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Weather forecast



Introduction

[weatherforecast]Pre-estimationandforecastofweatherchangesinacertainperiodinthefuture.Weatherforecastingisanimportantmeansformeteorologicalworktoservethenationaleconomyandnationaldefenseconstruction.Weatherforecastsaredividedintoforecastranges,includingregionalweatherforecastsandlocalweatherforecasts.Accordingtotheneedsofserviceobjects,therearedailypublicweatherforecastsandprofessionalweatherforecasts.Accordingtothelengthoftime,thereareshort-term,medium-termandlong-termweatherforecasts.TheMeteorologicalObservatorypublishesweatherforecastsinatimelyandaccuratemannerthroughvariouschannels,especiallydisastrousweatherforecasts,whichplayanimportantroleinprotectingpeople'slivesandpropertyandpromotingeconomicdevelopment.Thetechnologyofweatherforecastingdevelopedrapidlywiththedevelopmentoftelegraph.Bytheearly1950s,weatherforecastshadbeenbasedonsynopticprinciples.Withthedevelopmentofcomputingtechnologyanddetectiontechnology,inadditiontotheconventionalweatherchartmethodcombinedwithmathematicalstatisticstomakeforecasts,meteorologicalradarandsatellitedetectiondataareappliedtotheforecastingbusiness,andnumericalforecastingmethodshavebeendevelopedatthesametime.Thismethodpredictsthephysicalprocessoftheatmospherebydeterminingtheprinciplesofconservationofatmosphericmass,energyandmomentum,andsignificantlyimprovesthequalityofweatherforecasts,therebypromotingtheobjectivequantificationofweatherforecasts.

Ancientforecasts

WeatherforecastsforancientChinese

Accordingtothe"destinytheory",sunrise,sunset,andtideebbandflowarerepeatednaturalcycles..Peoplecanmakemoreaccurateforecastsfortheseperiodicchanges.However,peopleoftenfailtoseetheregularsunriseandsunsetandtheebbandflowoftides.Atthistime,peopleexpecttoknowtheirregularitiesinadvance.

Sinceancienttimes,Chineseintellectualshavepaidattentiontothepredictionofastronomy,earthquakeandmeteorology.TheancientthinkerDongZhongshuputforwardtheslogan"Quthepeoplestretchouttheruler,andtherulerstretchesoutthesky".Thefirstsentenceistoobeytheemperor.ThesecondsentenceisfortheemperortolistentoGod'swill.Providencerestrictedtheemperor'sactions.Mostoftheseprovidencescomefromtheignoranceofthesky(suchassolareclipses)andtheground(suchasearthquakes),andtheunpredictabilityofextremeweatherandabnormalclimates,suchaslightning,drought,floods,fires,andlocustdisasters.Ignoranceofnaturaldisasters(theemperor)andthelower(subjects)openedthedoorforthesubjectstoexpresstheiropinions.Intheearlydays,astronomyandmeteorologywerenotseparated.Bothastronomyandmeteorologymustbeobservedandforecasted.Threethousandyearsago,mycountry’sOracleincludedrecordsoftheactualweather,includingwind,clouds,rainbows,rain,snow,frost,clouds,tornadoes,andthunderstorms.Afteralargenumberofweathereventshavebeenrecordedinwriting,someintellectualsfinallyhaveanunderstandingoftheclimate.Inancientmycountry,observingastronomyandweather,formulatingcalendars,understandingandpredictingclimate,theclearestusewastoarrangeagriculturalproduction,sacrificesandotheractivities.Theinscriptionsalsoreflectthatpeoplealreadyhaverequirementsforpredictingweatherconditions,whichareallinlinewiththeneedsofagriculturalproductionatthattime.AsfarastheSpringandAutumnPeriod,theancientssetfoursolarterms:Mid-Spring,Mid-Summer,Mid-AutumnandMid-Winter.Continuousimprovementandperfectioninthefuture,bytheQinandHanDynasties,thetwenty-foursolartermshavebeenfullyestablished.

WeatherforecastforancientWesterners

Weatherforecastisanappliedscience.Theachievementsofscienceoriginatefromthought.Around340BC,theancientGreekphilosopher,scientistandeducatorAristotle(384BCto322BC)wrotetheworld'searliestmonographonmeteorology,"GeneralMeteorology".Thebookdescribesthecausesanddistributionofhurricanes,foehnwindsandwinds,atmosphericlightpatternssuchashalos,rainbows,andthunderandlightning,theformationofclouds,rain,hailandhaze,andclimatechange.Aristotlesystematicallysortedoutallthepreviousmeteorologicalthoughtsandexperiences,andputforwardhisowninsightsandtheoriesonvariousweatherphenomena,makingitasystematicscience—ancientmeteorology,namelyTheideologicalbasisofancientweatherforecasting.Thedescriptionoflocalweatherobservationsatthattimedeterminedthattheweatherforecastwasalsolocal.Aristotledividedthelocalskyintotwoupperandlowerparts:oneisthecelestialdomain-theareaoutsidethemoon'sorbit,andtheotheristhearea-therangefromthemoon'sorbittotheground.Theformeristhescopeofastronomyobservationandresearch,whiletheatmosphericphenomenaoccurringinthelatterbelongtotheresearchobjectofmeteorology.Hebelievesthatdryandwarmemissionsconstitutewind,anddampandcoldemissionsconstitutewatervapor,whichisthesourceofrain.Therefore,airisthemediumofwatervaporandwind.Clouds,rain,snow,frost,anddewareallcausedbychangesinairtemperature.Forming.TheauthorityofAristotledominatedwesternmeteorologicaltheoryfortwothousandyears.Beforetheendofthe17thcentury,allwesternmeteorologicalworksandtreatiseswerenotabletoescapetheinfluenceofAristotle'smeteorology.

Developmenthistory

Earlyweatherforecast

Numericalvalues​​arethelanguageofscience.Weatherforecastingisinseparablefromthequantitativeobservationofatmosphericmotionbyinstruments.Wecansettheinventionandapplicationofmeteorologicalinstrumentsasthestarttimeofearlyweatherforecasting.

Inthe15thcentury,theWestinventedtheplatenanemometer,whichcanquantitativelymeasurethespeed(energy)ofatmosphericmotionforthefirsttime.Fromthe17thtothe18thcentury,scientistssuccessivelyinventedvariousinstrumentsforquantitativelymeasuringweatherphenomena,markingthebeginningofanewperiodofdevelopmentforthedetectionmethodsofmeteorologicalscienceresearch.BritishphysicistHooke(1635-1703)inventedthehygrometer.In1606,Galileoinventedthethermometer.In1639,Galileo'sdiscipleBenedettoCastelliinventedtheraingauge.In1644,Torricelliinventedthebarometer.In1774,Cotteinventedthehygrometer.Inthemiddleofthe18thcentury,peoplebegantoattempthigh-altitudeexploration.In1748,BritishA.Wilsonandothersbegantocarrythermometerswithkitestoobservelow-altitudetemperature.In1752,AmericanscientistB.Franklinusedkitesandothertoolstodetectandstudythepropertiesofelectricchargesinthunderstormclouds.In1783,France'sJ.A.C.Charlieusedhydrogenballoonsforthefirsttimetocarrytemperature,pressureandotherself-recordingmeteorologicalinstrumentstomeasuretemperatureandpressureatvariousaltitudes.Theseearlierhigh-altitudesurveysareusedtomeasurethetemperatureandairpressureatvariousaltitudesandotherelementsforfutureresearchonlargemeteorologicalinstruments.

Withtheinventionofmeteorologicalinstrumentsandtheestablishmentofobservationnetworks,aswellasthedevelopmentoffluiddynamicstheory,itispossibletoestablishatheoreticalsystemforweatherforecasting.In1820,Germany'sH.W.Brandesusedthemeteorologicalobservationdatapublishedinthe"JournaloftheBaladinMeteorologicalSociety"tofillintherecordsofthepressureandwindatthesametimein1783onthemap,makingittheworld'sfirstweathermap.Thispioneeringworkhastakenasolidstepforwardinanalyzingtherelationshipbetweenairpressure,windandweather,andestablishingaconceptualmodeloftheweathersystem.Thebirthoftheweatherchartisasignofmodernmeteorologicaltheoreticalresearchandmodernweatherforecastingpractice.Theinventionofthetelegraphhasprovidedconditionsfortherapidtransmissionofmeteorologicalobservationdataandtheconcentrationofinformationinvariousplaces,makingitpossibletodrawreal-timeweathermaps.In1851,J.GlescheroftheUnitedKingdomusedtelegraphtotransmitdataanddrewinstantaneousweathermapsforpracticalapplications.

Modernweatherforecast

Inthepasthundredyears,somemeteorologicalleadershavemadefulluseofthecombinationoflarge-scalegroundandupperairobservationdataandmathematicalmethods,whichhasstronglypromotedthedevelopmentofweatherforecasttheory.Andtheimprovementoftheweatherforecastservicelevel.OneisthecirculationtheoryandcyclonewavemodeloftheNorwegianschool,andthesecondisthelongwavetheoryoftheChicagoschool,whichhasmadeoutstandingcontributionstothedevelopmentofmeteorologicalsciencerecognizedworldwide.

ThecorefigureoftheNorwegianSchoolisV.Peyknis(1862-1951).Hehasbeenunremittinglytransformingmeteorologyfromrandomobservationaldatacollectionandaccidentalspeculativeforecastingtorigorousscience,andiscommittedtoimprovingtheaccuracyofweatherforecastsandlong-termweatherforecasts.Hiswishwastotransformmeteorologyintoanauthoritativediscipline,andthiswishwasrealizedwhenheworkedattheBergenSchoolofMeteorology.Military,agriculture,aviation,andfisherieshavequicklybecomeindustriesthatrelyonPeyknis’researchresults.Attheendofthe19thcentury,heputforwardarevolutionaryideaof​​applyingtheprinciplesoffluidmechanicsandthermodynamicstoatmosphericmotion.Hisimportantachievementsinclude:in1897,hestudiedthecirculationmovementintheatmosphereandintroducedtheconceptofforcetubeforthefirsttime;in1904,heproposedtheconceptofdigitalweatherforecast;in1910,heproposedtodrawstreamlinesontheweathermaptorepresentthehorizontalmovementoftheair.Italsoanalyzestheconvergenceanddivergencezones;in1918,thedifferencebetweencoldandwarmfrontsinalow-pressureweathersystemwasdiscovered,andtheconceptofcoldandwarmfrontswasestablished,andFrontwasthenameoftheinterfacebetweenthecoolingandheatingmasses.

ThereisalsoacorefigureoftheNorwegianschool,cloudphysicistBergeron,whonotonlycontributedtothephysicsofclouds,butalsomadeachievementsintheclassificationofweatherconditions.Hesystematicallysortedoutthevariousdataheobservedandcollected,andin1919proposedthetheoryofthecycloneimprisonmentstage,whichenrichedthecyclonelifehistorymodel.Inhisdoctoraldissertation,healsoproposedconceptssuchasairmassclassification,frontalzone,andfrontogenesis,whichmadeimportantcontributionstoweatheranalysisandforecasting.

