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Figure 2. Pseudotachylite specimen from Vredefort impact structure. ©2016 Google Inc. Image: Landsat. Map by Hartwig Frimmel. Online version can be rotated,
                         and is available at http://dx.doi.org/10.1130/GSATG257.S2.

GSA TODAY | AUGUST 2016  2016; TurboSquid, 2016]) was used to clean scanning errors and      into Google Earth or Cesium virtual globes unless they evolve in
                         reduce model size. Google Earth literally shreds models with        tandem, but will be accessible from virtual field trip stops via
                         more than 64,000 vertices, so reducing the number of vertices is    HTML hyperlinks to modern browsers (Gemmell, 2015), of which
                         essential for most raw scans. Of the many vertex reduction          the fastest appears to be Waterfox (2016).
                         options in MeshLab, the only one that worked whilst main-
                         taining specimen quality was Quadric Edge Collapse Decimation         VisualSFM (Wu, 2013) is an open-source application with
                         (see the GSA Supplemental Data Repository [footnote 1]). The        enhanced SfM editing capabilities; however, it requires
                         model was exported from MeshLab in COLLADA format for use           command-line competency and is not for the faint-of-heart.
                         with Google Earth.                                                  PhotoScan from Agisoft (2016) is a more popular choice (Pitts et
                                                                                             al., 2014; Shackleton, 2015) and whilst not free, is deeply
                         MULTI-VIEW STEREO AND STRUCTURE FROM MOTION                         discounted for education. Bemis et al. (2014) review other SfM
                                                                                             methodologies, including UAV outcrop mapping. Probably the
                           The most exciting recent modeling innovations are in the field    easiest SfM application for beginners, however, is Autodesk’s
                         of multi-view stereo (MVS) photogrammetry. Se and Jasiobedzki       123D Catch.
                         (2008) used video imagery from an unmanned vehicle and the
                         Simultaneous Localization and Mapping (SLAM) algorithm to             Schott (2012) modeled mud cracks using Autodesk’s original
                         monitor an active mine. An algorithm called Structure from          SfM application, PhotoFly—since renamed 123D Catch—which is
                         Motion (SfM) uses multiple still images from a smartphone or        freely available from Autodesk (2016; there is a premium version
                         other digital camera to build 3D models. Snavely et al. (2008) and  with a US$10 monthly fee). Karabinos (2013) used it to create
                         Enqvist et al. (2011) developed non-sequential SfM, enabling        outcrop and boulder models. De Paor (2013) described the process
                         model construction from image searches (Schonberger et al.,         of porting 123D Catch models to Google Earth by processing
                         2015). However, Sakai et al. (2011) require only two photographs,   them through MeshLab. Bourke (2015) used SfM to model an
                         and Gilardi et al. (2014) created 3D beach pebbles from a single    indigenous Australian rock shelter; Lucieer et al. (2013) mapped
                         orthogonal photograph.                                              landslide displacement using SfM and UAV photography; and
                                                                                             MCG3D (2015) made particularly good use of annotation capa-
                           The bleeding edge of SfM technology is Autodesk® Memento          bilities in a geo-tourism application.
                         (2016), which at the time of this writing was in public beta-test
                         phase. It was slated for commercial release in May 2016 under the     Figure 3 shows a mantle xenolith from Salt Lake (Āliamanu)
                         new name Autodesk® ReMake. It promises to accommodate               Crater, adjacent to Pearl Harbor, Hawaii. The verilith was
                         billions of vertices with no limit on the number or resolution of   collected by Michael Bizimis, University of South Carolina, and
                         images. Such models will doubtless be too large to embed directly   mailed to the author for SfM modeling. Because the most impor-
                                                                                             tant part of this specimen is the saw-cut surface, it was possible to

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