<pclass="card-text">Wind pressure around a building block visualzied as a point cloud. Color represents different pressure values according to legend.</p>
<pclass="card-text">Wind pressure around a building block visualzied as a point cloud. Color
represents different pressure values according to legend.</p>
<pclass="card-text">Streamlines showing wind flow over and around a building block and parts of Stoeckach. Wind speed is encoded as color information as of the legend.</p>
<pclass="card-text">Multipart streamlines with vertex coloring showing also particles moving along
the streamslines in order to give a better impression of the wind field. </p>
<pclass="card-text">Wind speed around a building block visualzied using Cesium multicolor multi-part lines primitives. Color represents different wind speeds, values according to legend.</p>
<pclass="card-text">Wind speed around a building block visualzied using Cesium multicolor multi-part
lines primitives. Color represents different wind speeds, values according to legend.</p>
<pclass="card-text">Showing results from automatic window detection from LiDaR point clouds. Results are shown on top of 3D building models and the original point cloud. </p>
<pclass="card-text">Multipart streamlines with vertex coloring showing also particles moving along the streamslines in order to give a better impression of the wind field. </p>
<pclass="card-text">Visualisation of wind around three target buildings (red) near a church with spire and surrounded by numerous building layers (colors). The streamlines results from a Computational Fluid Dynamic simulation of the air flow with RANS (Reynold-Averaged Navier Stokes Equations) and the k-omega SST Turbulence model.</p>
<pclass="card-text">Wind visualisation with particles around three target buildings (red) near a church with spire and surrounded by numerous building layers (colors). The streamlines results from a Computational Fluid Dynamic simulation of the air flow with RANS (Reynold-Averaged Navier Stokes Equations) and the k-omega SST Turbulence model.</p>
<pclass="card-text">Wind visualisation with particles around three target buildings (red) near a church with spire and surrounded by numerous building layers (colors). The streamlines results from a Computational Fluid Dynamic simulation of the air flow with RANS (Reynold-Averaged Navier Stokes Equations) and the k-omega SST Turbulence model.</p>