{"datasetrec":{"DasID":1861,"Acronym":null,"StandardTitle":"Hyperspectrale vliegtuigopnamen strand Vlaamse kust, geïntegreerd met LIDAR","OrigTitle":null,"OrigTitleLangID":null,"OrigTitleLangCode":null,"OrigTitleLang":null,"OrigTitleLangNL":null,"VersionName":"1","ContactEmail":null,"VersionDate":null,"VersionDay":24,"VersionMonth":2,"VersionYear":2009,"SizeReference":null,"EngAbstract":"Airborne hyperspectral data and airborne laserscan or LIDAR data were applied to analyse the sediment transport and the beach morphodynamics along the Belgian shoreline. Between 2000 and 2004, four airborne acquisitions were performed with both types of sensor. The hyperspectral data were classified into seven sand type classes following a supervised classification approach, in which feature selection served to reduce the number of bands in the hyperspectral data.","EngDescr":"The seven classes allowed us to analyse the spatial dynamics of specific sediment volumes. The technique made it possible to distinguish the sand used for berm replenishment works or for beach nourishments from the sand naturally found on the backshore and the foreshore. Subtracting sequential DTMs (digital terrain models) resulted in height difference maps indicating the erosion and accretion zones. The combination of both data types, hyperspectral data and LIDAR data, provides a powerful tool, suited to analyse the dynamics of sandy shorelines. The technique was demonstrated on three sites along the Belgian shoreline: Koksijde, located on the West Coast and characterized by wide accretional beaches, influenced by dry berm replenishment works and the construction of groins; Zeebrugge, on the Middle Coast, where a beach nourishment was executed one year before the acquisitions started and where the dams of the harbour of Zeebrugge are responsible for the formation of a large accretional beach, and Knokke-Heist, located on the East Coast and characterized by narrow, locally reflective, beaches, heavily influenced by nourishment activities. The methodology applied allowed retrieval of the main sediment transport directions as well as the amount of sediment transported. It proved to be specifically suited to follow up the redistribution and the re-sorting of the fill in beach nourishment areas \r\n[Source: Deronde, B.; Houthuys, R.; Henriet, J.-P.; Van Lancker, V. (2008). Monitoring of the sediment dynamics along a sandy shoreline by means of airborne hyperspectral remote sensing and LIDAR: a case study in Belgium. Earth Surf. Process. Landforms 33(2): 280-294; dx.doi.org/10.1002/esp.1545].","OrigAbstract":null,"OrigDescr":null,"Comments":null,"ReleaseDate":null,"ReleaseDate0":null,"OrigDescrLang":null,"EmbargoDate":null,"OrigDescrLangNL":null,"OrigLangCode":null,"OrigLangCodeExtended":null,"OrigLangID":null,"DescrCompFlag":1,"DescrTransFlag":0,"Citation":null,"AccessConstraints":null,"UDate":"2009-03-02","CDate":"2009-02-24","CurrencyDate":null,"RevisionDate":null,"DateLastModified":{"date":"2026-05-23 01:39:24.004480","timezone_type":1,"timezone":"+02:00"},"CheckedFlag":0,"PublicFlag":1,"VlizCoreFlag":1,"MarineFlag":1,"FreshFlag":0,"BrackishFlag":0,"TerrestrialFlag":0,"StatusID":1,"DasType":"GIS maps","DasTypeID":11,"DasOrigin":null,"Progress":null,"AccessConstraint":null,"AccConstrEN":null,"AccConstrDisplay":null,"License":null,"AccConstrDescription":null,"Lineage":null,"AccConID":null},"dois":null,"spcols":[{"SpColID":506,"SpName":"Remote Sensing"}],"keywords":[{"ThesaurusTerm":"Airborne","ThesTypID":2,"ThesType":"CSA Technology Research Database Master Thesaurus","Code":null,"Description":null,"OrigThesTerm":"Airborne","DutchTerm":null,"URI":null,"DasKeywordDescr":null},{"ThesaurusTerm":"Geosensing","ThesTypID":1,"ThesType":"ASFA Thesaurus List","Code":null,"Description":null,"OrigThesTerm":"Geosensing","DutchTerm":"Aardobservatie","URI":null,"DasKeywordDescr":null},{"ThesaurusTerm":"Hyperspectral imaging","ThesTypID":2,"ThesType":"CSA Technology Research Database Master Thesaurus","Code":null,"Description":null,"OrigThesTerm":"Hyperspectral