Puistu esimese rinde võrastiku alguse kõrguse hindamine lennukilidari mõõdistusandmete järgi / A simple model to estimate forest canopy base height from airborne lidar data
By:
References
- Adermann, V. 2010. Development of Estonian National Forest Inventory. - Tomppo, E., Gschwantner, T., Lawrencem, M., McRoberts, R.E. (eds.). National Forest Inventories. Springer, 171-184.
- Anniste, J., Viilup Ü. 2010. Metsa takseertunnuste määramisest laserskanneerimise abil. (Determination of forest characteristics with the laser scanning). - Artiklid ja uurimused, 10, 38-53. Luua Metsanduskool. (In Estonian with English summary).
- Arumäe, T. 2011. Laserskanneri andmete kasutamine takseertunnuste hindamiseks. (Using lidar data to assess forest characteristics). MSc thesis. Metsandus- ja maaehitusinstituut, Eesti Maaülikool. Tartu. 45 pp. (In Estonian with English summary).
- Crutchley, S. 2009. Using LIDAR in Archaeological Contexts: The English Heritage Experience and Lessons Learned. - Heritage, G.L., Large, A.R.G. (eds.). Laser Scanning for the Environmental Sciences. John Wiley & Sons, Ltd., Publication, West Sussex, 180-200.
- Dean, T.J., Cao, Q.V., Roberts, S.D., Evans, D.L. 2009. Measuring heights to crown base and crown median with LiDAR in a mature even-aged loblolly pine stand. - Forest Ecology and Management, 257, 126-133.
- Disney, M.I., Kalogirou, V., Lewis, P., Prieto-Blanco, A., Hancock, S., Pfeifer, M. 2010. Simulating the impact of discrete-return lidar system and survey characteristics over young conifer and broadleaf forests. - Remote Sensing of Environment, 114, 1546-1560.
- Drake, J.B., Dubayah, R.O., Clark, D.B., Knox, R.G., Blair, J.B., Hofton, M.A., Chazdon, R.L., Weishampel, J.F., Prince, S.D. 2002. Estimation of tropical forest structural characteristics using large-footprint lidar. - Remote Sensing of Environment, 79, 30-319.
- Frey, T. 2009. Stand structure links up canopy processes and forest management. - Forestry Studies / Metsanduslikud Uurimused, 51, 40-48.
- Hall, S.A., Burke, I.C., Box, D.O., Kaufmann, M.R., Stoker, J.M. 2005. Estimating stand structure using discrete-return lidar: an example from low density, fire prone ponderosa pine forests. - Forest Ecology and Management, 208, 189-209.
- Heritage, G.L., Large, A.R.G. 2009. Principles of 3D Laser Scanning. - Heritage, G.L., Large, A.R.G. (eds.). Laser Scanning for the Environmental Sciences. John Wiley & Sons, Ltd., Publication, West Sussex, 21-34.
- Heurich, M. 2008. Automatic recognition and measurement of single trees based on data from airborne laser scanning over the richly structured natural forests of the Bavarian Forest National Park. - Forest Ecology and Management, 255, 2416-2433.
- Hodgson, M.E., Jensen, J.R., Schmidt, L., Schill, S., Davis, B. 2003. An evaluation of LIDAR- and IFSAR-derived digital elevation models in leaf-on conditions with USGS level 1 and level 2 DEMs. - Remote Sensing of Environment, 84, 295-308.
- Holmgren, J., Persson, Å. 2004. Identifying species of individual trees using airborne laser scanner. - Remote Sensing of Environment, 90, 415-423.
- Howard, J.A. 1991. Remote Sensing of Forest Resources. Theory and application, London, Chapman & Hall. 420 pp.
- Jennings, S.B., Brown, N.D., Sheil, D. 1999. Assessing forest canopies and understory illumination: canopy closure, canopy cover and other measures. - Forestry, 72, 59−74.
- Kato, A., Moskal, L.M., Schiess, P., Swanson, M.E., Calhoun, D., Stuetzle, W. 2009. Capturing tree crown formation through implicit surface reconstruction using airborne lidar data. - Remote Sensing of Environment, 113, 1148-1162.
- Kiviste, A. 1997. Eesti riigimetsa puistute kõrguse, diameetri ja tagavara vanuseridade diferentsmudel 1984-1993. a. metsakorralduse takseerkirjelduste andmeil. (Difference equations of stand height, diameter and volume depending on stand age and site factors for Estonian state forests on the basis of 1984-1993 forest inventory data). - Teadustööde kogumik, Eesti Põllumajandusülikool, 189, 63-75. (In Estonian with English summary).
- Korhonen, L., Korpela, I., Heiskanen, J., Maltamo, M. 2011. Airborne discrete-return LIDAR data in the estimation of vertical canopy cover, angular canopy closure and leaf area index. - Remote Sensing of Environment, 115, 1065-1080.
