A possible transition to an ADSB based surveillance system - PowerPoint PPT Presentation

1 / 11
About This Presentation
Title:

A possible transition to an ADSB based surveillance system

Description:

A possible transition to an ADS-B based surveillance system. SCRSP WG/B meeting in Langen, October 2002 ... A communication protocol between ADS-B and Mode S sensors : ... – PowerPoint PPT presentation

Number of Views:68
Avg rating:3.0/5.0
Slides: 12
Provided by: ponnau
Category:

less

Transcript and Presenter's Notes

Title: A possible transition to an ADSB based surveillance system


1
A possible transition to an ADS-B based
surveillance system
  • SCRSP WG/B meeting in Langen, October 2002
  • WP 4-23, prepared and presented by Mikaël Ponnau,
    STNA

2
Presentation items
  • Proposals for a  sweet  transition
  • Technical means for a  sweet  transition
  • Extended squitter processing by a Mode S sensor
  • A communication protocol between ADS-B et Mode S
    sensors
  • A phased deployment of ADS-B sensors

3
Proposals for a sweet transition (1/2)
  • Current situation an independent SSR based
    surveillance consisting of monopulse and Mode S
    sensors
  • Envisaged situation an ADS-B based surveillance
    system depending of the navigation system
  • ICAO recommendations for any new surveillance
    system (Doc 9684 chapter 10 extracts)
  • At least the same level of performance as the
    former system
  • A fall back system to get positional data

4
Proposals for a sweet transition (2/2)
  • To meet the recommendations, it is proposed
  • To enhance the existing SSR coverage with ADS-B
    sensors (gap filling application)
  • Completing the coverage where there are detection
    holes cone of silence, terrain screening, masks
  • The first deployed ADS-B sensors will complete
    the existing SSR coverage
  • To deploy progressively the next ADS-B sensors
    until the SSR coverage is completely redounded
    with an ADS-B coverage
  • The ADS-B based surveillance system can then be
    the primary mean for surveillance
  • To keep maintaining some of the SSR sensors which
    will constitute the fall-back system in case the
    positional data of ADS-B sensors is felt
    erroneous or is missing
  • Both systems become complementary

5
Technical means for a sweet transition (1/4)
  • Extended squitters processing by a Mode S sensor
  • Type of extended squitters
  • Position squitters (05 or 06) contains the same
    information as a Mode S All Call reply used to
    acquire Mode S aircraft
  • Other extended squitters contain airborne
    parameter
  • Expected benefits to process extended squitters
    in a Mode S sensor
  • Surveillance of aircraft on the ground (aircraft
    will directly be interrogated selectively)
  • No need for All Call period in a 100 ADS-B
    environment more time for Roll Call period to
    interrogate more aircraft or to perform more data
    link
  • Local tracking enhancement (to maintain or
    enhance existing tracks) thanks to extended
    squitter data
  • Surveillance coverage enhancement when the sensor
    receives extended squitters from a remote ADS-B
    sensor strategically located

6
Technical means for a sweet transition (2/4)
  • Extended squitters processing by a Mode S sensor
    (continue)
  • Technical means to acquire extended squitters
  • Using the reception channel of the Mode S sensor
    (though the ? diagram of the rotating antenna or
    though an omni antenna installed on the same
    tower) ? a feasibility study is undergoing
  • Using an external interface the Mode S sensor
    receives surveillance data delivered by a remote
    ADS-B sensor ? similar interfaces exist for
    clustering operation

7
Technical means for a sweet transition (3/4)
  • A communication protocol between ADS-B and Mode S
    sensors
  • ADS-B sensors or the multi sensor tracker can
    request support to the Mode S sensor for some
    aircraft
  • Support is requested when positional data is
    doubtful or is missing
  • The Mode S sensor maintains a list of aircraft
    thanks to the surveillance data it receives from
    ADS-B sensors (the sensor is client of the
    surveillance server)
  • When support is requested it selectively
    interrogates the aircraft and sends back the
    measured position to the ADS-B sensor or the
    multi sensor tracker (whichever made the request)
  • Such interfaces and protocols already exist for
    the operation of a Mode S cluster

8
Technical means for a sweet transition (4/4)
Mode S sensor
ADS-B station
List of aircraft
? Diagram
9
Phased deployment of ADS-B sensors (1/3)
  • Phase 1
  • The primary surveillance mean is the SSR
    surveillance system
  • ADS-B sensors complete the Mode S coverage
  • The Mode S sensor process the squitters thanks to
  • the added ADS-B sensors
  • its own ? diagram
  • The surveillance system is enhanced

10
Phased deployment of ADS-B sensors (2/3)
  • Phase 2
  • Progressive deployment of ADS-B sensors
  • The primary surveillance mean remains the SSR
    surveillance system
  • New sources of surveillance information for the
    ATC system

11
Phased deployment of ADS-B sensors (3/3)
  • Phase 3
  • The primary surveillance mean is the ADS-B
    surveillance system
  • Some Mode S sensors are maintained for the
    fall-back mode
  • Note taking a 250 NM range for a Mode S sensor
    and a 60 NM range for an ADS-B sensor, this
    (very) simple drawing shows that 15 ADS-B sensors
    are required to almost complete the same
    surveillance coverage ! 5 more would be required
    if the ? diagram was not used.
Write a Comment
User Comments (0)
About PowerShow.com