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标题:
OSYRIS Arrival Manager Departure Manager
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作者:
航空
时间:
2010-8-21 23:52:40
标题:
OSYRIS Arrival Manager Departure Manager
作者:
航空
时间:
2010-8-21 23:52:49
June 2005, page 1
Version 1.5
commercial-in-confidence
© Barco Orthogon AG
OSYRIS
Arrival Manager
Departure Manager
June 2005, page 2
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© Barco Orthogon AG
Overview
Concepts and functions AMAN
Introduction to DMAN and CDM
Our references
Technical information
June 2005, page 3
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Benefits of an Arrival Manager
Ensure efficient and smooth
traffic flow
Increase runway capacity
Early and centralized planning
Avoid Contradicting Advice
Support ATC controller tasks
monitoring and notification
advice generation
IAF
SEQ
IAF
SEQ
IAF
SEQ
En Route
COP
SEQ
COP
SEQ
COP
SEQ
RWY
SEQ
TMA
June 2005, page 4
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Operational Cycle
Flight Plans and Tracks
Trajectory Prediction
Sequencing
Advice Generation
Controller Clearances
Traffic Changes
Monitoring
Dynamic Adaptation
June 2005, page 5
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OSYRIS Built-in Trajectory Prediction
Input:
Flight plan data
Track data
LoA (Speed and FL)
Wind profiles
A/C performance model
interface to Eurocontrol BADA
model
Output:
Flight path
Altitude profile
Speed profile
Estimates for reference points
June 2005, page 6
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ATM System Trajectories
Coordination with system trajectory predictor
Arrival schedule is consistent with FDP calculations
OSYRIS built-in trajectory prediction is used only for advice
generation
Required for coordination with other decision support tools
like MTCD
Required for coordination with User Preferred Trajectories
(UPT) from FMS systems
June 2005, page 7
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Sequencing (Runway Allocation)
Automatic allocation based on
Strategy
Feeder fix or initial approach fix
Airline
Wake turbulence category
Engine type
Departure airport
Configurable runway balancing mode
Manual runway assignment for individual flights
June 2005, page 8
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Sequencing
(Runway Separations Constraints)
09 <x1> <y1> SC
16L UC SC <y2>
<x2> UC SC 16R SUCCESSOR
16R 16L 09
PREDECESSOR
16R
09
16L
SC: Strong correlation (wtc
separation, radar separation,
acceptance rate)
UC: Uncorrelated
<>: Staggered separations
June 2005, page 9
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Sequencing (Optimization)
Configurable optimization criteria
Minimum total delay
Minimum total delay
(avoiding bias for individual flights)
Minimum deviation from preferred profile
Configurable priority handling
Suggestions for traffic distribution
Feeder fix or initial approach fix
Runway
June 2005, page 10
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Sequencing (Additional Features)
Integration with Departure Management
1. RWY sharing via acceptance rate
2. Reserved departure slots in arrival flow
3. Calculation of optimum Zurich Release) departure times (OSYRIS
Slot Handling
Runway closure slot
Additional separation slot
Consideration of Specific Flights
Short route (CDT for regional airports)
Late appearing (VFR-IFR transition)
Extensive holding
Go-around / missed approach handling
June 2005, page 11
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Advice Generation
(Scheduling Information)
Calculation of scheduling times for reference points
Runway threshold
Final approach fix
Feeder fix or initial approach fix
Coordination points (delay sharing)
Time to gain time to lose for reference points
Departure times for regional flights
Adaptation of (departure) slot start times
June 2005, page 12
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Advice Generation (Delay Sharing)
ACC1
ACC3
ACC4
APP
COP1 =
Entry Fix
COP2
COP3
COP4 =
IAF/Feeder Fix
ACC2
Delay Sharing
distribution of delay along
upstream En-Route sectors
Assignment of delay
configurable absorption
capacity for each sector
Possible Strategies
As late as possible
Balanced distribution
June 2005, page 13
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Advice Generation (Probe Sequences)
What-If functionality: Calculation of probe sequences
based on controller inputs, alternative routes or
probe trajectories.
Concepts will be evaluated during Gate-To-Gate trials
Probe sequences for direct routings
Delay absorption through alternative routes
Could be used to coordinate User Preferred Trajectories
June 2005, page 14
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Calculation of an advice trajectory with scheduling
times for reference points as constraints
Speed during descent
Top of descent advice
Calculation of flight duration for regional flights
Holding indication
Routing information
Advice Trajectory
June 2005, page 15
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Controller Input
Change sequence
Insert flight or time slot
Request re-sequencing
Remove flight
Update flight parameters
Change priority
Change acceptance rate
Change strategy
ACC-APP coordination
Controller-Pilot coordination
June 2005, page 16
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Monitoring and Adaptation
OSYRIS Monitoring Functions
Automatic updates of the estimates based on actual
position data
Conformance monitoring (deviation alert)
Passed waypoint notification
Area enter leave notification
Automatic Sequence Adaptations
Automatic adaptation of scheduling times
Configurable trigger for re-sequencing
June 2005, page 17
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Departure Manager: Functionality
DMAN calculates earliest possible take-off times
The DMAN process is event driven based on ATC
instructions:
En-Route Clearance, Engine Start-Up, Push-Back, Taxi,
Line-Up, Take-Off.
The departure planning process considers:
wake vortex separations,
SID dependent separations
intersection take-off
The DMAN incorporates arrival times (for runways in
mixed mode operations).
ATC controller is able to intervene
June 2005, page 18
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Departure Manager:
Optimization Objectives
Maximum throughput
maximum runway usage
Minimum taxi-out delays
reduction of unnecessary delays at holding points and
during taxing
reduction of fuel consumption between engine
startup and take-off
Maximum slot compliance
maximum compliance to target departure times
provided by airlines or flow control
The DMAN allows the combination and weighting of
optimization criteria
June 2005, page 19
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Collaborative Decision Making
June 2005, page 20
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Barco – Inform CDM Initiative
Inform Product: Turnaround Manager
Provides ground handling systems for airlines:
KLM, SAS, AirFrance, British Airways, …
CDM Initiative (presented ATC Maastricht 2006):
Interfaces between Arrival Manager, Departure Manager and
Turnaround Manger
June 2005, page 21
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OSYRIS Reference Systems
CALM - Arrival Manager for Zurich
Stand-alone AMAN integrated into existing system
environment
Departure handling for mixed mode operation
Integrated into training environment 2000
Operational since March 2001
20 positions in ACC, 14 positions in APP and TWR
Peak arrival rate during single runway operation:
42 flights per hour (June and July 2002)
Operational system distributed on several workstations
Picture courtesy of skyguide
June 2005, page 22
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OSYRIS Reference Systems:
Zurich Departure Management
OSYRIS (Zurich Release) includes a Departure
Management Module for departures which share the
runway with arrivals.
The Departure Management module
utilizes gaps within arrival stream
takes line up times into account
considers departure constraints (e.g. flow management)
supports creation of departure blocks
adjusts CDT if arrival times changed
does CDT recalculation if departure sequence was changed
June 2005, page 23
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OSYRIS TP Reference Systems
OSYRIS-TP for NAV CANADA
Trajectory prediction for AMAN development
SASS for Toronto, Montreal, Edmonton
Acceptance 2001
Upgrade for RNAV procedure handling 2003
130 trajectories per second (input from recorded
operational data) on HP-C360 under HP-UX 10.20
Picture courtesy of Nav Canada
June 2005, page 24
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OSYRIS Reference Systems
AMAN for European Validation Platform (EVP)
Air-Ground Integration & Sequencing Tools
Integration into Eurocontrol Simulation Environment
Validation by Real Time Simulations and Shadow Mode
Simulations (RTS/SMT)
Successful SAT in Dec. 2002
Real Time Simulations at Eurocontrol June 2003
Shadow Mode Trials in Stockholm in Nov. 2003
Real Time Simulations in Rome Oct. 2004
AMAN and Airborne Separation Assurance System trials at
Eurocontrol Dec. 2004
June 2005, page 25
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OSYRIS Reference Systems
AMAN for Eurocontrol Gate-To-Gate Program
Interface compliant to Gate-To-Gate standard
Integrated into Gate-To-Gate environment
Technical acceptance tests
Oct. 2004 (at EEC)
Feb. 2005 (at AMS)
Trials and Validations
AMAN trials with ENAV Q4 2005
AMAN/DMAN trails with LfV Q4 2005
AMAN/ASAS trials with Eurocontrol Q1/Q2 2006
June 2005, page 26
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OSYRIS Reference Systems
Integration into Lockheed Martin ATM product SkyLine®
Integration in 2002
Part of the Lockheed Martin CDM initiative for air traffic
management facilities
Integration into Flow Management
System
Barco contribution to SkyLine® is
OSYRIS Arrival Manager, ODS Toolbox
and OSYRIS Trajectory Prediction
June 2005, page 27
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© Barco Orthogon AG
AMAN for Singapore Changi airport
AMAN purpose:
Optimize traffic flow into TMA
Information sharing at all en-route, approach and tower
controller positions within Singapore FIR
Runway allocation
Project Schedule
Contract Award December 2005
Q3-2006 FAT, Q4-2006 SAT,
Q1-2007 Operation
Singaporean company NCS is local partner for
integration and maintenance tasks.
June 2005, page 28
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AMAN for Singapore Changi airport
Integration into CAAS ATC system environment
Thales Eurocat System providing:
Flight plans
Track data
Weather information
OSYRIS trajectory prediction
HMIs at auxiliary displays
Hot-Standby redundancy concept
Functional Features
Managing inbound traffic for “asymmetric airspace”
(flexible priority handling)
En-route holding is preferred compared to TMA holding
Dynamic route handling (ADX, short cuts, off-track flights)
June 2005, page 29
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OSYRIS Components
Sequence Engine (AMAN and DMAN)
Sequencing
Metering
Trajectory Predictor
Calculation of preferred arrival times
Advice Generation
Monitoring
Message Manager, comlib++
Communication layer for interfacing
Message distribution
C++ Development Environment
Application Development Environment (OSYRIS ADE)
Available for Unix and Windows
June 2005, page 30
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OSYRIS Communication
User application code
OSYRIS library linked to a customers application code
Separate Processes OSYRIS functionalities can be provided in separate processes (SE,
TP) that communicate via an arbitrary communication mechanism
(or comlib++)
CORBA solutions gateway process which communicates via comlib++ messages
(asynchronous services)
process linked with OSYRIS library (synchronous services, Gate to
Gate architecture)
XML Interface
Web-Interface receives sequence messages
creates and updates MySQL database accordingly
PHP to create and update HTML web pages.
June 2005, page 31
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Conclusion
Eurocontrol fully compliant
Integrated & comprehensive solution
Cost effective
Open System Architecture
June 2005, page 32
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© Barco Orthogon AG
Thank you very much for your attention.
Gotthard E. Börger
Product Manager
作者:
cqatcjia
时间:
2011-5-13 20:23:27
xxxxxxxxxxxx
作者:
gzhehua
时间:
2014-9-22 14:50:47
很好的资料
作者:
plorx
时间:
2015-12-7 07:21:19
谢谢伟大的信息
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