Next Generation Air Traffic Management Boeings' vie...Microsoft PowerPoint - 04_Vortrag Gomez...
Transcript of Next Generation Air Traffic Management Boeings' vie...Microsoft PowerPoint - 04_Vortrag Gomez...
Ph. D. Ramón Gómez Boeing Research and Technology
Ph. D. Ramón Gómez
Next Generation Air Traffic Management
Boeings' view
1BOEING is a trademark of Boeing Management Company.Copyright © 2007 Boeing. All rights reserved.
Next Generation Air Traffic Management Boeing’s View
16th Colloquium on Aviation
Dr. Ramón Gómez-LedesmaFlight Efficiency GroupBoeing Research and Technology EuropeBoeing Phantom WorksNovember 19th, 2008
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Advanced Air Traffic Management
Topics
Air Traffic Management Transformation
System-Wide Information Management
Future Air Traffic Operational Concepts
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Passenger Air Traffic Growth
Data source: ICAO, scheduled services of commercial air carriers
Scheduled Revenue Passenger-Kilometers by Region
0
200
400
600
800
1000
1200
1400
1970 1980 1990 2000 2010
RPK
(bill
ion)
North America
Europe
Asia andPacificLatin America& CaribbeanMiddle East
Africa
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ATM market requires combined developments
Ground Infrastructure
ATM Procedures and Regulations
AircraftCapability
Success onlyoccurs here. Everything else is wasted investment
Air TrafficInfrastructure
AirplaneCapabilities
A/C and Aircrew
Proceduresand
Regulations
Success
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Today’s ATM Environment - Summary
• 1960’s system concept nearing/at limits of scaleability
• Substantial capacity/efficiency gains are technically achievable
• Fractured Gov’t, industry, operator, international marketplace makes for uncertain and long timelines for appreciable change
• Potential opportunity for Commercial Services approach to augment and/or accelerate improvements
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ATM Effects on Boeing Business are Substantial and Growing
• Risk to aircraft sales• Environmental impact• Fuel costs• Global Interoperability• Costs of delays and unreliability• Costs of imposed “solutions” to aircraft
manufacturers and airlines
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Regional Initiatives
Trials have indicated fuel savings between 400 and 800 pounds per flight, which translates to up to 2,400 pounds of reduced CO2 emissions per arrival.
AMS
SYD
MEL
SFODEN
SDFLJG
LHR
Tailored Arrivals•Boeing•FAA•NASA•Lockheed
RNP/3DPaths•Boeing•FAA•UPS
Inbound SequencingTailored Arrivals•Boeing•Air Traffic Control, The Netherlands•Eurocontrol Maastricht Upper Airspace Center•National Aerospace Laboratory, The Netherlands•Transavia•Martin Air
Tailored Arrivals•Air Services Australia•Airbus•Thales•Quantas•Emirates
RNP•Boeing•CAAC•China EasternContinuous Descent Approach
•Boeing•UPS •FAA
•EORA•Boeing•British Airways•UK NATS•CAA
Boeing Proprietary
MIA
LELN
•Boeing R&TE•Partners•Universities
ATLANTIDA
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ATM Transformation Vision
Precision flight Precision flight anywhereanywhere
Precision common Precision common awarenessawareness
Capacity,Capacity,Safety & EfficiencySafety & Efficiency
Agility,Agility,Security & EconomySecurity & Economy
Management by trajectory
Dynamic seamless airspace
Network Enabled OperationsEnables
Satellite-enhanced CNS
SWIM
Information Infrastructure
•• 3X3X++ capacitycapacity•• Economy stimulusEconomy stimulus•• $10$10--30B/yr global savings30B/yr global savings•• Global interoperabilityGlobal interoperability•• Accident reductionAccident reduction•• Threat deterrenceThreat deterrence
Create Transformed GlobalAir Traffic System
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Advanced Air Traffic Management
Topics
Air Traffic Management Transformation
System-Wide Information Management
Future Air Traffic Operational Concepts
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Control by Radar
1950’s
1st Transformation
Drivers:
Safety
Defense
SWIM and Airspace Transformation II
Scalability Limit
2010’s
Management by Trajectory
Drivers:
Capacity
Security
2nd Transformation
Traffic Growth
SWIMSWIM
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Applications &Automation
Network
Operations
Air TrafficFlow
Management
Air TrafficSeparation
Services
SecurityCommand
andControl
MilitaryCommand
andControl
Others . . .
