faa/eurocontrol tim 9 on performance metrics – integra rod gingell 16 may 2002
Post on 27-Mar-2015
233 Views
Preview:
TRANSCRIPT
FAA/Eurocontrol TIM 9 on Performance Metrics
–INTEGRA
Rod Gingell
16 May 2002
INTEGRA
• What is INTEGRA?
• What are INTEGRA metrics?
• Why are they necessary?
• How do they support concept evaluation and target setting?
INTEGRA Project
• The INTEGRA project’s objective is to provide a quantified assessment of proposed automated ATM tools and associated procedures within an ATM simulation. This assessment is to be made in terms of:– Safety– Capacity– Efficiency, and– Environmental Impact
• The assessment is to be made at a system level rather than at the sub-system level
What are INTEGRA metrics?
• INTEGRA metrics have been designed to provide quantitative measures to establish the benefit or otherwise of advanced ATM systems containing a degree of controller assistance tools
• They have been designed to operate at the ATM system level measuring capacity, safety, efficiency and environmental impact
Why are they necessary?
• Previous simulations that have included advanced tools have been beneficial in demonstrating tools and concepts but have not provided quantitative measures of performance
• Typically current metrics for capacity are based on controller workload assessment– These are largely subjective measures, questionnaires etc – Only linked to capacity because the controller task is seen
as the bottleneck.
Presentation Topics
• How INTEGRA metrics can be used to support the definition of future concepts and concept evaluation
• The importance of the Operational Concept and the relationship between metrics and the Operational Concept
• The need to measure the ATM system when it is operating in accordance with its design
This presentation will, using the Capacity Metric, demonstrate the following:
INTEGRA Capacity Metric
• In current systems Controllers workload is considered to be the bottleneck in terms of capacity
• Capacity has therefore been linked to controller workload and a number of metrics have been developed to “measure” this workload
• In advanced ATM systems it is not evident that controller workload will be the limiting factor
• The INTEGRA capacity metric is designed to determine the capacity achievable using such systems
Capacity Metric Premises (1)
• There are a number of actors identifiable that perform tasks in an ATM system e.g.– Tactical Controller– Planning Controller– Conflict probe– etc.
• Information has to be processed to execute an ATM task e.g.– detect a conflict – resolve a conflict – monitor traffic – etc.
• Information processed is the same whichever actor is involved in processing it
Capacity Metric Premises (2)
• Each actor will have a different threshold as to the amount of information that can be handled
• Capacity of the system is reached when any one of the actors is overloaded
Principles of Capacity Metric
• Identification of actors from operational concept/procedures
• Identification of activities
• Allocation of activities to actors
• Algorithm operates with simulation output data to identify an amount of “Information Processing Load” (IPL) for each of these activities
• Allocation of IPL to the identified actor at the time that it occurs
• Sum the IPL for each actor and compare with a “threshold” to determine if overloaded at any time
• This sequence of events is illustrated in the following slides
Capacity Metric Sequence
OperationalConcept
Identificationof Actors
Allocation ofActivities to
Actors
Simulation -events recorded
Metricscalculated
Levels comparedwith threshold
Identificationof Activities
Configuring Actors
TrajectoryPredictor
FlightPath
Monitor
ConflictProbe
PilotPlanningController
TacticalController
etc
Actors
Co-ordination
Other flight plan changes
Monitoring
Resolution Implementation
Resolution Planning
Interaction Detection
Flight Acknowledgement
Tas
ks
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1 1
1
1
Capacity Metric Application
Measurement of Symptoms
Reconstruction of Events
When recorded Data / Eventsdo not match INTEGRA Metric input events
IdealFlow
AlternativeFlow
KnownMetrics
Develop Concept
RecordedData / Events
Simulation
Design Simulation
CalibrationComparison
Extraction of Events
Metrics Calculation
Re-develop Concept and/or Re-design Simulation
Interaction Detection Zone
Look-ahead Time Limit
Conflict Detection Zone
Resolution Implementation
Interaction Detection / Resolution Planning
Conflict with another aircraft
Other Aircraft
Sector BoundaryTrajectory Edit
Direction
BAW1234
Example Trajectory Update
Timestep
IPL
Coord
Other
Monitor
Res_Impl
Res_Plan
Int_Detect
Arrival
Actor : Controller
Allocation for One Actor
Interaction Detection & Resolution Planning
ResolutionImplementation
Time
IPL for One Trajectory Edit & One Actor
Actor : Controller
Timestep
IPL
Coord
Other
Monitor
Res_Impl
Res_Plan
Int_Detect
Arrival
Timestep
IPL
Coord
Other
Monitor
Res_Impl
Res_Plan
Int_Detect
Arrival
Actor : Conflict Probe
Allocation for Two Actors
Interaction Detection & Resolution Planning
ResolutionImplementation
Time
IPL for One Trajectory Edit & Two Actors
Prerequisites
• Need to be able to calibrate metric output to determine threshold
• For computer processes such as a conflict probe or trajectory predictor the thresholds are readily obtainable e.g. memory usage, processor usage etc.
