Abstract. Permafrost is being degraded worldwide due to the change
in external forcing caused by climate change. This has also been shown to
affect the morphodynamics of active rock glaciers. We studied these changes,
depending on the analysis, on nine or eight active rock glaciers,
respectively, with different characteristics in multiple epochs between 1953
and 2017 in Kaunertal, Austria. A combination of historical aerial
photographs and airborne laser scanning data and their derivatives were used
to analyse surface movement and surface elevation change. In general, the
studied landforms showed a significant acceleration of varying magnitude in
the epoch 1997–2006 and a volume loss to variable degrees throughout the
investigation period. Rock glaciers related to glacier forefields showed
significantly higher rates of subsidence than talus-connected ones. Besides,
we detected two rock glaciers with deviating behaviour and one that showed
an inactivation of its terminal part. By analysing meteorological data
(temperature, precipitation and snow cover onset and duration), we were able
to identify possible links to these external forcing parameters. The
catchment-wide survey further revealed that, despite the general trend,
timing, magnitude and temporal peaks of morphodynamic changes indicate a
slightly different sensitivity, response or response time of individual rock
glaciers to fluctuations and changes in external forcing parameters.
We present an online occlusion culling system which computes visibility in parallel to the rendering pipeline. We show how to use point visibility algorithms to quickly calculate a tight potentially visible set (PVS) which is valid for several frames, by shrinking the occluders used in visibility calculations by an adequate amount. These visibility calculations can be performed on a visibility server, possibly a distinct computer communicating with the display host over a local network. The resulting system essentially combines the advantages of online visibility processing and region‐based visibility calculations, allowing asynchronous processing of visibility and display operations. We analyze two different types of hardware‐based point visibility algorithms and address the problem of bounded calculation time which is the basis for true real‐time behavior. Our results show reliable, sustained 60 Hz performance in a walkthrough with an urban environment of nearly 2 million polygons, and a terrain flyover.
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