GEN 3.5  METEOROLOGICAL SERVICES

1.   Responsible service

The meteorological services for civil aviation are provided by:

1.1   Hungarian Meteorological Service

Unit of Aviation Meteorology

Post:

H-1525 Budapest PO Box 38.

AFS:LHBPYMYC

Tel:(+361) 346-4600

Tel:(+361) 346-4655

Fax:(+361) 346-4669

Email:rvo@met.hu

The services are provided in accordance with the provisions contained in the following ICAO document:

  • ICAO ANNEX 3 - Meteorological Service for International Air Navigation
  • ICAO Doc 7754
  • ICAO Doc 8400
  • ICAO Doc 8896.

2.   Area of responsibility

The meteorological service is provided for the Budapest FIR.

3.   Meteorological observations and reports

3.1   General Information concerning the execution of Flight Weather Observation in Hungary

Flight Weather Observation will be executed depending on personal availabilities as follows:

HUMAN OBS: Local manually:

  • Without particular identification label for METAR, SPECI
  • Quality Control On-Site
  • Meteorological data acquisition is done with a semi-automatic operational system which allows manual inputs for all weather parameters
  • Manual TREND
  • Manual Supplementary Information as required by the weather situation

AUTO OBS: Automatic WITH TREND:

  • With “AUTO” as particular label for METAR, MET REPORT, SPECIAL
  • Plausibility Check
  • Meteorological data acquisition is done with a full automatic operational system which allows limited manual inputs for:
    • Manual TREND
    • Manual Supplementary Information as required by the weather situation

AUTO OBS: Automatic WITHOUT TREND:

  • With “AUTO” as particular label for METAR, MET REPORT, SPECIAL
  • Meteorological data acquisition is done with a full automatic operational system which does not allow manual inputs and therefore WITHOUT:
    • Quality Control
    • Plausibility Check
    • TREND
    • Supplementary Information
3.2   General Information concerning AUTOMATIC FLIGHT WEATHER OBSERVATION - AUTO OBS

Fundamental differences AUTO OBS opposite HUMAN OBS:

  • AUTO OBS performs, by using sensors, selective measurements in the area of the airport, which are normally considered to be representative for the area of the airport. AUTO OBS determines the conditions at the airport by measurement and calculation based on algorithms. AUTO OBS can detect weather phenomena which are to be reported in accordance with ICAO Annex 3 if they are within the detection range of the sensors.
  • HUMAN OBS processed a total picture of optical, acoustic and sensory impressions, the representative of the airport area and its surroundings. HUMAN OBS describes the elements visibility, cloud and weather phenomena and the environmental conditions where this is possible.

No differences AUTO OBS opposite HUMAN OBS consist of:

  • Wind
  • Temperature / Dew Point
  • Air pressure (QNH)
  • Runway Visual Range (RVR)

Differences and limitations of AUTO OBS opposite HUMAN OBS can be found at:

  • VISIBILITY AND ADDITIONAL VIEW:

    AUTO OBS determines the MET VIS by point measurement with forward-scattered light measurement equipment at the TDZ and extrapolating the measured values of up to 20 KM. The required summary values are calculated and reported in accordance with ICAO requirements.

    HUMAN OBS determines the visual reference to visual targets in the area.

    For RVR, there is no difference, as this is determined both HUMAN OBS and AUTO OBS by measuring the forward scattered light measurement systems and calculation.


  • CURRENT WEATHER PHENOMENA (PRESENT WEATHER):

    - DRSN, BLSN and more, in Hungary very rare phenomena such as SQ, SA, SS, DU, FU, FC cannot be reported by AUTO OBS.
    - VC weather phenomena in the environment (Vicinity)
    - VCTS may be reported by AUTO OBS
    - VCSH and VCFG are not recognized

    Clouding phenomena (FG, BR, HZ) is detected in AUTO OBS by the sensor. Algorithms ensure consistency with the sight. Deviations between AUTO and HUMAN OBS can occur (e.g. BCFG, PRFG) if, for example, fog occur beside the sensors.

