Workshop & Data: DTM 0_25m

Using Landscape Data from https://hoydedata.no/ at the Institute of Experimental Architecture of the University of Innsbruck exparch.at.

Workshop Tutors : Marc Ihle

Hoydedata.no | Lofoten 2014 (0.25m) DTM og DOM | GeoTIFF LZ77 | test area 800x600m
Hoydedata.no | Lofoten 2014 (0.25m) DTM og DOM | GeoTIFF LZ77 | test area 800x600m

https://hoydedata.no/LaserInnsyn/

Svolvear_0_25m_800x600m_DOM_und_DTM_33-1-496-326-64_mi_01_DTM_02_HS
Hillshade: DTM with basic GIS Terrain Analysis of Svolvear | Resolution: 0.25m; Extend: 800x600m Tile: 33-1-496-326-64 | data source: hoydedata.no | Digital Processing: Marc Ihle

Rhino file with DSM and DTM to download: https://we.tl/7p8EwCBCbo
Svolvear_0_25m_800x600m_DOM_und_DTM_33-1-496-326-64_mi_rhino

GIS Analyses pics to download:
Svolvear_0_25m_800x600m_DOM_und_DTM_33-1-496-326-64_mi_basic_analyses_png


svolvear_0_25m_800x600m_DOM_und_DTM_33-1-496-326-64_crv_con_channel



Combining Data Analysis:

BAC-WORKSHOP-Landscape-and-Maya_1240

DTM and DSM with basic GIS Terrain Analysis of Svolvear | Resolution: 0.25m; Extend: 800x600m Tile: 33-1-496-326-64 | data source: hoydedata.no | Digital Processing: Marc Ihle
DTM and DSM with basic GIS Terrain Analysis of Svolvear | Resolution: 0.25m; Extend: 800x600m Tile: 33-1-496-326-64 | data source: hoydedata.no | Digital Processing: Marc Ihle

Laser Scan

capture9_1240
Laser Scanning together with Hannes Kleindienst from Gird-IT, Innsbruck Austria http://www.grid-it.at/3d-scan/ and the Bachlor Students of the Institute of Experimental Architecture and Building Construction of the University of Innsbruck. | 2017-12-14
2017-12-14 grid-it-3d scanning-arctic-studio-cut
Laser Scanning together with Hannes Kleindienst from Gird-IT, Innsbruck Austria http://www.grid-it.at/3d-scan/ and the Bachlor Students of the Institute of Experimental Architecture and Building Construction of the University of Innsbruck. | 2017-12-14
DSC_8396_bw_1240px_laser_scan_kleindienst_foto_mi
Laser Scanning together with Hannes Kleindienst from Gird-IT, Innsbruck Austria http://www.grid-it.at/3d-scan/ and the Bachlor Students of the Institute of Experimental Architecture and Building Construction of the University of Innsbruck. | 2017-12-14
DSC_8415_bw_1240px_laser_scan_kleindienst_foto_mi
Laser Scanning together with Hannes Kleindienst from Gird-IT, Innsbruck Austria http://www.grid-it.at/3d-scan/ and the Bachlor Students of the Institute of Experimental Architecture and Building Construction of the University of Innsbruck. | 2017-12-14
DSC_8419_bw_1240px_laser_scan_kleindienst_foto_mi
Laser Scanning together with Hannes Kleindienst from Gird-IT, Innsbruck Austria http://www.grid-it.at/3d-scan/ and the Bachlor Students of the Institute of Experimental Architecture and Building Construction of the University of Innsbruck. | 2017-12-14
DSC_8425_bw_1240px_laser_scan_kleindienst_foto_mi
Laser Scanning together with Hannes Kleindienst from Gird-IT, Innsbruck Austria http://www.grid-it.at/3d-scan/ and the Bachlor Students of the Institute of Experimental Architecture and Building Construction of the University of Innsbruck. | 2017-12-14
DSC_8428_bw_1240px_laser_scan_kleindienst_foto_mi
Laser Scanning together with Hannes Kleindienst from Gird-IT, Innsbruck Austria http://www.grid-it.at/3d-scan/ and the Bachlor Students of the Institute of Experimental Architecture and Building Construction of the University of Innsbruck. | 2017-12-14
DSC_8432_bw_1240px_laser_scan_kleindienst_foto_mi
Laser Scanning together with Hannes Kleindienst from Gird-IT, Innsbruck Austria http://www.grid-it.at/3d-scan/ and the Bachlor Students of the Institute of Experimental Architecture and Building Construction of the University of Innsbruck. | 2017-12-14

Workshop: Digital Tools

Workshop “Understanding, Simulating and Altering The Natural” Investigating Digital Tools for a better Understanding of complex Natural Behavior.

