Polyline averaging using distance surfaces: A spatial hurricane climatology

• Published in: Computers & geosciences Vol. 52; pp. 126 - 131
• Main Authors: Scheitlin, Kelsey N., Mesev, Victor, Elsner, James B.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.03.2013
• Subjects: algorithms; Climate study; climatology; coasts; computers; Distance surfaces; financial economics; Geovisualization; humans; Hurricane; hurricanes; Linear tracks; Texas; Texas; Distance surfaces; Linear tracks; Hurricane; Geovisualization; Climate study
• ISSN: 0098-3004; 1873-7803
• DOI: 10.1016/j.cageo.2012.10.012

The US Gulf states are frequently hit by hurricanes, causing widespread damage resulting in economic loss and occasional human fatalities. Current hurricane climatologies and predictive models frequently omit information on the spatial characteristics of hurricane movement—their linear tracks. We investigate the construction of a spatial hurricane climatology that condenses linear tracks to one-dimensional polylines. With the aid of distance surfaces, an average hurricane track is calculated by summing polylines as part of a grid-based algorithm. We demonstrate the procedure on a particularly vulnerable coastline around the city of Galveston in Texas, where the tracks of the closest storms to Galveston are also weighted by an inverse distance function. Track averaging is also applied as a means of interpolating possible paths of historical storms where records are sporadic observations, and sometimes anecdotal. We offer the average track as a convenient regional summary of expected hurricane movement. The average track, together with other hurricane attributes, also provides a means to assess the expected local vulnerability of property and environmental damage. ► Hurricane tracks can be represented as simple one-dimensional polylines. ► Average hurricane track condenses multiple tracks into a convenient single-track summary. ► Average tracks may complete historical records by helping fill gaps in missing years. ► Averaging identifies the most vulnerable coastal strips that may be damaged by hurricanes.