Species-specific information is important for many tasks related to forest management. We review the use of airborne laser scanning (ALS) and complementary data for providing this information. The main ALS-based information is related to structural features, intensity of the echoes, and waveform parameters, whereas spectral information may be provided by fusing data from different sensors. Various types of classifiers are applied, the current emphasis being in non-linear or otherwise complex techniques. The results are successful with respect to the main species, whereas the overall accuracy depends on the desired level of detail in the classification. We expect fusion approaches combining ALS and especially hyperspectral data to become more common and further improvements by the development of advanced sensor technology
Vauhkonen, J.; Ørka, H.O.; Holmgren, J.; Dalponte, M.; Heinzel, J.; Koch, B. (2014). Tree species recognition based on airborne laser scanning and complementary data sources. In: Forestry applications of airborne laser scanning (editor(s) Maltamo, M.; Næsset, E.; Vauhkonen , J.). Dordrecht ... [et al.]: Springer: 135-156. ISBN: 978-94-017-8662-1 doi: 10.1007/978-94-017-8663-8_7. handle: http://hdl.handle.net/10449/24039
Tree species recognition based on airborne laser scanning and complementary data sources
Dalponte, Michele;
2014-01-01
Abstract
Species-specific information is important for many tasks related to forest management. We review the use of airborne laser scanning (ALS) and complementary data for providing this information. The main ALS-based information is related to structural features, intensity of the echoes, and waveform parameters, whereas spectral information may be provided by fusing data from different sensors. Various types of classifiers are applied, the current emphasis being in non-linear or otherwise complex techniques. The results are successful with respect to the main species, whereas the overall accuracy depends on the desired level of detail in the classification. We expect fusion approaches combining ALS and especially hyperspectral data to become more common and further improvements by the development of advanced sensor technology
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