Workshop_04: Fluid Dynamics, by Luca Melchiori

DSC_8245_bwa_cut_1240px
Arctic Studio Workshop | 2017-11-24 | Investigating Digital Tools with Luca Melchiori | Foto: Marc Ihle
DSC_8238_bwa_1240px
Arctic Studio Workshop | 2017-11-24 | Investigating Digital Tools with Luca Melchiori | Foto: Marc Ihle
DSC_8234_bwa_1240px
Arctic Studio Workshop | 2017-11-24 | Investigating Digital Tools with Luca Melchiori | Foto: Marc Ihle
DSC_8258_bwa_1240px
Arctic Studio Workshop | 2017-11-24 | Investigating Digital Tools with Luca Melchiori | Foto: Marc Ihle
DSC_8260_bwa_1240px
Arctic Studio Workshop | 2017-11-24 | Investigating Digital Tools with Luca Melchiori | Foto: Marc Ihle

 

Data: DTM 10m

Areas of Investigation

all_60kmx40km_dgm10m_land_and_sea_rgb_1240px_studenten
Overview: 60 x 40 km Territory | Land and Sea data set Students

01 Sea Data

Rhinofile to download: BAC devision terrain 006 sea data

BAC-sea_data_card-01_1240px
Overview: 60 x 40 km Territory | Sea data set

02 Land Data

Extend Total Area: 60km x 40km
Total Areasize: 2.400 km2
Tilesize: 10km x 10km
Number of Cells per Tile-row: 1000
Number of Cells per Tile-col: 1000
Total Number of Cells per Tile: 1.000.000
Cellsize: 10m
File format elevation: .asc

all_60kmx40km_dgm10m_division_marc_ihle_1240px
Overview: 60 x 40 km Territory | Land data set

To download in Tiles:

all_60kmx40km_dgm10m_A1

Terrain download for Grasshopper: A1_10km_sq
Terrain download for SagaGIS: A1_10km_sq_geotiff


all_60kmx40km_dgm10m_A2

Terrain download for Grasshopper: A2_10km_sq
Terrain download for SagaGIS: A2_10km_sq_geotiff


all_60kmx40km_dgm10m_A3

Terrain download for Grasshopper:A3_10km_sq
Terrain download for SagaGIS:A3_10km_sq_geotiff


all_60kmx40km_dgm10m_A4

Terrain download for Grasshopper: A4_10km_sq
Terrain download for SagaGIS:A4_10km_sq_geotiff


all_60kmx40km_dgm10m_B1

Terrain download for Grasshopper: B1_10km_sq
Terrain download for SagaGIS:B1_10km_sq_geotiff


all_60kmx40km_dgm10m_B2

Terrain download for Grasshopper: B2_10km_sq
Terrain download for SagaGIS: B2_10km_sq_geotiff


all_60kmx40km_dgm10m_B3

Terrain download for Grasshopper: B3_10km_sq
Terrain download for SagaGIS: B3_10km_sq_geotiff


all_60kmx40km_dgm10m_B4

Terrain download for Grasshopper: B4_10km_sq
Terrain download for SagaGIS: B4_10km_sq_geotiff


all_60kmx40km_dgm10m_B5

Terrain download for Grasshopper: B5_10km_sq
Terrain download for SagaGIS: B5_10km_sq_geotiff


all_60kmx40km_dgm10m_B6

Terrain download for Grasshopper: B6_10km_sq
Terrain download for SagaGIS: B6_10km_sq_geotiff


all_60kmx40km_dgm10m_C1

Terrain download for Grasshopper: C1_10km_sq
Terrain download for SagaGIS: C1_10km_sq_geotiff


all_60kmx40km_dgm10m_C2

Terrain download for Grasshopper: C2_10km_sq
Terrain download for SagaGIS: C2_10km_sq_geotiff


all_60kmx40km_dgm10m_C3

Terrain download for Grasshopper: C3_10km_sq
Terrain download for SagaGIS: C3_10km_sq_geotiff


all_60kmx40km_dgm10m_C4

Terrain download for Grasshopper: C4_10km_sq
Terrain download for SagaGIS: C4_10km_sq_geotiff


all_60kmx40km_dgm10m_C5

Terrain download for Grasshopper: C5_10km_sq
Terrain download for SagaGIS: C5_10km_sq_geotiff


all_60kmx40km_dgm10m_C6

Terrain download for Grasshopper: C6_10km_sq
Terrain download for SagaGIS: C6_10km_sq_geotiff


all_60kmx40km_dgm10m_D3

Terrain download for Grasshopper: D3_10km_sq
Terrain download for SagaGIS: D3_10km_sq_geotiff


all_60kmx40km_dgm10m_D4

Terrain download for Grasshopper: D4_10km_sq
Terrain download for SagaGIS: D4_10km_sq_geotiff


all_60kmx40km_dgm10m_D5

Terrain download for Grasshopper: D5_10km_sq
Terrain download for SagaGIS: D5_10km_sq_geotiff


all_60kmx40km_dgm10m_D6

Terrain download for Grasshopper: D6_10km_sq
Terrain download for SagaGIS: D6_10km_sq_geotiff