ChicagoSchoolbeganbrewinginthe1930s,formedandreacheditspeakinthe1940s,andcontinuedtoprosperinthe1950sand1970s.C.G.Robes(1898-1957),thecorefigureoftheChicagoSchool(orAmericanSchool),discoveredlongwavesonhigh-altitudeweathercharts.In1939,heproposedthelong-wavedynamics,derivedthepotentialvorticityequationfromthis,andfoundedthelong-wavetheory.Inthe1940s,theChicagoSchoolunderhisleadership,includingE.HPalmenandothers,confirmedthestructureandchangesofhigh-altitudewesterlyjetsandlongwaves,aswellastheirrelationshipwithcyclonewavesontheground.RossbyandtheChicagoSchool’smajorcontributiontoweatherforecastingisthe"RosbyWave",alsoknownasthe"AtmosphericLongWave".TheworkoftheChicagoSchoolhasstrengthenedtheconnectionbetweensynopticsandthermodynamicsanddynamics,enrichedthephysicalfoundationofweatheranalysisandforecasting,andprovidedtheoreticalbasisforthestudyoflarge-scaleatmosphericmotion,andpromotedthedevelopmentandapplicationofnumericalweatherprediction.

Modernweatherforecast

Modernweatherforecastismarkedbythegradualreplacementofconventionalweathermapforecastswithmoderndetectiontechnologies(weathersatellitesandweatherradars)andnumericalweatherforecastmodelssupportedbyhigh-speedcomputers.Theapplicationofthesetechnologiesandmethodsinweatherforecastingroughlybeganinthe1950s.

Forecastingmethods

Doublestations

Beforethe17thcentury,peoplemadeweatherproverbsbyobservingthechangesincelestialandphysicalphenomenatopredictthelocalweatherinthefuture.Afterthe17thcentury,meteorologicalobservationinstrumentssuchasthermometersandbarometersappearedoneafteranother,andgroundmeteorologicalstationswereestablishedoneafteranother.Atthistime,weatherforecastsweremainlybasedonchangesinsingle-stationairpressure,temperature,wind,andclouds.

Weathermap

In1851,theUnitedKingdomfirsttransmittedobservationdataviatelegram,drawnitintoagroundweathermap,andmadeweatherforecastsbasedontheweathermap.Sincethe1920s,airmasstheoryandpolarfronttheoryhavebeenappliedtoweatherforecasting.Inthe1930s,theinventionofradiosondes,theemergenceofhigh-altitudeweathermaps,andthewideapplicationoflong-wavetheoryinweatherforecastinghaveadvancedtheanalysisofweatherevolutionfromtwo-dimensionaltothree-dimensional.Inthelate1940s,theapplicationofweatherradarprovidedaneffectivetoolforforecastingprecipitationandsevereweathersuchastyphoons,heavyrains,andseverestorms.

Numericalweatherforecasting

Numericalweatherforecastingusesatmosphericmotionequationstointegrateequationsundercertaininitialandboundaryconditionstoforecastfutureweather.In1921,Richardsonfirsttriedtousenumericalmethodstoforecasttheweather.Becauseofthehugeamountofcalculationwork,heorganizedalotofmanpoweranddesigneddetailedcalculationtablestocomplete.However,theforecastresultswereseriouslyinconsistentwiththeactualatmosphericchanges.Thereasonwasthattheeffectsofhigh-frequencywavesintheatmospherewerenothandledproperly.In1950,Charneyusedtheworld'sfirstcomputerENIACtosuccessfullyproducea24-hournumericalforecastbasedontheatmosphericmotionequationsafterfilteringouthigh-frequencywaves.Withthedevelopmentofcomputertechnology,theadvancementofobservationmethods,andthedeepeningofunderstandingofatmosphericphysicalprocesses,numericalweatherpredictionhasmadegreatprogressandhasbecomethemainmeansofweatherforecasting.Especiallysincethelaunchofmeteorologicalsatellitesinthe1960s,thesatellite'sdetectiondatahavemadeupforthelackofmeteorologicaldatainareassuchasoceans,deserts,polarregions,andplateaus,whichhassignificantlyimprovedthelevelofweatherforecasting.

Forecastmethod

Situationforecast

Itistoforecastthegenerationanddisappearance,movementandintensitychangesofvariousweathersystemsinacertainperiodoftimeinthefuture.Itisthebasisofmeteorologicalelementforecasting.Situationforecastingmethodscanbedividedintotwocategories:oneisnumericalforecastingmethods,thatis,directlyintegratingatmosphericequationsorsimplifiedequations,andforecastingthefuturepressurefield,temperaturefield,andwindfieldbasedontheresults;theotherisWeatherchartmethod.Thelatterhasthefollowingmethods:

1.Theempiricalextrapolationmethod

alsoknownasthetrendmethod,isbasedonthepastmovementpathandintensitychangetrendofvariousweathersystemsontheweathermaptoinfertheirfuturelocationandintensity.Thismethodiseffectivewhenthereisnosuddenchangeinthemovementandintensityoftheweathersystemorwhenthereisnonewbirthordeathoftheweathersystem;however,whenthereisasuddenchangeorwhenthereisanewbirthordeathoftheweathersystem,theforecastisoftennotinlinewithreality.

