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• W2146751368 abstract "Abstract Plot-scale measurements have been the foundation for forest surveys and reporting for over 200 years. Through recent integration with airborne and satellite remote sensing, manual measurements of vegetation structure at the plot scale are now the basis for landscape, continental and international mapping of our forest resources. The use of terrestrial laser scanning (TLS) for plot-scale measurement was first demonstrated over a decade ago, with the intimation that these instruments could replace manual measurement methods. This has not yet been the case, despite the unparalleled structural information that TLS can capture. For TLS to reach its full potential, these instruments cannot be viewed as a logical progression of existing plot-based measurement. TLS must be viewed as a disruptive technology that requires a rethink of vegetation surveys and their application across a wide range of disciplines. We review the development of TLS as a plot-scale measurement tool, including the evolution of both instrument hardware and key data processing methodologies. We highlight two broad data modelling approaches of gap probability and geometrical modelling and the basic theory that underpins these. Finally, we discuss the future prospects for increasing the utilisation of TLS for plot-scale forest assessment and forest monitoring." @default.
• W2146751368 created "2016-06-24" @default.
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• W2146751368 date "2015-10-27" @default.
• W2146751368 modified "2023-10-13" @default.
• W2146751368 title "Terrestrial Laser Scanning for Plot-Scale Forest Measurement" @default.
• W2146751368 cites W1179448114 @default.
• W2146751368 cites W1272693108 @default.
• W2146751368 cites W1625021374 @default.
• W2146751368 cites W1963641565 @default.
• W2146751368 cites W1971304633 @default.
• W2146751368 cites W1972476081 @default.
• W2146751368 cites W1975635638 @default.
• W2146751368 cites W1977615264 @default.
• W2146751368 cites W1980089263 @default.
• W2146751368 cites W1980375943 @default.
• W2146751368 cites W1980996887 @default.
• W2146751368 cites W1987610258 @default.
• W2146751368 cites W1993272489 @default.
• W2146751368 cites W1996585943 @default.
• W2146751368 cites W2005827599 @default.
• W2146751368 cites W2009517297 @default.
• W2146751368 cites W2012196540 @default.
• W2146751368 cites W2012569450 @default.
• W2146751368 cites W2015974437 @default.
• W2146751368 cites W2017454686 @default.
• W2146751368 cites W2028793303 @default.
• W2146751368 cites W2030080266 @default.
• W2146751368 cites W2030939714 @default.
• W2146751368 cites W2036852440 @default.
• W2146751368 cites W2047051170 @default.
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• W2146751368 cites W2056352050 @default.
• W2146751368 cites W2060176133 @default.
• W2146751368 cites W2068182092 @default.
• W2146751368 cites W2069551616 @default.
• W2146751368 cites W2071635229 @default.
• W2146751368 cites W2076970990 @default.
• W2146751368 cites W2077944642 @default.
• W2146751368 cites W2091123161 @default.
• W2146751368 cites W2097039623 @default.
• W2146751368 cites W2097688980 @default.
• W2146751368 cites W2101748122 @default.
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• W2146751368 cites W2109777280 @default.
• W2146751368 cites W2113521108 @default.
• W2146751368 cites W2113748593 @default.
• W2146751368 cites W2114191733 @default.
• W2146751368 cites W2114506652 @default.
• W2146751368 cites W2116567851 @default.
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• W2146751368 cites W2127243393 @default.
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• W2146751368 cites W2152424523 @default.
• W2146751368 cites W2154178829 @default.
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• W2146751368 cites W2163478020 @default.
• W2146751368 cites W2163865297 @default.
• W2146751368 cites W2165848177 @default.
• W2146751368 cites W2167227521 @default.
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• W2146751368 doi "https://doi.org/10.1007/s40725-015-0025-5" @default.
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