Still Frames (examples of my programming)

In reverse chronological order--please scroll down.

2006. Projection of LiDAR points onto virtual film to identify which reflections belong to which trees--virtual camera can be repositioned to make LiDAR clouds overlay foliage clumps precisely. Needs realtime movement facility.

2005. Single, mathematically correctly shaped E. regnans tree (derived allometric), with buttress adapted to slope, programmed in C++ and VRMLscript. For animation of growth see animation page. Taper function and shape modelling published in FBMIS.

2004. Forest stand of several mathematically correctly shaped E. regnans trees (derived allometric), with buttress adapted to slope, programmed in C++ and VRMLscript on a PC. Presented at the UMR-AMAP-CIRAD Functional-Structural Plant Models conference in Montpellier (France) 7-11 June 2004 (ed. C. Godin et al.). For fly-through of stand see animation page.

1999. Forecasting of urban development with land release and adjacency influences. Programmed in C++, VRMLScript and Javascript on a Silicon Graphics IRIS, interactive web interface with pop-up window of location temporal change data. Published by Bell, Dean & Blake (2000) in CEUS after the conference in Venice.

1988 Solid from surfaces.

3D-CAD programming in FORTRAN on a Unix desktop for Qikdraw P/L.

1987, ETSA Building, 1 ANZAC Highway, Adelaide,

from surfaces and object library.

3D-CAD programming in FORTRAN on a Unix desktop for Qikdraw P/L.

1985. Program 'ORTEP-II' was modified to allow atom shading and polyhedra with overlap correction, programmed in FORTRAN on a CDC-Cyber mainframe. Disordered anilinium ion position between silicate layers in vermiculite, published in Clays & Clay minerals and as Fig. 6.5 in my PhD thesis.

1985. 3D electron density from program SHELX was sliced at any crystallographic plane and contoured, programming in FORTRAN on a CDC-Cyber mainframe, map published in Clays & Clay minerals and as Fig. 6.4 in my PhD thesis.

1984. Program 'ORTEP-II' was modified to allow polyhedra with overlap correction, in FORTRAN on a CDC-Cyber. Fig. 2.7 from my PhD thesis. Here showing uranium-oxygen/hydroxyl polyhedra movements for the beta- to alpha- phase transformation in uranyl-hydroxide, UO₂(OH)₂.

1983. 3D view of a crystal with overlap correction by program 'COATI' for a crystal after martensitic transformation, with orientation relation between the two set by the habit plane, programmed in FORTRAN on a CDC-Cyber. Fig. 7.6 from my PhD thesis. Program 'MRTNST' was also modified from the cubic version to handle all 7 crystallographic lattice types. Here showing the beta- to alpha- phase transformation in uranyl-hydroxide, UO₂(OH)₂.