2.Similarsituationmethod

Alsoknownasmodelmethod,itistofindsomesimilarweathersituationsfromalargenumberofhistoricalweathermapsandsummarizethemintocertainpatterns.Ifthecurrentweathersituationissimilartotheprevioussituationofacertainmodel,theforecastcanbemadewithreferencetothelaterevolutionofthemodel.Sincesimilarityisalwaysrelative,itisimpossibletobeexactlythesame.Therefore,errorsoftenoccurinthismethod.

3.Statisticaldatamethod

Alsoknownascorrelationmethod,ituseshistoricaldatatocalculatetheoccurrence,developmentandmovementofvariousweathersystemsindifferentseasonsinhistorytoobtaintheiraveragemovingspeedandfindForecastindicators(suchascyclonegeneration,typhoonturningindicators,etc.)forforecasting.Thismethodcannotbeappliedtoexamplesthathavenotappearedinhistoryormovedveryfastandveryslowly.

4.Physicalanalysismethod

Firstly,itanalyzesthephysicalfactorsoftheweathersystem'sgenerationanddisappearance,movementandintensitychanges,andthenmakesweatherforecastsonthisbasis.Thismethodusuallyhasbetterresults.However,whenthesimplificationsandassumptionsoftheequationsofmotionthatreflectthesephysicalfactorsdonotconformtoreality,theyoftencauseforecasterrors,orevendeviatefarfromtheactualsituation.

Theabovefourmethodshavetheirownadvantagesanddisadvantages.Whenusingthem,theyneedtocomplementeachother,learnfromeachother'sstrengthsandmakeupfortheirweaknesses,andconsidercomprehensivelytoobtainbetterresults.

Elementforecast

Thatistoforecastthechangesintemperature,wind,clouds,precipitation,andweatherphenomenainacertainperiodoftimeinthefuture.Situationforecastingisthebasisofelementforecasting.Thereareseveralmethodsforelementforecasting:

1.Empiricalforecastmethod

Basedontheweathermapsituationforecast,accordingtothefuturepositionandintensityoftheweathersystem,forecastthefutureweatherdistribution.Forexample,whenthelowpressuremovesandisstrengthened,itcanbeforecastedthattherewillberainyweatherorheavierprecipitationinthefuture.Theaccuracyofthismethoddependstoalargeextentontheexperienceoftheforecaster,andbecausetheweathersystemandweatherphenomenadonotcorrespondone-to-one,theforecasteffectisnotstableenough.

2.Statisticalforecastmethods

Analyzehistoricalweatherdata,seekthecorrelationbetweenchangesinatmosphericconditionsandpreviousmeteorologicalfactors,useregressionequationsandprobabilityprinciplestoscreenforecastfactorsandestablishforecastequations.Gettherequiredforecastvalue.Theeffectofthismethodmainlydependsonthecorrectchoiceoffactors.

3.Dynamicstatistics

Thefuturemeteorologicalparameterscalculatedbynumericalforecastingmethodsareusedasforecastfactors,andasetofforecastformulasareobtainedbyregressionequationstomakeelementforecasts.Withtheimprovementofthenumericalmodel,theaccuracyofthismethodmayincreasesteadily.

Forecastprocess

Modernweatherforecasthasfivecomponents:

1.Collectingdata

Weather forecast

ThemosttraditionaldataisonthegroundOrdatasuchasairpressure,temperature,windspeed,winddirection,humidity,etc.collectedbyprofessionals,enthusiasts,automaticweatherstationsorbuoysonthesea.TheWorldMeteorologicalOrganizationcoordinatesthetimingofthesedatacollectionsandsetsstandards.Thesemeasurementsaredoneeveryhour(METAR)oreverysixhours(SYNOP).

Datafrommeteorologicalsatellitesisbecomingmoreandmoreimportant.Meteorologicalsatellitescancollectdatafromallovertheworld.Theirvisiblelightphotoscanhelpmeteorologiststoexaminethedevelopmentofclouds.Theirinfrareddatacanbeusedtocollectthetemperatureofthegroundandcloudtops.Bymonitoringthedevelopmentofthecloud,thewindspeedanddirectionattheedgeofthecloudcanbecollected.However,becausetheaccuracyandresolutionofmeteorologicalsatellitesarenotgoodenough,grounddataisstillveryimportant.

2.Dataassimilation

Thedatacollectedintheprocessofdataassimilationiscombinedwiththedigitalmodelusedforforecastingtogeneratemeteorologicalanalysis.Itisthebestestimateoftheatmosphericstate.Itisathree-dimensionalrepresentationoftemperature,humidity,pressure,windspeed,andwinddirection.

3.DataWeather

Calculatethechangesoftheatmosphereovertimeaccordingtotheresultsofphysicsandfluidmechanics.

4.Outputprocessing

Theoriginaloutputcalculatedbythemodelgenerallyneedstobeprocessedbeforeitcanbecomeaweatherforecast.Thesetreatmentsincludeusingstatisticalprinciplestoeliminatedeviationsinknownmodels,ormakingadjustmentswithreferencetothecalculationresultsofothermodels.

5.Productionprocess

Accordingtothedataprovidedbyrelevantdepartments,makeachartofthenationalweathersituationonthecomputer(itisthebackgroundpictureoftheweatherforecastprogram);thehoststandsinfrontofabluescreen"Pointandpoint",explaintheweather(howtograspthelocationofeacharea,thehosthasonlyonesecret-rotememorization);thefilmandtelevisioncenterconductsimagesynthesis,replacingthebluescreenwithchartsonthecomputer;thefilmandtelevisioncenterwillcompletetheproductionoftheprogramTransmittedtoCCTV.