    FZFG is in the AUTO OBS according ICAO detected by checking with the air temperature, i.e., from T < -0.5 °C FZ is reported.

    Rare manifestations (SQ, SA, SS, DU, FU, FC) are not recorded and reported according to visibility as FG, BR or HZ.

    With regard to precipitation some rare phenomena are not specified by the sensors. If detected, these other genera are assigned.

    Comparisons have shown that is to be expected with the following differences between HUMAN OBS and AUTO OBS:

    • The precipitation is detected occasionally different, for example, DZ instead RA, SN instead of SG.
    • Mixed precipitation (RASN) are often used as RA or SN reported by the sensor.
    • Deviations there are often mild/moderate and moderate/severe in the evaluation of the intensity.
    • also in the assignment of characterization SH there are differences.

    AUTO OBS recognized thunderstorm TS and VCTS. The data from Weather radar and lightning detection systems are used. The recording quality is good, but it may occasionally be incorrect detections by situate wrong and unregistered lightning discharges come.

    The perception of visual and acoustic observations (thunder and lightning) is given at HUMAN OBS with greater reliability in detecting the near thunderstorms and the redundancy of the system components fail.

    The lack of coverage of SQ in AUTO OBS is mitigated by the availability of current wind data.


  • CLOUDS (CLOUD TYPE AND CLOUD COVER):

    - TCU, CB can be determined from AUTO OBS
    - coverage is calculated by algorithm

    Ceilometers are positioned in the areas where the approach path intersects the relevant IFR approaches decision height. The measurement of the lower limit is determined by point measurement (principle laser gun).

    Cloudiness is therefore only recorded in the AUTO OBS, when clouds appear above the sensors.

    Cloud cover (FEW, SCT, …): Calculation using algorithms based on all existing airport environmental sensors. From the period duration of the ceilometer detecting the presence of cloud amount is extrapolated:

    • This works well for homogeneous cloud distribution and rapidly moving clouds.
    • Clouds off the sensors cannot be detected.

    TCU and CB clouds are detected by weather radar and lightning detection system. The degree of coverage and the amount of cloud base, however, cannot be determined automatically. Therefore, it is reported in AUTO OBS ///.

    SKC is not reported: AUTO OBS reports “NCD = no cloud detected” when no clouds are detected by the sensors.

    CAVOK is reported in AUTO OBS.

    Comparisons have shown that groups of clouds are reported FEW001 or FEW002 by false detections of the sensors in the AUTO OBS in rare cases, although no clouds are present. This may affect the classification of VMC, IMC and LVP, if it is not caught by Tower Observations or manual corrections.

    • After-weather phenomena (Recent Weather) account for AUTO OBS

  • MONITORING and FAILURE:

    Monitoring of the AUTO OBS messages is effected REMOTE by the MET and centrally by the technical service of the Hungarian Meteorological Service.

    Technical failures of AUTO OBS system:

    • individual sensors (e.g. As sensors for wind, temperature, pressure, visibility, RVR, clouds or weather phenomena).
    • data networks and computer systems and thus the entire production and dissemination of AUTO OBS notifications concern.

    Sensor failures:

    • Hungarian Meteorological Service is therefore produced in each case, the functionality of all sensors as soon as possible.

    Network and computer failures lead to the fact that no AUTO OBS weather reports are created and/or distributed. Following actions are planned for these cases:

    • MET staff ready on call. It should be noted that this is not guaranteed by emergency services. Therefore, it may take one or more hours until the creation of MET messages may be initiated via supervisor HUMAN OBS emergency procedures.
3.3   Meteorological observations at airports
Name of station / Location IndicatorType and frequency of observations/ automatic observing equipmentTypes of MET reports and availability of a TREND forecastObservation System and Site(s)Hours of operationClimatological information
123456
Budapest Liszt Ferenc International Airport LHBPHalf hourly plus special observationsMETAR, SPECI, TREND, WSSFC wind sensors: see AD Chart RVR EQPT: see AD Chart Ceilometer: see AD Chart Thermometer: see AD Chart Pressure tube: at 13L ILS H24Climatological tables available
Debrecen International Airport LHDCHalf hourly plus special observationsSPECI AUTO, METAR AUTO, TRENDSFC wind sensors, RWY thermometer: at 22L TDZ
SFC wind sensors, thermometer, pressure tube, visibility instrument: at 04R GP Ceilometer: at NDB 295
0300-2400 UTCClimatological tables available
Pecs-Pogany Airport LHPPHalf hourly plus special observationsSPECI, METARSFC wind sensors, thermometer, pressure tube: at APRON 20500-1700 UTCClimatological tables available
Heviz-Balaton/ Sarmellek Airport LHSMHalf hourly plus special observationsSPECI AUTO, METAR AUTO, TRENDSFC wind sensors, thermometer, pressure tube, visibility instrument: at 16 GP
SFC wind sensors, RWY thermometer: at 34 TDZ
Ceilometer: at centreline 16 1200M from THR
0700-1600 UTCClimatological tables available
Gyor-Per Airport LHPRHalf hourly plus special observations0600-1800 UTC: SPECI, METAR
1800-0300 UTC: SPECI AUTO, METAR AUTO
SFC wind sensors, thermometer, pressure tube, visibility instrument: at 30 GP
SFC wind sensors, RWY thermometer: at 12 TDZ
Ceilometer: at centreline 30 450M from THR
0600-0300 UTCClimatological tables available

Automated aviation meteorological reports:

Automated aviation meteorological reports in METAR code form for the Debrecen International Airport (LHDC) H24, Heviz-Balaton Airport (LHSM) H24, and Gyor-Per Airport (LHPR) between 1800 and 0300 UTC will be generated and disseminated and marked with “AUTO” according the following terms:

The content of these reports will include, during operating hours and in normal cases:

  • All meteorological parameters which are part of human aviation meteorological reports corresponding to ICAO Annex 3,
    i.e. including TCU, CB, TS, VCTS. Please note that the automated reporting of TCU and CB will not contain TCU/CB amount and TCU/CB height of base.
  • TREND (Debrecen and Heviz-Balaton in operational time)
  • Supplementary information


The content of these reports will include, during non-operational hours and in exceptional cases:

  • All meteorological parameters which are part of human aviation meteorological reports corresponding to ICAO Annex 3, i.e. including TCU, CB, TS, VCTS. Please note that the automated reports of TCU/CB will not contain TCU/CB amount and TCU/CB height of base.
  • No TREND
  • No Supplementary Information


Due to technical reasons in automated aviation meteorological reports the following abbreviations cannot be used:

  • SKC (sky clear)
  • NSC (no significant cloud)


Instead of them the following abbreviation will be used:

  • NCD (no cloud detected)


The generation of automated aviation meteorological reports is based on measurements at specific locations and algorithms only and not on human observations. A plausibility check of the measured observational data before they are disseminated is done from a remote observing site with the help of video cameras.

3.4   Meteorological Observing Stations at Military Aerodromes
  • LHKE Kecskemet
  • LHPA Papa
  • LHSN Szolnok

Manual Observation Sites are under continuous quality check control by Military Aerodromes.

3.5   Weather radar stations
Synop No.Name of stationCoordinatesELEV (FT)Coverage (radius)
12843Budapest-LorincN47.4294 E19.1817528240 KM
12892NapkorN47.9622 E21.8866501240 KM
-PoganyvarN46.6603 E17.06241020240 KM
-SzentesN46.6396 E20.4325406240 KM

4.   Types of services

4.1   Budapest Liszt Ferenc International Airport

Briefing and flight documentation is provided by Hungarian Meteorological Service. On request, a personal briefing can be provided to the pilot-in-command by a meteorological officer.

