简介:Greatearthquakesoftenoccuralongornearactivefaultbelts.Thus,monitoringandresearchonfaultdeformationarequiteimportant.Methodssuchasshort-leveling,shortbaselineandintegratedmonitoringprofileacrossfaultbeltshavebeenusedtomonitorfaultactivitiesformanyyears.GNSSobservationsaremainlyusedtoobtainthehorizontalvelocityfieldinlargeareasandtostudytheactivitiesanddeformationofmajorblocks.GNSStechnologyhasbeenusedtomonitorandstudythedeformationoffaultsfromadifferentaspects.Inthispaper,someapplicationsandnewexplorationsofGNSSarediscussed.Theyare:(1)Researchandmonitoringofstrike-slipactivitiesoffaultswithGNSS.(2)ResearchandmonitoringofverticalactivitiesoffaultswithGNSS.(3)Investigatingthelawsofdeformationofblocksonthesidesoffaultzoneandsettingupstrainmodelstodeducetheactivitiesanddeformationoffaultswithrespectivemodelsandcomparethededucedresultswiththeactualmeasurementsacrossfault.Itisconcludedthatalargerdiscrepancybetweenthededucedandtheobserveddeformationindicatesastrongerinteractionbetweentheblocks,whichcanbeimportantforpredictingthelocationofastrongearthquakeandassessingseismichazard,aswellastheseismicitytrend.
简介:Aseachtypeofsatellitenetworkhasdifferentlinkfeatures,itsdatatransmissionmustbedesignedbasedonitslinkfeaturestoimprovetheefficiencyofdatatransferring.Thetransmissionofnavigationintegratedservicesinformation(NISI)inaglobalnavigationsatellitesystem(GNSS)withinter-satellitelinks(ISLs)isstudiedbytakingtherealsituationofinter-satellitecommunicationlinksintoaccount.Anon-demandcomputingandbufferingcentralizedroutestrategyisproposedbasedondynamicgroupingandthetopologyevolutionlawoftheGNSSnetworkwithinwhichthesatellitenodesareoperatedinthemannerofdynamicgrouping.Dynamicgroupingisbasedonsatellitesspatialrelationshipsandthegrouproleofthesatellitenodechangesbyturnsduetoitsspatialrelationships.Theroutestrategyprovidessignificantadvantagesofhighefficiency,lowcomplexity,andflexibleconfiguration,bywhichtheestablishedGNSScanpossessthefeaturesandcapabilitiesoffeasibledeployment,efficienttransmission,convenientmanagement,structuralinvulnerabilityandflexibleexpansion.
简介:近年来,GNSS观测技术在天津地区获得了迅速发展.截止目前,天津已建成由11个连续GNSS观测站组成的地壳运动观测网,并获得超过2年的连续GNSS观测资料.本文详细阐述了以GNSS观测技术为主要观测手段的天津市地壳运动观测网络的组网过程和布网原则,并对其数据处理结果进行了初步分析.结果表明,天津市地壳运动观测网能够满足mm级地壳运动监测的要求.其对日本“3.11”地震有较强反应,远场同震位移幅度达到7-9mm;同时GNSS连续站可成功观测到站点地面沉降变化趋势,最大年沉降量接近100mrn/a.
简介:摘要院在铁路工程建设中,与一般线路相比地下铁路工程的修建就变得更为严格,施工也变得更加复杂化,对精度的要求也变得更高。控制网是地铁工程建设的重要基础,平面控制网则是地下工程施工测量的基准,为了保证在地下铁路工程测量中成果的精确无误,GNSS平面控制测量技术在地下铁路工程中就需要被实时的进行。因此,需布设GNSS平面控制网,对地下铁路工程建设进行不停息、不定期的实时监测,以保证测量工作在地下铁路工程建设中准确无误的进行下去,确保工程质量达到预期的安全要求。详细介绍GNSS平面控制网的网型设计、布设点的原则、施测设计方案等一些重要过程,对其稳定性、可靠性和点位精度进行检验,对测量成果精度进行评定与分析,在日后施工作业中能够提供参考作用。