Typesofforecasts

Dividedbytimerange,thatis,accordingtothedurationoftheweatherforecast,itcanbedividedinto:

1.Short-termforecast.Accordingtoradarandsatellitedetectiondata,thelocalstrongstormsystemwillbemonitoredandforecastedforthenext1to6hours.

2.Short-termforecast.Forecasttheweatherforthenext24to48hours.

3.Medium-termforecast.Forecastforthenext3-15days.

4.Long-termforecast.Referstotheforecastfrom1monthto1year.

5.Ultralong-termforecast.Theforecastperiodis1to5years.

6.Climateoutlook.Morethan10years.

Statisticalmethodsaremainlyusedtomakeforecastsbasedonthedeviationbetweentheaveragevalueofeachmonth'smeteorologicalelementsandthemulti-yearaveragevalue.Themethodofmakinglong-termforecastsusingnumericalforecastingmethodsisbeingtested,andsomeprogresshasbeenmade.Theforecastperiodof1-5yearsiscalledultra-long-termforecast,andtheforecastof5yearsormorethan10yearsiscalledclimateoutlook.

Accordingtothecoverageareatoforecasttherange,theweatherforecastcanbedividedinto:

1.Large-scaleforecast.Generallyreferstoglobalforecasts,hemisphericforecasts,continentalorcountry-wideforecasts.MainlyproducedbytheWorldMeteorologicalCenter,RegionalMeteorologicalCenterandNationalMeteorologicalCenter.

2.Mediumrangeforecast.Itoftenreferstotheforecastsofprovinces(regions),states,andregions,whichareproducedbyprovincial,cityorstatemeteorologicalstationsandregionalmeteorologicalstations.

3.Small-scaleforecast.Forexample,acounty-wideforecast,acityforecast,areservoir-wideforecast,andanairport,portforecast,etc.Theseforecastsareproducedbylocalmeteorologicalstations.

ForecastService

Howtoprovidetheweatherforecasttotheuserdepartmentsandthepeopleintimeisthecentrallinkoftheforecastservice.Themostextensiveandeffectiveservicemethodsare:newspaperpublication,radiobroadcasting,televisionbroadcasting,weathertelephoneconsultation,etc.Inaddition,italsoprovidesservicestospecializeddepartmentsthroughdedicatedtelephone,telexandwrittenforms.Thespecialradioforweatherforecastisaradiothatcanbeturnedonatanytimetoreceivethecurrentweatherforecastbroadcast.Whensevereweatherisabouttohappen,thespecialweatherbroadcastingstationcanuseasignalofacertainwavelengthtomakethisradioautomaticallystartthecall.Peoplewhofallasleepcanalsobeawakenedbythesignalandhearsevereweatherwarnings,whichprovidesthepossibilitytotakepreventivemeasuresintime.

Aftertheweatherstationhasproducedtheweatherforecast,itwillannouncetheweatherforecasttothesocietythroughvariouschannels.Themainwaystodisseminateweatherforecastsaretelevision,newspapers,theInternet,mobilephonetextmessages,weathercalls,andtheInternet.ObtainingweatherforecastinformationthroughtheInternetwillbethefuturetrend.Well-knownweatherforecastwebsitesincludeChinaWeatherNetwork,CentralMeteorologicalObservatory,WeatherOnline,etc.TheCentralMeteorologicalObservatorywebsiteprovidesreal-timeweatherforecastinformationandweeklyweatherforecastinformationformajorcitiesandregionsacrossthecountry.

Commonterms

Fine:Theskycloudcoverislessthan30%.

Overcast:Theskycloudcoveraccountsfor90%ormore.

Fog:Alargenumberoftinywaterdropletsoricecrystalsfloatintheairneartheground,andthehorizontalvisibilitydropstowithin1km,whichaffectstransportation.

Lightrain:Thedailyprecipitationislessthan10mm.

Heavyrain:thedailyprecipitationis25.0-49.9mm.

Thundershowers:rainshowersthatsuddenlystopandfall,accompaniedbylightningandthunder.

Hail:Thesmallhailnucleusrisesrepeatedlywiththefierceverticalmovementinthecumulonimbuscloud,condensesandmelts,andgrowsintosmalliceblockswithalternatingtransparentlayersandfalls,whichaffectscrops.

Freezingrain:raindropsarefrozenonthegroundbelow0℃,alsoknownasYusong(frozenbyfogdroplets,calledrime),whichoftenbreakswires,whichmakestheroadicyandaffectsCommunication,powersupply,transportation,etc.

Sleet:Thetemperaturenearthegroundisslightlyhigherthan0℃,wetsnoworrainandsnowfallatthesametime.

Lightsnow:Thedailysnowfall(meltedintowater)islessthan2.5mm.

Mediumsnow:Dailysnowfall(meltedintowater)is2.6-4.9mm.

Heavysnowfall:Thedailysnowfall(meltedintowater)reachesorexceeds5.0mm.

Frost:Thewhitefrostonthegroundandthesurfaceoftheobjectwherethetemperatureislowerthan0℃iscalledfrost.Thewatervaporcontentislowandnofrostisformed.Itissaidthatblackfrostisharmfultocrops.Itiscalledfrost.

Low-pressuretroughsandhigh-pressureridges:onthefluctuatinghigh-altitudewesterlyairflow,thetroughcorrespondstothelow-pressuretrough,warmairinfrontofthetroughisactive,rainyandsnowyweather,coldairbehindthetroughiscontrolled,andwindyweatheriscool;wavecrestCorrespondingtothehighpressureridge,theskyisclear.