For every flight the following charts are available:

RegionSWLSWMSWHFL 050FL 100FL 140FL 180FL 240FL 300FL 340FL 390FL 450
EURabbxxcxxxxxc
MIDcccccccccc
NATcccccccccc
AFIcccccccccc

SWL = Low Level Significant Weather Chart (Surface - FL 100)

SWM = Medium Level Significant Weather Chart (FL 100 - FL 250)

SWH = High Level Significant Weather Chart (FL 250 - FL 450)

  1. available via website: and available at Aerodrome Meteorological Office
    SWL available for Central-European Region for fixed time of 0600, 1200 and 1800 UTC
  2. mixed version of SWM and SWH (FL 100 - FL 450)
  3. by prior request

Additionally, forecasts of upper wind and temperature for routes requested are also available in table form. Aerodrome reports and forecasts, including TREND-type landing forecasts, are provided on a routine basis RWY Visual Range observations are provided.

Codes used in aerodrome meteorological reports and forecasts are in accordance with WMO FM 15-X Ext. METAR, FM 16-X Ext. SPECI and FM 51-X Ext. TAF.

4.2   Hungarian Meteorological Service

Briefing and flight documentation is also provided by Hungarian Meteorological Service A by phone or e-mail by an aviation forecaster.

For every flight the following charts are available:

RegionSWLSWMSWHFL 050FL 100FL 140FL 180FL 240FL 270FL 300FL 340FL 390FL 450FL 530
EURabbxxxxxxxxxxx
MIDcccccccccccc
NATcccccccccccc
AFIcccccccccccc

SWL = Low Level Significant Weather Chart (Surface - FL 100)

SWM = Medium Level Significant Weather Chart (FL 100 - FL 250)

SWH = High Level Significant Weather Chart (FL 250 - FL 450)

  1. available via website: and available at Aerodrome Meteorological Offices
    SWL available for Central-European Region for fixed time of 0600, 1200 and 1800 UTC
  2. mixed version of SWM and SWH (FL 100 - FL 450)
  3. by prior request
4.3   Information for VFR flights
4.3.1   Written briefing

The service is provided H24.

Information is accessible via the following websites:

FPL sending, PIB with basic MET:

For detailed meteorological briefing:

To use the website pilots have to register for the services, registration will also help to prove that every necessary weather information was acquired before their flight. After the preliminary registration the general aviation bulletins such as METARs, SPECIs, TAFs, GAMETs, AIRMETs and SIGMETs, as well as Weather information with forecast for hazardous weather elements in chart form will be made available, however the full service is not free of charge.

The informations listed below

  1. Free of charge
    1. Bulletins
      • METARs issued every 30/60 minutes
      • TAFs for domestic aerodromes issued every three/six hours
      • GAMETs issued two times a day, 0500 UTC for 0600-1200 UTC and 1100 UTC for 1200-1800 UTC
        - strong surface wind speed (>30KT)
        - low surface visibility (≤5KM) + weather
        - significant weather phenomena
        - significant clouds
        - icing
        - turbulence
        - applicable SIGMET
      • SPECIs issued if necessary
      • AIRMETs issued if necessary
      • SIGMETs issued if necessary
    2. Observation
      • ground-based observation
      • radar
      • lightning
      • satellite
    3. Weather information: general forecast and warning forecast in chart form for Hungary issued in every three hours as follows:
      Time of issue (UTC)Validity period (UTC)
      Summer timeWinter time
      03000300-1200-
      06000600-15000600-1500
      09000900-18000900-1800
      12001200-21001200-1800
      15001500-21001500-1800
      18001800-2100-
    4. Low level significant weather chart (LLSIGWX) issued three times a day as follows:
      Time of issue (UTC)Validity time (UTC)
      02000600
      08001200
      14001800
  2. Services for fee

    Forecast charts for Hungary two times a day

    • wind forecasts
    • wind and temperature chart
    • 0 °C heights
    • thermal lift for gliders and para-gliders
    • forecast for hot-air ballooning
    • forecast for mountain wave gliding
4.3.2   Verbal briefing

Verbal consultation is provided in Hungarian and English language H24.

Tel: (+36) 90-603-421

5.   Notification required from operators

Notification from operators in respect of briefing, consultation, flight documentation and other meteorological information needed by them (ref. ICAO Annex 3, 2.3) is normally required for non-scheduled intercontinental flights. Such notification should be received at least six hours before the expected time of departure.