Data source: kartverket.no | Data processing: Marc Ihle


download: A2_10km_sq_Terrain_Analysis


Basic Terrain Analysis Example:

f7_01_dem_10m_500px
f7_01_dem_10m_500px.jpg | value range of elevation: 0 meters (black) – 680 meters (White)
f7_02_hs_10m_500px
f7_02_hs_10m_500px.jpg | value range of Hillshading: 0 units (black) – 100 units (White)
f7_03_slope_10m_500px
f7_03_slope_10m_500px.jpg | value range of slope in radiens: 0 rad – (yellow) – 1 rad (Red)
f7_04_aspect_10m_500px
f7_04_aspect_10m_500px.jpg | value of aspect radiens: 0.0 rad (white) – 1.5 rad (red) – 3 rad (black) – 4.5 rad (blue) – 6.0 rad (white)
f7_09_ca_10m_500px
f7_09_ca_10m_500px.jpg | value of accumulated Water: 0.0 ml (white) – 969.121 ml (blue)

 

Workshop: CAD

Maya

[Workflow for basic poly-modeling | Xgen | Boss | Rendering]

Luca_Melchiori_Basic_Modeling_Tutorial
Luca_Melchiori_BOSS_Tutorial
Luca_Melchiori_Xgen_Tutorial


screenshots & workflow by luca melchiori

Rhino & Grasshopper:

BAC 2017-11-29 dtm to single surface [Grasshopper script that generates a single surface from an .asc file


3d-scan (mobil):

http://www.trnio.com/ [for i-phone]
http://scann3d.smartmobilevision.com/
https://itseez3d.com/
https://www.scandy.co/


 

Workshop: GIS

Saga GIS

[Workflow for basic terrain-analysis in Saga GIS]

01. download Tile (DEM file as gird) on:
https://digital-landscapes.com/academic-work/arctic-studio/
02. go to downloads >>> unzip the folder to Your GIS-Database-Folder


03. open SAGA-GIS
04. go to Tools tab >>> Import/Export – GDAL/OGR
WF-GIS-SC-2017-10-25 10_54_09-SAGA05. Import/Export – GDAL/OGR >>> browse file >>> select .sdat – file in Database-folderWF-GIS-SC-2017-10-25 10_54_16-SAGA
WF-GIS-SC-2017-10-25 10_54_23-GDAL_ Import RasterWF-GIS-SC-2017-10-25 10_54_27-GDAL_ Import RasterWF-GIS-SC-2017-10-25 10_56_10-Open06. switch to Data-tab >>> right click on image >>> “Add to Map”WF-GIS-SC-2017-10-25 10_56_30-SAGA07. switch back to Tools-tab >>> dobble click on Basic Terrain Analysis under the Terrain Analysis – Compound Analysis tabWF-GIS-SC-2017-10-25 10_56_52-SAGA07. select Grid system and Elevation (Input) > create maps (Output) > click OKWF-GIS-SC-2017-10-25 10_57_02-Basic Terrain AnalysisWF-GIS-SC-2017-10-25 10_57_09-Basic Terrain Analysis08. switch back to Data tab >>> right click on images and >>> add to map | or >>> save image to a specific folder location as .png (incl. georeference)WF-GIS-SC-2017-10-25 11_00_00-SAGAWF-GIS-SC-2017-10-25 11_00_11-SAGAWF-GIS-SC-2017-10-25 11_00_20-SAGAWF-GIS-SC-2017-10-25 11_00_43-Save As ImageWF-GIS-SC-2017-10-25 11_00_47-Save Grid as Image...WF-GIS-SC-2017-10-25 11_01_26-SAGA


software: opensource GIS: © Saga-GIS
dataset: © https://kartverket.no/


further links:
http://www.saga-gis.org/en/index.html
https://sourceforge.net/projects/saga-gis/
http://www.qgis.org/en/site/


screenshots & workflow by marc ihle

Maya

[Workflow for basic poly-modeling | Xgen | Boss | Rendering]

Luca_Melchiori_Basic_Modeling_Tutorial
Luca_Melchiori_BOSS_Tutorial
Luca_Melchiori_Xgen_Tutorial


screenshots & workflow by luca melchiori

Rhino & Grasshopper:

BAC 2017-11-29 dtm to single surface [Grasshopper script that generates a single surface from an .asc file


3d-scan (mobil):

http://www.trnio.com/ [for i-phone]
http://scann3d.smartmobilevision.com/
https://itseez3d.com/
https://www.scandy.co/