Actions for Visualizing Distributions from Multi-Return Lidar Data to Understand Forest Structure

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Visualizing Distributions from Multi-Return Lidar Data to Understand Forest Structure

Author
Kao, David L.
Published
February 17, 2004.
Physical Description
1 electronic document
Additional Creators
Luo, Alison, Pang, Alex, Dungan, Jennifer, and Kramer, Marc
Online Version

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Summary
Spatially distributed probability density functions (pdfs) are becoming relevant to the Earth scientists and ecologists because of stochastic models and new sensors that provide numerous realizations or data points per unit area. One source of these data is from multi-return airborne lidar, a type of laser that records multiple returns for each pulse of light sent towards the ground. Data from multi-return lidar is a vital tool in helping us understand the structure of forest canopies over large extents. This paper presents several new visualization tools that allow scientists to rapidly explore, interpret and discover characteristic distributions within the entire spatial field. The major contribution from-this work is a paradigm shift which allows ecologists to think of and analyze their data in terms of the distribution. This provides a way to reveal information on the modality and shape of the distribution previously not possible. The tools allow the scientists to depart from traditional parametric statistical analyses and to associate multimodal distribution characteristics to forest structures. Examples are given using data from High Island, southeast Alaska.
Other Subject(s)
Collection
NASA Technical Reports Server (NTRS) Collection.
Note
Document ID: 20040084571.
12th International Conference on Geoinformatics; 7-9 Jun. 2004; Gavle; Sweden.
Terms of Use and Reproduction
No Copyright.
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