Improved visibility calculations with tree trunk obstruction modeling from aerial LiDAR

Jayson J. Murgoitio, Rupesh Shrestha, Nancy F. Glenn, Lucas P. Spaete

Research output: Contribution to journalArticlepeer-review

28 Scopus citations

Abstract

Viewshed and line-of-sight are spatial analysis functions used in applications ranging from urban design to archaeology to hydrology. Vegetation data, a difficult variable to effectively emulate in computer models, is typically omitted from visibility calculations or unrealistically simulated. In visibility analyzes performed on a small scale, where calculation distances are a few hundred meters or less, ineffective incorporation of vegetation can lead to significant modeling error. Using an aerial LiDAR (light detection and ranging) data set of a lodgepole pine (Pinus contorta) dominant ecosystem in Idaho, USA, tree obstruction metrics were derived and integrated into a short-range visibility model. A total of 15 visibility plots were set at a micro-scale level, with visibility modeled to a maximum of 50 m from an observation point. Digital photographs of a 1 m2 target set at 5 m increments along three sightline paths for each visibility plot were used to establish control visibility values. Trunk obstructions, derived from mean vegetation height LiDAR data and processed through a series of tree structure algorithms, were factored into visibility calculations and compared to reference data. Results indicate the model calculated using trunk obstructions with LiDAR demonstrated a mean error of 8.8% underestimation of target visibility, while alternative methods using mean vegetation height and bare-earth models have an underestimation of 65.7% and overestimation of 31.1%, respectively.

Original languageEnglish
Pages (from-to)1865-1883
Number of pages19
JournalInternational Journal of Geographical Information Science
Volume27
Issue number10
DOIs
StatePublished - Oct 2013
Externally publishedYes

Funding

This work was supported by the NSF Idaho EPSCoR Program and by the National Science Foundation under award number EPS-0814387 and NOAA OAR Earth Systems Research Laboratory/Physical Sciences Division (ESRL/PSD) Award NA09OAR4600221. LiDAR data for this project were generously shared by the University of Idaho, supported by the NSF Idaho EPSCoR Program. We thank Mr. Tim Leedy for providing field assistance, and Drs. Matt Germino and Ben Crosby for providing valuable comments.

FundersFunder number
NOAA OAR Earth Systems Research Laboratory/Physical Sciences Division
PSDNA09OAR4600221
National Science FoundationEPS-0814387
Earth System Research Laboratories

    Keywords

    • LiDAR
    • line-of-sight
    • vegetation
    • viewshed
    • visibility

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