Coldfrontandwarmfront:Thecoldfrontisthefrontofthecoldair.Atthejunctionofthecoldandwarmairmasses,thecoldairadvancestowardthewarmair.Windyandintenseweatheronthecoldfront,strongwindsbehindthefronttocooltheweather;onthecontrary,itisawarmfront,withrainyweatheronthefront,cloudyandsunnyweatherbehindthefront,andthetemperaturerises.

GaoFeng:Expressedbythewindarrow,composedofwinddirectionrodsandwindfeathers.Thewinddirectionrodreferstothedirectionofthewindandhas8directions.Thewindplumeconsistsof3,4dashesandtrianglestoindicatethewindforceofthestrongwind,whichisperpendiculartotherightsideoftheendofthewinddirectionrod(NorthernHemisphere).

Commonsenseofweather

Whenlisteningtotheweatherforecast,Ioftenheartimephrasessuchas"today"and"todaynight"and"cloudy","cloudy","sunny",etc.Meteorologicalterms.

"Todayduringtheday"referstothe12hoursfrom8:00amto20:00atnight;"Tonight"referstothe12hoursfrom20:00to8:00thenextmorning."Fine"meansthatthecloudcoveraccountsfor10-30%;"cloudy"meansthatthecloudcoveraccountsfor40-70%;"Yin"meansthatthecloudcoveraccountsfor80-100%.

Therearetwostandardsforprecipitationinthemeteorologicalunit:12hoursand24hours.The12-hourprecipitationlevelstandardis:"lightrain"referstotheprecipitationof0.6-5mm;"moderaterain"theprecipitationof5.1-15mm;"heavyrain"15.1-30mm;"heavyrain"30.1-70mm;Heavyrain"70.1-200mm.The24-hourprecipitationlevelstandardis:"lightrain"precipitationrefersto1-10mm;"moderaterain"precipitationrefersto10.1-25mm;"heavyrain"precipitationrefersto25.1-50mm;"Heavyrain"refersto50.1-100mm;"heavyrain"referstoprecipitationof100.1-250mm.Iftheforecasttimedoesnotexceed12hours,itmeansthe12-hourprecipitationlevelstandard.Ifitisforecastedtohaverainorsnowtodayduringthedayornight,itmeanssnowfallwithin12hours.Ifitisforecastedthattherewillbemoderatetoheavysnowfromdaytonighttoday,itreferstotheamountofprecipitationwithin24hours.Inadditionto12.24-hourforecasts,thereare48-hourforecasts,72-hourforecasts,andfutureweatheranalysis.

BecausetheMeteorologicalBureauprovidesonlythreeforecastsdailytoTVstations,radiostations,andmajornewspapers:morning,noon,andevening.Itisimpossibletomaketimelyforecastsforsuddenweatherchanges.Howcanwelearnaboutsuddenweatherchangesintime?SinceSeptember2009,Chinahasopeneda121weatherhotline.Onaverage,thereisanewforecasteverytwohours,whichistimelyandaccurate,convenientandfast.Forexample,the121weatherhotlineinYangzhoucananswer60callsatthesametime,andthecallchargesareequaltoordinarylocalcalls.Mostcityweatherstations(bureaus)openofficialweathermicroblogs.

Weatherforecastforanimalsandplants

Animalweatherforecast

Swallows:swallowsareflyingclosetothegroundinsultryweather,itiswindyandheavyrainAsignthatiscoming.Becausetheairhumidityishighbeforeitrains,thewingsofinsectsaremoistanddonotflyhigh.Inordertocatchtheinsects,theswallowsflylowforfood.

Bee:Whencollectinghoney,itwillcomeoutearlyandreturnlate,indicatingthatthenextdaymustbesunny;ifitdoesnotleavethenestorleaveslate,itwillreturnearly,itwillberainysoon;ifWhenitrains,itcollectshoney,whichindicatesthattheskywillbeclear.

Ants:Iftheyholdwhiteseedsintheirmouths,lineupandmovetoahigherplaceinahurry,itindicatesthattherewillbecontinuousrainydaysandheavyrainfall;iftheymovetoalowerplace,Tellsus:therewillbedroughtinthefuture,andthewatersupplyhereisinsufficient.

Loach:Loachiscalled"livingbarometer".Iftheloachisirritable,churnsupanddown,andtherearemanybubblesonthewatersurface,itindicatesthatitwillrainsoonortherewillbeastrongnortherlywind;onthecontrary,iftheloachsitsquietlyonthebottomofthewater,itindicatesthattheweatherisclear.

Snake:Thesnakecameoutofthecave,stayedsidewaysontheroad,orcrawledslowlyinonedirection,indicatingthatitwasgoingtorain.Ifthenumberofsnakesoutoftheholeincreases,therainislarger;onthecontrary,therainissmaller.

Spider:Atdusk,itspinsawebtocatchinsects.Thisistotellpeople:Recently,itissunnyandtherearenocloudsinthesky;ifthesilkishangingdown,itmeansthatarainydayiscoming.

Turtle:Itisacold-bloodedanimal.Thetortoiseshelliseasytodissipateheatanditsbodytemperatureislowerthanthetemperature.Therefore,onceatortoise“sweats”onitsback,itmeansitwillrain.

Plantweatherforecast

"Flowersknowsunnyandrainy,grassandtreesreportweather".Itwasdiscoveredthatintheplantkingdom,somememberscanpredicttheweatherlikeaweatherstation.

