"title":"A CONTINUOUS, SEMI-AUTOMATED WORKFLOW: FROM 3D CITY MODELS WITH GEOMETRIC OPTIMIZATION AND CFD SIMULATIONS TO VISUALIZATION OF WIND IN AN URBAN ENVIRONMENT",
"project":"iCity",
"authors":[
{
"firstName":"M.E.",
"lastName":"Deininger"
},
{
"firstName":"M.v.d.",
"lastName":"Grün"
},
{
"firstName":"R.",
"lastName":"Piepereit"
},
{
"firstName":"S.",
"lastName":"Schneider"
},
{
"firstName":"T.",
"lastName":"Santhanavanich"
},
{
"firstName":"V.",
"lastName":"Coors"
},
{
"firstName":"U.",
"lastName":"Voß"
}
],
"imageLink":"./img/Deininger 2020_10.jpg",
"keywords":[
"smart city",
" urban environment",
" computational fluid dynamics",
" computational wind engineering",
" open geospatial consortium",
" environmental simulation",
" 3D visualization",
" web services",
" automated workflow",
" CityGML"
],
"journal":{
"name":"ISPRS International Journal of Geo-Information",
"volume":"9",
"year":"2020",
"pages":"657-680"
},
"DOI":"10.3390/ijgi9110657"
},
"links":{
"pdf":"https://doi.org/10.3390/ijgi9110657",
"url":"https://doi.org/10.3390/ijgi9110657",
"demo":"https://doi.org/10.3390/ijgi9110657"
}
},
{
"item":{
"title":"SEASONALITY DEDUCTION PLATFORM: FOR PM10, PM2.5, NO, NO2 AND O3 IN RELATIONSHIP WITH WIND SPEED AND HUMIDITY",
"authors":[
{
"firstName":"S.",
"lastName":"Harbola"
},
{
"firstName":"V.",
"lastName":"Coors"
}
],
"imageLink":"./img/Harbola 2020_09.jpg",
"keywords":[
"interactive platform",
" agglomerative clustering",
" cities planning",
" seasonality",
" unsupervised classification",
" dendrogram",
" pollution parameters",
" visual analytic",
" meteorological data",
" Spearman rank"
],
"journal":{
"name":"ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences",