3D Data Capture and Prototyping with 123D Catch and Make (AutoDesk) Sculpture courtesy Wang Xiangang Beijing, China May 2012.

3D Data Capture and Prototyping with 123D Catch and Make (AutoDesk)

Sculpture courtesy Wang Xiangang Beijing, China

May 2012

123D Catch (AutoDesk)Using a standard DSLR camera, one can create a 3D model from multiple photographs. This is one of 50 images taken from multiple angles.

Sculpture courtesy Wang Xian Gang

123D Catch (AutoDesk)Software generates model from images taken from many camera positions. Each white camera below indicates the actual position from which a photograph was taken.

Sculpture courtesy Wang Xian Gang

123D Catch (AutoDesk)3D mesh of scene created from 2D photographs. Note strip of photos at base of image.

Sculpture courtesy Wang Xian Gang

Geomagic123D Catch model exported as .obj to Geomagic for final polygon repair and diagnosis.

Sculpture courtesy Wang Xian Gang

RhinoCAM Watertight .dxf model exported from Geomagic to RhinoCAM for CNC milling.

Sculpture courtesy Wang Xian Gang

RhinoCAM Simulation of CNC milling (roughing stage)

Sculpture courtesy Wang Xian Gang

RhinoCAM Simulation of CNC milling (roughing stage complete)

Sculpture courtesy Wang Xian Gang

RhinoCAM Simulation of CNC milling (final smoothing stage nearly complete)

Sculpture courtesy Wang Xian Gang

123D Make (AutoDesk) Method of creating sculpture from multiple layers (76 layers, each 3.175 mm thick)

Sculpture courtesy Wang Xian Gang

123D Make (AutoDesk) Method of creating sculpture from multiple stacked layers (111 layers, each 1.59 mm thick)

Sculpture courtesy Wang Xian Gang

123D Make (AutoDesk) Method of creating sculpture from 693 stacked layers (layers are .010 inches or .25 mm thick)

Sculpture courtesy Wang Xian Gang

123D Make (AutoDesk) Method of creating sculpture from multiple intersecting planes

Sculpture courtesy Wang Xian Gang