Themostfamous"weatherforecaster"isa100-year-oldgreengangtreeinLongdingVillage,XinchengCounty,Guangxi.Whenitissunny,itsleavesaredarkgreen,andtheweatherwillbedrybeforeitrains.,Theleavesturnred,andwhentheweatherturnsfineafterrain,theleavesreturntotheiroriginaldarkgreen.Afterresearchbyscientists,itturnsoutthatinadditiontochlorophyll,itsleavesalsocontainlutein,anthocyanin,carotene,etc.Iftheweatherisnormalandthechlorophyllmetabolismisalsonormal,theleaveswillnaturallybedarkgreen.Oncethehotandbrightweathercomes,thesynthesisofchlorophyllwillbeinhibitedandthesynthesisofanthocyaninswillbeaccelerated,sotheleaveswillturnred.

Flowersalsohave"weatherflowers".ThereisakindofwonderfulcalamusinXishuangbannainourcountry.Whenastormisabouttocome,itwillbloomwithalargenumberofbeautifulflowersandredpetalsthatdyethedeepmountainsandoldforests.Dyedredcliffs...Themysteryofthecalamuslotuspredictingwindandrainisthatbeforethestormcomes,theoutsideatmosphericpressuredrops,theweatherissultry,andtheplant'stranspirationincreases,makingitsbulbsthatstorenutrientsproducealotofhormones.,Thusbloomingalotofflowers.

Thereisalsoakindof"temperaturegrass"insouthernSweden.Itcannotonlyforecasttheweather,butalsomeasurethetemperature.Theleavesofthisgrassareoval,andtheflowersthatbloomareblue,yellow,andwhite.Peoplealsocallitpansy.Theleavesofthisplantareextremelysensitivetoairtemperature.Whenthetemperatureisabove20°C,theleavesextenddiagonallyupward;whenthetemperaturedropsto15°C,theleavesslowlymovedownwardsuntiltheyareparalleltotheground;whenthetemperaturedropsAt10°C,thebladesprotrudeobliquelydownward.Ifthetemperaturerisesandtheleavesreturntotheiroriginalstate,thelocalresidentscanknowthetemperaturelevelaccordingtothedirectioninwhichtheleavesextend.

Inthesummermorning,ifthevineheadsofthepumpkinarealltilteddown,itindicatesthatitwillrain;andintherainyweather,ifmostofthevineheadsofthepumpkinaretiltedup,itindicatesthatasunnydaywillbecoming.Coming,thisisbecausethepumpkinvinehastheinstincttobemasculineandfeminine.

Forthewaterchestnutgrowingonthesurfaceofthelakeandpond,ifthewaterchestnutplate"sinks",therewillbewindandraininthesky.Thisisbecausebeforetheonsetofrainydays,thetemperaturerisesandtheairpressuredrops,thesedimentsatthebottomofthelakesandpondsarefermented,thegeneratedbiogasescapes,blisterscontinuetoemergefromthewater,andthesludgeanddebrisfromthebottomriseandsticktotheleavesofthewaterchestnut.Up,theweightofthewaterchestnutplateincreasesandsinks.

Weatherforecastapplicationanddevelopment

Weatherforecastbusiness

Weatherforecastbusinessisdevelopingtowardshighertemporalandspatialresolution,perfectForecastservicesarealwaysbasedonprovidinguserswithhigheraccuracyandmoreadvancedforecastinformation.Therefore,thedevelopmentofanumericalforecastmodelsystemwithhighertemporalandspatialresolutionandlongerforecasttimelinessisalwaysthecoretaskofthedevelopmentofweatherforecasttechnology.,Statisticalpost-processingtechnologybasedonnumericalreportingmodelproducts,interpretationapplicationtechnologycombinedwiththeoccurrenceanddevelopmentofdisastrousweather,anddigitalforecasttechnologytomeetvariousneedsareinevitablerequirementsforthemoderndevelopmentofweatherservices.

Inthefuture,thedigitalforecastsystemwillfurtherdevelopgrid-basedobjectiveforecastmethods,improvethetemporalandspatialrefinementofdigitalforecastproducts,thediversificationofforecastelements,andforecastaccuracy.Onthisbasis,theestablishmentofdisastrousweatherandforecastTheall-element,multi-time-effect,andmulti-timeproductsystemofhigh-impactweatherenhancespublicandprofessionalmeteorologicalproductsupport;enhancestheintelligentandcollaborativeforecastbusinesscapabilitiesofthedigitalforecastbusinessplatform,andenhancestheautomaticweatherscaleandmesoscalesystemRecognitionfunction,improvedgraphicalinteractivecorrectionofgridelementforecasts,supportformulti-levelcollaborativehigh-temporal-spatialresolutiondigitalforecastingbusinessprocesses,andrealizenational,provincial,andcounty-levelintelligentdigitalforecastguidance,feedback,coordination,andproductionAndrelease.

Inthecentury,nationaldisasterpreventionandmitigation,protectionofsocialandeconomicdevelopment,andpeople’swell-beinghaveputforwardhigherdemandsonmeteorologicalservices,anddevelopedweatherforecastingtechnologiesandproductsfeaturing"digitalizationandrefinement".Thesystemisaninevitablerequirementtorealizethemodernizationofweatherbusiness.Italsoputsforwardhigherrequirementsforthedevelopmentofdisciplinetheoryandbreakthroughsinkeytechnologies.Standingonanewlevelofadvancementinweatherforecastingtechnology,focusingonthefrontiersofinternationalmeteorologicaltechnologydevelopment,strivingtoactivelyexploreandinnovateintherapidupdateandassimilationofmulti-sourcedataandforecastingtechnology,ensembleforecastingsystemsofdifferentscales,anddigitalforecastingtechnologies,istopromoteweatherTheonlywayfornewchangesandadvancementsinforecastingtechnology.