CapacityCapacity EfficiencyEfficiency SecuritySecuritySafetySafety
WorldNavigation WeatherSurveillanceFunctions Communication
Communications NetworkCommunications Network
Net-Enabling the Air Traffic Domain
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NAS Transformation Creates NEO in ATM
Sum of SystemsIndependent system architectures
Oceanic Flow
EnrouteTerminal
Today
System of SystemsShared network & information architectures
Network
Information
NextGen/SESAR
NetworkEnabled
Operations
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Airspace Domains and Interoperability
Multiple Geographical and Flight Domains Operations grouped for efficiency rather than by geographical and technical limitations
Operating Domains
Information Processing Domains
Oceanic
Surveillance
Enroute
Flight Data
Terminal
Weather
Surface
AIM
Without SWIM With SWIM
SWIM
TrackerAirmet /Sigmet
Forecaster
Direct Route Tool
Sequencer
Operations
Applications(Examples)
Dynamic Sectors
Airspace Flow
Uniform Separation
Traffic Separation
Information Sources(Examples)
Surveillance Weather Surface Flt Planner
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SPA
CE
SPA
CE
AIRAIR
Broadcast Satellites(Info)
Two-way Comm Satellites Navigation Satellites
Nav Reference Stations
Air-Ground Communications
ATCSCCAir Traffic Control
System Command Center
Tower FOCFlight
Operations Center
ARTCCAir Route Traffic Control Center
NWS
GA
Homeland SecurityNORAD
DoD
Ground Based Navigation Aids
UAV
Space Access Nodes
Information Network
Primary SecondaryRadar
NOCNetwork
Operations Center
GR
OU
ND
GR
OU
ND (Voice/data
Comm & Surv)
(Voice/data Comm & Surv)
Future Networked ATM
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Topics
Air Traffic Management Transformation
System-Wide Information Management
Future Air Traffic Operational Concepts
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Domains of flight
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Future Operational View –Integrated Services
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Control by Exception
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Operations Enabled With ADS-B
Standard LongitudinalSeparation Requirement
ITP Aircraft
Blocking Aircraft
ITP Criteria
FL360
FL350
FL340
In-Trail ProceduresMerging and Spacing,Surface Operations,and Closely-Spaced Parallel Approaches
Reduced-Separation in Non-Radar Airspace
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Seven Steps to Deliver >3X Airport Capacity
1) Equivalent visual operations
2) Tailored arrivals at +/- 2 secs
3) All safe airspace exploited
4) 2-mile approach spacing
5) Pave down the middle
6) Multi-aircraft runway operations
7) All suitable airports used
Exploiting Shared Precision Information
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ILS
RNP
Closely Spaced Parallel Approaches & Reduced
Inter-Arrival Spacing
RNP Provides Full Path Definition
Low RNP Missed Approach Paths
Low RNP Departure Paths
Reduced / Eliminated ILS Critical Areas
ILS
R7
RNP Path Options
GLS
Nationally Integrated, Automated Air Traffic System
and Management Tools
Constant Descent Paths from Top of Descent
Terminal Area Airspace Operations
Communications: Voice/Digital
Navigation: Ground basedSurveillance: Ground based
ATM: Facility LevelIntegration
Digital/Data Linkw/Internet Protocol
Satellite BasedGround/AirplaneBased Surveillance
Nationally Integrated,Automated System
Surveillance Air to Air
Surveillance Air to Ground
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Continuous Descent Approaches
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Initial 4D-Trajectory-Based Operation-Tailored Arrivals
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An Initial 4D TBO
• Boeing chose to work the following operational improvement for three primary reasons
• It provides benefit to our airline customers• It creates real-world experience on key 4D issues• It demonstrates integrated datalink
• The improvement is in the arrival domain, but …• The key principles apply to most envisaged 4D TBOs• The key issues apply to most envisaged 4D TBOs
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Tailored Arrivals
• Tailored Arrival — key features:• Continuous descent from cruise
altitude to touchdown• Tailored for traffic, environment, …• Controller-to-aircraft datalink*• Definition of flight path in both
time and space (4D)• Clearance through multiple centers• Uses available a/c capabilities
• Benefits:• 100 to 400 kg less fuel per flight• Flight duration reduced several min• Much less voice communication• Overall efficiency improved• Step toward modernization of ATM *If no datalink, tailored arrivals can use set
of arrival procedures pre-stored in FMS.
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TOD DANKS
CHAPI
ARBEY
BUNKY
BOL
RTE01
Path Shortening
RTE02
Path StretchingPath Shortening
Tailored Arrival ComponentsTailored Arrival Components
To meet a new metering fix arrival time 2254:35
2225
2252
2248
2237
Descent speed schedule
.82m / 316kAlt/Spd Constraints28000B
9000A250K
13000A270K
26000A
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Ground automation generates TA trajectory clearance
E.g., EDA, TAATS
TA clearance delivered to aircraft over data link
CPDLC
TA clearance coordinated across ATC domains /systems
TA trajectory received and loaded into FMS on pilot concurrence
TA trajectory flown with FMS
Aircraft downlinks ETA information (at waypoints) along with other useful parameters for ATC trajectory confirmation and tuning
TA procedure broken off if trajectory cannot be continued for any reason
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FANS (or other integrated data link)
What we need…
Ground automation, e.g. ATOP, ERAM, TAATS
The key hurdles
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Wake Vortex Knowledge Crucial to NextGen/SESAR
In-trail spacing reduction needed to increase
airport capacity
Wake vortex display supports safe wake
avoidance
Closely spaced runways important for capacity at
some airports
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Example of BR&TE R&D work: ATLANTIDA
Target Features:• Researh on future technologies
with UAVs• Real experiments with UAVs
• Hi fidelity traffic simulation
• Some ATLANTIDA aspects:• Trajectory management:
aircraft intent description lenguage (AIDL)
• Advanced trajectory prediction methods
• Advanced deconfliction algorithms
• Advanced guidance methods
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Final Thoughts – Looking back from 2025
• Net centric architecture was core enabler• Precision navigation—fundamental requirement• Aircraft—nodes on the network• Capacity, safety, efficiency, security—concurrently
improved
• Three technical challenges needed solutions • Short-term weather forecast accuracy• Wake-vortex detection & prediction• Automation for Management by Trajectory
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