• For human actors it is more complicated. “Traditional” approaches can be used to obtain workload estimates to compare with the IPL values, these include:– questionnaires– ISA measurements– heart rate monitoring etc
• But these estimates may not necessarily correspond to the actual work required to control the system
Validation Requirements
• Three phases to Validation– Platform must operate correctly– Controller acceptance of concepts and system– Measurement of system capacity etc when operating
according to requirements
• Each of these have to be addressed to obtain a true validation
INTEGRA Metrics in EACAC 2000 SIMULATION
Capacity - Results
0
50
100
150
200
250
13:0
2:00
13:0
6:00
13:1
0:00
13:1
4:00
13:1
8:00
13:2
2:00
13:2
6:00
13:3
0:00
13:3
4:00
13:3
8:00
13:4
2:00
13:4
6:00
13:5
0:00
13:5
4:00
13:5
8:00
14:0
2:00
14:0
6:00
14:1
0:00
14:1
4:00
14:1
8:00
0
50
100
150
200
250
13:0
2:00
13:0
6:00
13:1
0:00
13:1
4:00
13:1
8:00
13:2
2:00
13:2
6:00
13:3
0:00
13:3
4:00
13:3
8:00
13:4
2:00
13:4
6:00
13:5
0:00
13:5
4:00
13:5
8:00
14:0
2:00
14:0
6:00
14:1
0:00
14:1
4:00
14:1
8:00
En-route Sector TJ Group 2 November 2000
Without ASAS With ASAS
Capacity - Results
ETMA Sector AO Group 3 June 2000
0
50
100
150
200
250
300
13:3
8:00
13:4
6:00
13:5
4:00
14:0
2:00
14:1
0:00
14:1
8:00
14:2
6:00
14:3
4:00
14:4
2:00
14:5
0:00
14:5
8:00
15:0
6:00
15:1
4:00
15:2
2:00
15:3
0:00
15:3
8:00
15:4
6:00
15:5
4:00
0
50
100
150
200
250
300
13:3
8:00
13:4
6:00
13:5
4:00
14:0
2:00
14:1
0:00
14:1
8:00
14:2
6:00
14:3
4:00
14:4
2:00
14:5
0:00
14:5
8:00
15:0
6:00
15:1
4:00
15:2
2:00
15:3
0:00
15:3
8:00
15:4
6:00
15:5
4:00
Without ASAS With ASAS
Capacity - Results
En-route Sector TJ Group 1 November 2000
0
20
40
60
80
100
120
140
160
180
200
04:2
0:00
04:2
4:00
04:2
8:00
04:3
2:00
04:3
6:00
04:4
0:00
04:4
4:00
04:4
8:00
04:5
2:00
04:5
6:00
05:0
0:00
05:0
4:00
05:0
8:00
05:1
2:00
05:1
6:00
05:2
0:00
05:2
4:00
05:2
8:00
05:3
2:00
05:3
6:00
05:4
0:00
05:4
4:00
05:4
8:00
0
20
40
60
80
100
120
140
160
180
200
04:2
0:00
04:2
4:00
04:2
8:00
04:3
2:00
04:3
6:00
04:4
0:00
04:4
4:00
04:4
8:00
04:5
2:00
04:5
6:00
05:0
0:00
05:0
4:00
05:0
8:00
05:1
2:00
05:1
6:00
05:2
0:00
05:2
4:00
05:2
8:00
05:3
2:00
05:3
6:00
05:4
0:00
05:4
4:00
05:4
8:00
Without ASAS With ASAS
Demonstrator
Demonstrator has the following facilities:
• ATC HMI on which traffic can be controlled
• Processing of output data with Capacity and Safety algorithm
• Display of output data
top related