Militarymeteorologicaltechnologywork

Newmilitaryhigh-altitudedetectionequipment,fieldweatherinstruments,militarygroundmulti-elementmeteorologicaltelemetryequipment,automaticweatherstations,etc.,forthemilitaryMeteorologicalobservationsprovidenewmeanstograduallydevelopthemilitary'smeteorologicalobservationanddetectionworkfromtraditionalmanualoperationstomodernautomatedremotesensingandremotesensing;digitalweatherradar,Dopplerweatherradarandadvancedlightningdetectionequipmenthavebeensuccessfullydevelopedandapplied,Tofurtherimprovetheabilitytomonitordangerousweatherandcatastrophicweather;theopeningofsatelliteTVweatherdatabroadcastingnetworksandpublicdatanetworks,andtheestablishmentofsatellitecommunicationnetworksinkeyareashavecausedmajorchangesinthetechnicalmeansofmeteorologicalcommunication.Thetransmissionspeed,coverage,timelinessandqualityhavebeensignificantlyimproved;theapplicationofbusinessautomationsystemssuchasweatherobservationdataprocessing,weathermapautomaticanalysisanddrawing,satellitecloudmapautomaticreceptionandprocessing,weatherdatabase,etc.,hassignificantlyenhancedthemeteorologicalinformationanalysisandprocessingcapabilities;usingtheGalaxy1.Numericalweatherforecastingbysupercomputersandadvancedlong-termweatherforecastingsystemshavesignificantlyimprovedthelevelofclimatepredictionandsignificantlyacceleratedthedigitizationprocessofweatherforecastingandweathersupport;newmobileweathersupportequipmentforfieldoperationsplaysanimportantroleinmajormilitaryexercisesTheconstructionofmilitarymeteorologicaldisciplinesandthefruitfulresultsofthetheoreticalresearchonmeteorologicalsupportforhigh-techlocalwarshaveprovidedpowerfulguidanceforthedevelopmentofmilitarymeteorologicalundertakingsandpromotedtheimprovementofmilitarymeteorologicalsupportcapabilities.

Agriculturaldisasterpreventionandmitigation

Theadvancementofinformationtechnology,theapplicationofnewtypesofmeteorologicalequipment,andtheimprovementofthetechnologyofweatherforecastersareallcontinuouslyimprovingweatherforecasting.Degreeofaccuracy.Therefore,long-termforecastsmustbeusedtoresistnaturaldisasterssuchasdrought,floods,lowtemperatureandcolddamage,andfrost.Long-termclimateforecastscanpredictthemeteorologicalchangesthatoccurwithinacertainperiodoftime,suchaswhentherewillbelowtemperature,whentherewillbedrought,whenwhentheremaybefloods,andwhenwhenthereisfrost,soyoucantaketargetedmeasuresbasedontheforecastTakeprevention.Forexample,waterconservancyprojectscanbebuiltinresponsetodroughtsandfloods,sothattheabilityoffarmlandtodrainwaterlogginganddroughtresistancecanbeenhanced.Plantingtrees,returningfarmlandtograssland,andreturningfarmlandtoforestswillchangetheregionalclimateandreducetheincidenceofsevereweather.Inaddition,long-termforecastscanprovideadvanceguidanceforagriculturalproductionplanning.Infarming,plantvarieties,plantingtime,plantingstructure,etc.areselectedaccordingtoclimaticcharacteristics.Long-termforecastscannotonlygivepeopletimetopreventdisastersinadvance,butalsomakereasonableuseofthecharacteristicsofweatherchangestoselectplantingtypesandincreaseagriculturalproductivity.

TheapplicationofthenewDopplerweatherradartechnologytoagriculturalweatherforecastshassignificantlyimprovedtheaccuracyofshort-termforecastsandshort-termforecasts.Throughthisradarmonitoringtechnology,itispossibletomonitorthechangesandmovingdirectionsofsmallandmedium-scalestrongconvectiveweatherinrealtime,ensuretheaccuracyofweatherforecasts,andreduceagriculturaldisasters.Moreover,thisweatherforecasttechnologycanalsobeappliedtootherareasoflife,suchasmunicipaltransportation,emergencycommandcenters,agriculture,wateraffairs,etc.,toformanearlywarninglinkagemechanism.Short-term,near-termweatherforecastscanbeusedtounderstandtheweatherinthearea.Ifthereisadrought,anti-aircraftartilleryandrocketscanbeusedtoartificiallyaffecttheweatherforartificialprecipitation.Ifhailweatheroccurs,humaninterventioncanalsobeusedtopreventhail.Atpresent,animportantmeasureforeffectivedisasterpreventionandmitigationinagriculturalproductionisartificialinfluence,andshort-termandnear-termweatherforecastwarningsprovideitwithmeteorologicalinformation,combinedwithreal-timeradarmonitoring,andartificialinfluencetochangeregionalweathertoachievedroughtresistance,hailprevention,andPurposessuchasincreasingrainfall.Forexample,in2010,LiuzhouCitysufferedfromseverelylowrainfall,allcropsinthecitysufferedfromdrought,reservoirswereinsufficientlystored,andtheforestfirepreventionsituationwasalsosevere.Inresponsetoseveredrought,LiuzhouCityimplementedartificialweatherinfluencingoperations,comparedwithnon-operatingareas.Increasedby20mm,theeffectofincreasingrainfallreached20%,completelyeliminatingtheagriculturaldrought.Practicehasprovedthattheimpactofmanualoperationsonthebasisofshort-termandnear-termweatherforecastscanreduceoreliminateagriculturaldisasters.

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