1
To execute interface commands
FIP 1
FOP 1
Transmit inputs
Quality monitoring
To test system modularity and scalability
FIP 1
FOP 1
To allow system design modifcations
To allow the scaling of systems
To allow the interchange of systems
To monitor systems functioning
To evaluate systems functioning
FOP 1
To identify systems failures
FIP 1
Duplicate 23
FIP 1
FOP 1
FOP 2
Duplicate 24
FIP 1
FOP 1
FOP 2
Duplicate 25
FIP 1
FOP 1
FOP 2
Duplicate 26
FIP 1
FOP 1
FOP 2
FOP 3
To test crew support facilities
FIP 1
FOP 1
To manage sleep
To allow sleep
To manage hygiene
To allow washing
To allow drying
To allow grooming
To allow toileting
To manage nutrition
To allow eating
To allow drinking
To store food
To manage privacy
To allow relax
To allow personal space
To allow entertainment
To monitor crew system
To identify crew facilities failures
FIP 1
To evaluate crew facilities functioning
FOP 1
Duplicate 34
FIP 1
FOP 1
FOP 2
To share positive results
To uncover goals
To share positive results
To uncover goals
To collect data
To collect data
To collect data
To collect data
To collect data
Testing preparation
Testing preparation
Testing preparation
Testing preparation
Testing preparation
Data analysis
Processing communications
Distributing power
Executing commands
Processing movement commands
Mission Planning
Checking results
Incorrect results
Aligned results
Purifing Process
Humidity regulation
Temperature regulation
Removing CO2
Generating O2
Quality monitoring
Checking results
Incorrect results
Aligned results
Transferring data
Transferring data
Distribution lines
Distribution lines
Distribution lines
Distribution lines
Checking results
Incorrect results
Transferring data
Checking results
Incorrect results
Transferring data
Checking results
Aligned results
Incorrect results
Transferring data
Checking results
Transferring data
Transferring data
Transferring data
Chechking results
Incorrect results
Transferring data
Transferring data
Checking results
Checking results
Checking results
Incorrect results
Incorrect results
Incorrect results
Transferring data
Transferring data
Transferring data
Testing preparation
To collect data
Distribution lines
Pression regulation
Checking results
Incorrect results
Transferring data
Trasferring data
Data analysis
Manage movement
Manage power
Manage commands
Manage communications
Trasferring data
Capabilities
To test human-environment interactions
[ES] Human Environment Logical Scenario
To test ECLS technologies
[ES] Life Support Logical Scenario
To test AI control systems
[ES] AI Logical Scenario
To test human-machine interfaces
[ES] Interfaces Logical Scenario
To test system modularity and scalability
[ES] System Logical Scenario
To integrate a mobility system
[ES] Mobility Systems Logical Scenario
To integrate self-sustaining electric energy, command, data and communication systems
[ES] Utility Systems Logical Scenario
To test crew support facilities
[ES] To test crew support facilities
Interfaces
Data
Structure
Logical System : Logical System
Consortium (Space Company & University) : Consortium (Space Company & University)
Space Agency : Space Agency
Operator : Operator
Logical System
Human–Computer Interfaces and Technologies : Human–Computer Interfaces and Technologies
Space System Software : Space System Software
ECLSS : ECLSS
Crew Support Systems : Crew Support Systems
Mobility Systems : Mobility Systems
Space Systems Electrical Power : Space Systems Electrical Power
RF Systems : RF Systems
Mission Operation and Ground Data Systems : Mission Operation and Ground Data Systems
Human–Computer Interfaces and Technologies
Space System Software
ECLSS
Water Technologies : Water Technologies
Water Control and Monitoring : Water Control and Monitoring
Atmosphere Technologies : Atmosphere Technologies
Fire Technologies : Fire Technologies
Fire Control and Monitoring : Fire Control and Monitoring
Human Health Technologies : Human Health Technologies
Human Health Control and Monitoring : Human Health Control and Monitoring
Waste Technologies : Waste Technologies
Waste Control and Monitoring : Waste Control and Monitoring
Atmosphere Control and Monitoring : Atmosphere Control and Monitoring
Water Technologies
Water Control and Monitoring
Atmosphere Technologies
Fire Technologies
Fire Control and Monitoring
Human Health Technologies
Human Health Control and Monitoring
Waste Technologies
Waste Control and Monitoring
Atmosphere Control and Monitoring
Crew Support Systems
Crew Quarters : Crew Quarters
Kitchen : Kitchen
Hygiene (WC) : Hygiene (WC)
Crew Quarters
Kitchen
Hygiene (WC)
Mobility Systems
Space Systems Electrical Power
RF Systems
Mission Operation and Ground Data Systems
Consortium (Space Company & University)
TAS-I : TAS-I
PoliTO : PoliTO
TAS-I
PoliTO
Space Agency
Operator
Physical Architecture
Physical Functions
Root Physical Function
Capabilities
Interfaces
Data
Structure
Physical System : Physical System
Physical System