6.   Aircraft reports

Special observations shall be made and reported by all aircraft whenever the following conditions are encountered or observed:

  1. moderate or severe turbulence; or
  2. moderate or severe icing; or
  3. severe mountain wave; or
  4. thunderstorms, with or without hail, that are obscured, embedded, widespread or in squall lines; or
  5. heavy dust storm or heavy sandstorm; or
  6. volcanic ash cloud; or
  7. pre-eruption volcanic activity or a volcanic eruption; or
  8. RWYCC given differs from the actual value based on the opinion of the crew.

Other conditions which shall be reported by all aircraft when encountered or observed:

  1. other meteorological conditions which, in the opinion of the pilot-in-command, may affect the safety or markedly affect the efficiency of other ACFT operations, for example, the en route weather phenomena specified for SIGMET messages are encountered.;
  2. wind shear encountered during the climb-out or approach phases of flights, not previously reported to the pilot-in-command, which in his/her opinion are likely to affect the safety of other aircraft operations.

7.   VOLMET service

Name of transmitting stationCall sign / IDENT / Abbreviation (EM)Frequency used for broadcastBroadcasting periodHours of serviceAerodromes / areas includedContents and formats of REP and remarks
BUDAPESTBUDAPEST VOLMET (A3E)127.405 CHH + 05,
H + 35
H24Budapest
Praha
Bratislava
Bucuresti/OBeograd
Wien
Budapest FIR
METAR + TREND
METAR + TREND
METAR + TREND
METAR + TREND
METAR + TREND
METAR + TREND
SIGMET

8.   SIGMET and AIRMET service

Name of MWO ICAO Location IndicatorHoursFIR or CTA servedSIGMET validity periodsSpecific procedures to SIGMETProcedures applied to AIRMETATS unit servedAdditional information
BUDAPEST (OMSZ/RMO) (Hungarian Meteorological Service/Unit of Aviation Meteorology) LHBMH24Budapest FIR1-4 HRSSIGMET VA validity six HRValidity 1-4 HRS. Issued only BTN 0600-1800 UTC as AMENDMENT for GAMETBudapest ACCIf no AIRMET is issued, the significant weather INFO is stated in the GAMET forecast.
8.1   General

For the safety of air traffic, the Hungarian Meteorological Service - Unit of Aviation Meteorology as Meteorological Watch Office (MWO) maintains an area meteorological watch and warning service. The service consists of the continuous weather watch within the Budapest FIR and if necessary, the issuance of appropriate SIGMET and AIRMET information.

8.2   Area meteorological watch service

The area meteorological watch service is performed by the Hungarian Meteorological Service - Unit of Aviation Meteorology. The MWO issues SIGMET and AIRMET information in accordance with ICAO Annex 3. Chapter 7 and Appendix 6.

8.2.1   SIGMET and AIRMET

SIGMET information for the Budapest FIR will be broadcast by Budapest VOLMET.

AIRMET messages relevant to the Budapest TMA will be included in the ATIS broadcast for Budapest Liszt Ferenc International Airport.

Transmission of SIGMET and AIRMET information will only be made by the ATC units of Budapest ATS centre in the case of equipment failure or when requested by the pilot.

The flight information sectors of the Budapest ATS centre will communicate SIGMET and AIRMET for Budapest FIR without pilot request to aircraft operating on flight plan and maintaining radio communication.

8.2.2   SPECI and TAF AMD

SPECI and TAF AMD for foreign aerodromes are provided by the ATS units on pilot request only.

The flight information sectors of the Budapest ATS centre will communicate SPECI and TAF AMD for individual domestic aerodromes to aircraft without the need for the pilot to request such information.

9.   Other automated meteorological services

Service nameInformation availableArea, route and aerodromes coveredTelephone, telefax, email, website address
1234
Internet websiteOPMET (METAR, TAF), satellite imagery, weather-radar info, lightning data, analysis FCST charts of MSL pressure, meteorological measurements and observation for HU, SIGWX charts, aviation weather warning, special weather forecast for GAHungary, Central Europehttps://aviataion.met.hu registration needed