Date post: | 01-Jan-2016 |
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What’s New with AIXM 5
Explaining AIXM 5
• Mission and Objectives
• Coverage of the AIXM 5 data model– Scope of aeronautical information– Emerging “partner” standards
• Building blocks of AIXM 5– International standards– Engineering practices
Mission and Objectives
• Standards-based data model and exchange format that can satisfy the aeronautical information exchange requirements for current and future aeronautical information applications
• Based on global aeronautical data requirements– ICAO standards and practices– Industry requirements
• Support current and future AIM information system requirements– Digital Aeronautical Information Publications (AIPs)– Automated charting and publications– Integrated digital NOTAMs– Aerodrome Mapping Databases and applications– Situational displays
Aeronautical Information is geospatial
• Locations• Airspace boundaries• Airport layouts• Routes• Cartography• Bearings
Aeronautical Information changes in Time
• Commissioning– A new runway
• Decommissioning– Closing a runway
• Temporary changes– Declared distance changes
during day and night– Partial runway closures– Field conditions caused by
weather
XXXXXXXX
Aeronautical Information is complex
• What is a VOR?– Are you a cartographer, pilot, flight inspector,
frequency engineer, airspace officer, obstacle evaluator, facilities service technician?
Located at an Airport
Used on a Departure Procedure
Used on an enroute Route
Provides angle indication for a fix
Has coverage areas
Has owner/operator
Aeronautical information is criticality
Data quality?
eAIP, iPIBApplications
We need aeronautical information integrity“Right Information, Right Place, Right Time”
Data management
NOTAM
AIP, charts, etc.
State 2
Data management
State 1
NOTAM
AIP, charts, etc.
Surface mail
DATA
Regional database
State 3
AIP, charts, etc.
NOTAM
ARO
NOTAM
AIP
AIP
AFTN (low bandwidth)
bulk data upload
Briefing
dataupdate
services
Data Service Provider
AIP
NOTAM
AIP
NOTAM
“data layer”
Aeronautical Information Management and AIXMAeronautical Information Management and AIXM
Explaining AIXM 5
• Mission and Objectives
• Coverage of the AIXM 5 data model– Scope of aeronautical information– Emerging “partner” standards
• Building blocks of AIXM 5– International standards– Engineering practices
Engineering AIXM
Geography and GeometryISO 19136 Geography
Markup Language
ComplexityISO 19100 series
UML, XML, Extensibility
TemporalityISO 19108 Temporal
Permanent and Temporary changes
IntegrityUniversal Unique
Identification (UUID)ISO 19115 Metadata
CriticalityXML Computer –
Computer Exchange
AIXM is based on International Standards
Aeronautical Information Exchange Model (AIXM)
ISO 19107 Spatial
ISO 19108 Temporal
ISO 19115 Metadata ISO 19136 Geography Markup Language (GML)Universal Markup
Language (UML)
Extensible Markup Language (XML)
Conceptual standards Exchange standards
Value of ISO 19100 Standards• Internationally developed standards for expressing
geographical data– Features - Airports, Runways, Airspace– Metadata - Data originator, Status, Published Date– Temporality - Start and end dates– Geometry - Point, Line, Polygon
• Helps us organize information for the aeronautical domain
• Well-established– Geography Markup Language (GML)– Widely adopted and implemented by vendors and governments
Unified Modeling Language (UML)
VOR
- frequency
DME
- channel+colocated
+colocated
En Route Route
Route Segment
+defines
+hasNavigation Aid
- codeID- location- elevation- name
+startingAt
+endingAt
VOR
- frequency
DME
- channel+colocated
+colocated
En Route Route
Route Segment
+defines
+hasNavigation Aid
- codeID- location- elevation- name
+startingAt
+endingAt
• Visual language for capturing relationships, behavior and high-level ideas
• Originally intended for Software Engineering
• Today also used for– Business process modeling
– Data modeling
– Requirements modeling
– Others…
Extensible Markup Language (XML)
• XML – Extensible Markup Language– Have you looked at
whatis underneath a webpage?