imaging","DutchTerm":"Hyperspectrale foto's","URI":null,"DasKeywordDescr":null},{"ThesaurusTerm":"Orthoimagery","ThesTypID":7,"ThesType":"INSPIRE themes","Code":"oi","Description":"Geo-referenced image data of the Earth's surface, from either satellite or airborne sensors.","OrigThesTerm":"Orthoimagery","DutchTerm":"Orthobeeldvorming","URI":"https://inspire.ec.europa.eu/theme/oi","DasKeywordDescr":null},{"ThesaurusTerm":"Remote sensing","ThesTypID":3,"ThesType":"Transportation Research Thesaurus","Code":"Dmbr","Description":null,"OrigThesTerm":"Remote sensing","DutchTerm":null,"URI":null,"DasKeywordDescr":null}],"parents":null,"children":null,"othrel":null,"othrelrev":null,"ownerships":[{"OrderNr":1,"Surname":"Deronde","Firstname":"Bart","Initials":"B.","PerPublicFlag":1,"AdrID":null,"Email":null,"InsPublicFlag":1,"Acronym":"VITO","OrigNameLangCode":"en","OrigNameLangID":15,"FullOrigName":"Flemish Government; Economy, Science and Innovation; Flemish Institute for Technological Research","InsOwnerCNT":2,"PersID":3158,"InsID":138,"FullInstitute":"Vlaamse overheid; Beleidsdomein Economie, Wetenschap en Innovatie; Vlaamse Instelling voor Technologisch Onderzoek","RoleID":24,"Role":"Contact","OrigName":"Flemish Institute for Technological Research","StandardName":"Vlaamse Instelling voor Technologisch Onderzoek","FullAcronym":"EWI-VITO","ORC":null,"ROR":null},{"OrderNr":2,"Surname":null,"Firstname":null,"Initials":null,"PerPublicFlag":null,"AdrID":null,"Email":null,"InsPublicFlag":1,"Acronym":"VITO","OrigNameLangCode":"en","OrigNameLangID":15,"FullOrigName":"Flemish Government; Economy, Science and Innovation; Flemish Institute for Technological Research","InsOwnerCNT":2,"PersID":null,"InsID":138,"FullInstitute":"Vlaamse overheid; Beleidsdomein Economie, Wetenschap en Innovatie; Vlaamse Instelling voor Technologisch Onderzoek","RoleID":20,"Role":"Data owner","OrigName":"Flemish Institute for Technological Research","StandardName":"Vlaamse Instelling voor Technologisch Onderzoek","FullAcronym":"EWI-VITO","ORC":null,"ROR":null}],"taxterms":null,"frameworks":null,"otherterms":null,"temporal":[{"DasDateID":1748,"StartYear":2000,"EndYear":2002,"StartDay":null,"EndDay":null,"StartDate":"2000-01-01","EndDate":"2002-01-01","DasDate":"2000-2002","Resolution":null,"ResolutionNL":null,"Notes":null,"StartMonth0":null,"StartMonth":null,"StartMonthNL":null,"EndMonth0":null,"EndMonth":null,"EndMonthNL":null,"Progress":null,"ProgressNL":null},{"DasDateID":1749,"StartYear":2004,"EndYear":2004,"StartDay":null,"EndDay":null,"StartDate":"2004-01-01","EndDate":"2004-01-01","DasDate":"2004","Resolution":null,"ResolutionNL":null,"Notes":null,"StartMonth0":null,"StartMonth":null,"StartMonthNL":null,"EndMonth0":null,"EndMonth":null,"EndMonthNL":null,"Progress":null,"ProgressNL":null}],"geographical":[{"GeoTerm":"Belgian Coast","DasGeoID":4142,"DasGeoTerm":null,"DasID":1861,"GeotID":6234,"X":null,"Y":null,"MaxX":null,"MaxY":null,"StationName":null,"Precision":null,"CoordSystID":null,"GeoDatumID":null,"OrigCoordMinX":null,"OrigCoordMinY":null,"OrigCoordMaxX":null,"OrigCoordMaxY":null,"OrderNr":null,"Projection":null,"GeoDatum":null,"GeoObjectID":2550,"OrigGeoTerm":"Belgian Coast","DutchTerm":"Belgische kust"}],"meastypes":[{"MethID":320,"DasMeasTypID":6885,"DasMeasType":null,"Matrix":"Atmosphere/Air","MatrixNL":"Atmosfeer/Lucht","Parameter":"Sedimentation/erosion","ParameterNL":"Sedimentatie/erosie","Description":null,"Unit":null,"Methodology":"LIDAR","Protocol":null,"QualityControl":null,"Precision":null,"Detectionlimit":null,"Instrument":null,"InstrumentUrl":null,"MethFull":"","ParaCategoryTitle":null,"ParaCatCode":null},{"MethID":321,"DasMeasTypID":6886,"DasMeasType":null,"Matrix":"Atmosphere/Air","MatrixNL":"Atmosfeer/Lucht","Parameter":"Sedimentation/erosion","ParameterNL":"Sedimentatie/erosie","Description":null,"Unit":null,"Methodology":"AISA EAGLE","Protocol":null,"QualityControl":null,"Precision":null,"Detectionlimit":null,"Instrument":null,"InstrumentUrl":null,"MethFull":"","ParaCategoryTitle":null,"ParaCatCode":null}],"dasthemes":[{"DasThemeID":49,"DasTheme":"Geography","DasTheme0":"Geography","DutchTerm":"Geografie"},{"DasThemeID":14,"DasTheme":"Physical > Optical measurements","DasTheme0":"Optical measurements","DutchTerm":"Optische metingen"}],"projects":null,"refs":[{"0":125771,"BRefID":125771,"1":"Based on this dataset","Relation":"Based on this dataset","2":2,"RelationID":2,"3":"Deronde, B. et al. (2008). Monitoring of the sediment dynamics along a sandy shoreline by means of airborne hyperspectral remote sensing and LIDAR: a case study in Belgium. Earth Surf. Process. Landforms 33(2): 280-294. dx.doi.org/10.1002/esp.1545","RR":"Deronde, B. et al. (2008). Monitoring of the sediment dynamics along a sandy shoreline by means of airborne hyperspectral remote sensing and LIDAR: a case study in Belgium. Earth Surf. Process. Landforms 33(2): 280-294. dx.doi.org/10.1002/esp.1545","4":"Monitoring of the sediment dynamics along a sandy shoreline by means of airborne hyperspectral remote sensing and LIDAR: a case study in Belgium","StT":"Monitoring of the sediment dynamics along a sandy shoreline by means of airborne hyperspectral remote sensing and LIDAR: a case study in Belgium","5":"Deronde, B.; Houthuys, R.; Henriet, J.-P.; Van Lancker, V.","RSA":"Deronde, B.; Houthuys, R.; Henriet, J.-P.; Van Lancker, V.","6":"Gebaseerd op deze dataset","DutchTerm":"Gebaseerd op deze dataset","7":2008,"AnaDate":2008,"8":null,"MonDate":null,"9":". Earth Surf. Process. Landforms 33(2): 280-294. https://dx.doi.org/10.1002/esp.1545","":". Earth Surf. Process. Landforms 33(2): 280-294. https://dx.doi.org/10.1002/esp.1545","10":"https://dx.doi.org/10.1002/esp.1545","doi":"https://dx.doi.org/10.1002/esp.1545"},{"0":125765,"BRefID":125765,"1":"Based on this dataset","Relation":"Based on this dataset","2":2,"RelationID":2,"3":"Deronde, B. et al. (2008). Sediment facies classification of a sandy shoreline by means of airborne imaging spectroscopy. Int. J. Remote Sens. 29(15): 4463-4477. https://dx.doi.org/10.1080/01431160801891804","RR":"Deronde, B. et al. (2008). Sediment facies classification of a sandy shoreline by means of airborne imaging spectroscopy. Int. J. Remote Sens. 29(15): 4463-4477. https://dx.doi.org/10.1080/01431160801891804","4":"Sediment facies classification of a sandy shoreline by means of airborne imaging spectroscopy","StT":"Sediment facies classification of a sandy shoreline by means of airborne imaging spectroscopy","5":"Deronde, B.; Kempeneers, P.; Houthuys, R.; Henriet, J.-P.; Van Lancker, V.","RSA":"Deronde, B.; Kempeneers, P.; Houthuys, R.; Henriet, J.-P.; Van Lancker, V.","6":"Gebaseerd op deze dataset","DutchTerm":"Gebaseerd op deze dataset","7":2008,"AnaDate":2008,"8":null,"MonDate":null,"9":". Int. J. Remote Sens. 29(15): 4463-4477. https://dx.doi.org/10.1080/01431160801891804","":". Int. J. Remote Sens. 29(15): 4463-4477. https://dx.doi.org/10.1080/01431160801891804","10":"https://dx.doi.org/10.1080/01431160801891804","doi":"https://dx.doi.org/10.1080/01431160801891804"},{"0":115200,"BRefID":115200,"1":"Based on this dataset","Relation":"Based on this dataset","2":2,"RelationID":2,"3":"Deronde, B. (2007). The sediment dynamics along the Belgian shoreline, studied with airborne imaging spectroscopy and LIDAR. PhD Thesis. Universiteit Gent: Gent. 204 pp.","RR":"Deronde, B. (2007). The sediment dynamics along the Belgian shoreline, studied with airborne imaging spectroscopy and LIDAR. PhD Thesis. Universiteit Gent: Gent. 204 pp.","4":"The sediment dynamics along the Belgian shoreline, studied with airborne imaging spectroscopy and LIDAR","StT":"The sediment dynamics along the Belgian shoreline, studied with airborne imaging spectroscopy and LIDAR","5":"Deronde, B.","RSA":"Deronde, B.","6":"Gebaseerd op deze dataset","DutchTerm":"Gebaseerd op deze dataset","7":null,"AnaDate":null,"8":2007,"MonDate":2007,"9":". PhD Thesis. Universiteit Gent: Gent. 204 pp.","":". PhD Thesis. Universiteit Gent: Gent. 204 pp.","10":null,"doi":null}],"urls":null,"pictures":null,"urlmaps":null,"spatreps":null,"fileformats":null,"resmessage":"","complete":1}