Automated Avalanche Terrain Exposure Scale (ATES) mapping - local validation and optimization in western Canada
Permanent lenke
https://hdl.handle.net/10037/34732Dato
2024-03-20Type
Journal articleTidsskriftartikkel
Peer reviewed
Sammendrag
The Avalanche Terrain Exposure Scale (ATES) is
a system for classifying mountainous terrain based on the
degree of exposure to avalanche hazard. The intent of ATES
is to improve backcountry recreationist’s ability to make informed risk management decisions by simplifying their terrain analysis. Access to ATES has been largely limited to
manually generated maps in high-use areas due to the cost
and time to generate ATES maps. Automated ATES (AutoATES) is a chain of geospatial models which provides a
path towards developing ATES maps on large spatial scales
for relatively minimal cost compared to manual maps. This
research validates and localizes AutoATES using two ATES
benchmark maps which are based on independent ATES
maps from three field experts. We compare the performance
of AutoATES in two study areas with unique snow climate
and terrain characteristics: Connaught Creek in Glacier National Park, British Columbia, Canada, and Bow Summit in
Banff National Park, Alberta, Canada. Our results show that
AutoATES aligns with the ATES benchmark maps in 74.5 %
of the Connaught Creek study area and 84.4 % of the Bow
Summit study area. This is comparable to independently developed manual ATES maps which on average align with the
ATES benchmark maps in 76.1 % of Connaught Creek and
84.8 % of Bow Summit. We also compare a variety of DEM
types (lidar, stereo photogrammetry, Canadian National Topographic Database) and resolutions (5–26 m) in Connaught
Creek to investigate how input data type affects AutoATES
performance. Overall, we find that DEM resolution and type
are not strong indicators of accuracy for AutoATES, with a
map accuracy of 74.5 % ± 1 % for all DEMs. This research
demonstrates the efficacy of AutoATES compared to expert
manual ATES mapping methods and provides a platform for
large-scale development of ATES maps to assist backcountry
recreationists in making more informed avalanche risk management decisions.
Forlag
Copernicus PublicationsSitering
Sykes, Larsen, Haegeli, Statham. Automated Avalanche Terrain Exposure Scale (ATES) mapping - local validation and optimization in western Canada. Natural Hazards and Earth System Sciences. 2024;24(3):947-971Metadata
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Copyright 2024 The Author(s)