– XML has a similar look to HTML
• Computer readable– Electronic exchange– Vendor supported
<h2><a href="sdat2/html/download.htm"> SDAT 5.7 Release</a></h2>
<h3 class="byline">New Features >></h3>
<p> <ul>
<li>Create traffic collections based on a sector number. (Flights flown through specified sector(s))</li>
…
<h2><a href="sdat2/html/download.htm"> SDAT 5.7 Release</a></h2>
<h3 class="byline">New Features >></h3>
<p> <ul>
<li>Create traffic collections based on a sector number. (Flights flown through specified sector(s))</li>
…
<RunwayDirection>
<Designator>20L</Designator>
<VFRPattern>RIGHT</VFRPattern>
</RunwayDirection>
…
<RunwayDirection>
<Designator>20L</Designator>
<VFRPattern>RIGHT</VFRPattern>
</RunwayDirection>
…
Web Page HTMLWeb Page HTML
XML DocumentXML Document
Key Concept: Geometry and GML
• Geometry important property of aeronautical information– Airspace polygons– Airport Reference
Points– Navaid location
Key Concept: Geometry and GML
• Geometric and cartographic calculations– Label placement– Distance between
Navigation Aids– Course and bearing– Airspace penetrations– Flight planning
Key Concept: Geometry and GML
• ISO 19136 Geography Markup Language (GML)– Vendor independent
standard– Based on XML– Good industry
adoption
Temporality Model• Definition
– A model that incorporates the concept of time• Key assertions
– All features are temporal with start of life and end of life
• Example, A new air traffic control sector– All features change over time
• Example, A VOR is out of service for a day
• AIXM Temporality Model – Relates features to the time extent in which they are
valid– Provides various means to describe the time extent
An Example: Navaid frequency change
Imagine that AML Navaid undergoes an upgrade that changes its frequency from 112 MHz to 113.2 MHz…
1. Schedule permanent change to coincide with AIRAC update cycle
2. Shutdown AML before the upgrade3. Perform the upgrade4. Start AML in test mode to evaluate
change
An Example: Navaid frequency changeImagine that AML Navaid undergoes an upgrade that changes its frequency from 112.0 MHz to 113.2 MHz…
Explaining AIXM 5
• Mission and Objectives
• Coverage of the AIXM 5 data model– Scope of aeronautical information– Emerging “partner” standards
• Building blocks of AIXM 5– International standards– Engineering practices
WXXM
Airport Operations
Others…
AIXM Core
AIXM Coverage and Related Standards
AIP Data
AMDBAirMAT
Obstacles
NOTAM Data
AIXM Core
• Based on same ISO 19100 framework• Ensures consistency• Reduces implementation complexity• Reduces integration complexity
AIXM Coverage• Aerodrome/Heliport• Airspace• Holding• Navaids and Points• Obstacles• Organizations• Procedures• Refueling Aerial• Routes• Services• Surveillance
Shared Components• Geometry• Notes• Time Management• Aircraft
Shared Components• Geometry• Notes• Time Management• Aircraft
Services example
OrganisationAuthority(from Organisation)
<<feature>>
VOR(from Navaids)
<<feature>>
InformationService
+ type : CodeServiceInformationType+ voice : CodeYesNoType+ dataLink : CodeYesNoType
<<feature>>
0..*
0..*
+navaidBroadcast 0..*
0..*
broadcastsOn
TrafficSeparationService
+ radarAssisted : CodeYesNoType+ dataLinkEnabled : CodeYesNoType+ dataLinkChannel : CodeCommunicationChannelType
<<feature>>
GroundTrafficControlService
+ type : CodeServiceGroundControlType
<<feature>>AirTrafficControlService
+ type : CodeServiceATCType
<<feature>>
AirTrafficManagementService
+ type : CodeServiceATFMType
<<feature>>SearchRescueService
+ type : CodeServiceSARType
<<feature>>
AirportGroundService
+ facilities : TextDescriptionType
<<feature>>
PassengerService
+ type : CodePassengerServiceType
<<feature>>
AircraftGroundService
+ type : CodeAircraftGroundServiceType
<<enumeration>>
FireFightingService
+ category : CodeFireFightingType+ standard : CodeAviationStandardsType
<<feature>>
AirportClearenceService
+ snowPlan : TextDescriptionType
<<feature>>
AirportSuppliesService<<feature>>
ElevatedPoint(from Geometry)
<<object>>
Unit
+ name : TextNameType+ type : CodeUnitType+ compliantICAO : CodeYesNoType+ designator : CodeOrganisationDesignatorType+ military : CodeMilitaryOperationsType
(from Organisation)
<<feature>>
0..*
1
0..*
+ownerOrganisation1
isSupervisedBy
Timetable(from Time Management)
<<object>>
CallsignDetail
+ callSign : TextNameType+ language : CodeLanguageType
<<object>>
Service
+ flightOperations : CodeFlightDestinationType+ rank : CodeFacilityRankingType+ compliantICAO : CodeYesNoType+ name : TextNameType+ operationalStatus : CodeStatusServiceType
<<feature>>
0..1+location 0..1
isProvidedFrom0..1
0..*
+serviceProvider0..1
0..*
isProvidedBy
0..1
+workingHours
0..1
isAvailab leBy
0..* +callsign0..*
isIdentifiedBy
Application Schemas
AIXM CoreAirportAirpace
ObstaclesEtc.
ExtendCustomer Properties
WorkflowPortrayal/Visualization
Using AIXM to meeting business needs:1. Digital NOTAM2. Procedure design3. Charting4. Airport mapping applications
Res
tric
tLi
mite
d fe
atur
e se
tsC
ardi
nalit
y Application SchemaAIXM Compliant XML messages designed to meet business needs.
Application Schemas• (FAA) Minimum IFR Altitude areas• Airport Mapping Databases• Digital NOTAM• (EUR) Flexible Use of Airspace• (FAA) AirMAT Airport Layouts• (FAA) Flight Procedure Packages
AIXMDB
Information B
us
AIXM WFS
Airport GISProcess Manager
NOTAMProcess Manager
Procedure DesignProcess Manager
Airport Layout Plan
NOTAM Creator
Procedure Designer
Airport Layout App Schema
Digital NOTAM App Schema
FPP App Schema
What’s new in AIXM 5
• Mission and Objectives– Support for current and emerging aeronautical information
processes– Digital NOTAM, Procedure Design, Special Use Airspace,
Flexible Use of Airspace
• Best practices design– International standards– Extensible and Modular
• Expanded coverage– Airport Mapping, Airport Layouts, Procedure Design, Obstacles– Application Schemas support Aeronautical Business Processes
More details Wednesday afternoon and Thursday morning