- Krigul, T. 1968. Laasimise rakendamisest metsamajanduses. (Practicing pruning in Forest Management). - Eesti Põllumajanduse Akadeemia teaduslike tööde kogumik, 50, 121-137. (In Estonian).
- Krigul, T. 1972. Metsatakseerimine. (Forest mensuration). Tallinn, Valgus. 358 pp. (In Estonian).
- Lang, M. 2010. Metsa katvuse ja liituse hindamine lennukilt laserskanneriga. (Estimation of crown and canopy cover from airborne lidar data). - Forestry Studies / Metsanduslikud Uurimused, 52, 5-17. (In Estonian with English summary).
- Lang, M., Arumäe, T., Anniste, J. 2012. Estimation of main forest inventory variables from spectral and airborne lidar data in Aegviidu test site, Estonia. (Lennukilidari ja spektraalse kaugseireandmestiku kasutamine metsa peamiste takseertunnuste hindamiseks Aegviidu katsealal). - Forestry Studies / Metsanduslikud Uurimused, 56, 27-41.
- Large, A.R.G., Heritage, G.L. 2009. Laser Scanning - Evolution of the Discipline. - Heritage, G.L., Large, A.R.G. (eds.). Laser Scanning for the Environmental Sciences. John Wiley & Sons, Ltd., Publication, West Sussex, 1-20.
- Leica. 2007. Leica ALS50-II. Airborne laser scanner product specifications (760344en-V.07-INT). Leica- Geosystems AG, Heerbrugg, Switzerland. 12 p.
- Liang, S. 2004. Quantitative remote sensing of land surfaces. John Wiley & Sons, Inc. Hoboken, New Jersy. 543 pp.
- Lõhmus, E. 2004. Eesti metsakasvukohatüübid. (Estonian habitation types). Eesti Loodusfoto, Tartu. 80 pp. (In Estonian).
- Marklund, L.G. 1987. Biomass functions for Norway spruce (Picea abies (L.) Karst.) in Sweden. Swedish University of Agricultural Sciences, Department of Forest Survey, Report 43.
- McGaughey, R.J. 2010. FUSION/LDV: Software for LIDAR Data Analysis and Visualization. March 2010 - FUSION, Version 2.80. United States Department of Agriculture Forest Service Pacific Northwest Research Station.
- Næsset, E. 1997a. Determination of mean tree height of forest stands using airborne laser scanner data. - ISPRS Journal of Photogrammetry & Remote Sensing, 52, 49-56.
- Næsset, E. 1997b. Estimating Timber Volume of Forest Stands Using Airborne Laser Scanner Data. - Remote Sensing of Environment, 61, 246-253.
- Næsset, E., Økland, T. 2002. Estimating tree height and tree crown properties using airborne scanning laser in a boreal nature reserve. - Remote Sensing of Environment, 79, 105-115.
- Nilson, A. 2005. Fitness of allometric equation N = aDb and equation N = (a + bD)-2 for modelling the dependence of the number of trees N on their mean diameter D in yield tables. (Allomeetria võrrandi N = aDb ja võrrandi N = (a + bD)-2 sobivusest puude arvu N ja nende keskmise diameetri D seose kirjeldamiseks metsa kasvukäigu tabelites). - Forestry Studies / Metsanduslikud Uurimused, 43, 159-172.
- Nilson, T., Kuusk, A. 2004. Improved algorithm for estimating canopy indices from gap fraction data in forest canopies. - Agricultural and Forest Meteorology, 124, 157-169. Pärt, E. 2013. Personaalne vestlus Keskkonnaagentuuri metsaosakonna juhatajaga. (Interview with The Estonian Environment Agency forest department chairman).
- Patenaude, G., Hill, R.A., Milne, R., Gaveau, D.L.A., Briggs, B.B.J., Dawson, T.P. 2004. Quantifying forest above ground carbon content using LiDAR remote sensing. - Remote Sensing of Environment, 93, 368-380.
- Popescu, S.C., Zhao, K. 2008. A voxel based lidar method for estimating crown base height for deciduous and pine trees. - Remote Sensing of Environment, 112, 767-781.
- Riaño, D., Chuvieco, E., Condés, S., González-Matesanz, J., Ustin, S.L. 2004. Generation of crown bulk density for Pinus sylvestris L. from lidar. - Remote Sensing of Environment, 92, 345-352.
- Vain, A., Yu, X., Kaasalainen, S., Hyypä, J. 2010. Correcting airborne laser scanning intensity data for automatic gain control effect. - IEEE Geoscience and Remote Sensing Letters, 7, 511-514.
- Valentine, H.T., Mäkelä, A. 2005. Bridging processbased and empirical approaches to modeling tree growth. - Tree Physiology, 25, 769-779.
- Vaus, M. 2005. Metsatakseerimine. (Forest mensuration). OÜ Halo kirjastus, Tartu. 178 pp. (In Estonian).
- Wehr, A., Lohr, U. 1999. Airborne laser scanning - an introduction and overview. - ISPRS Journal of Photogrammetry & Remote Sensing, 54, 68-82.
- Yao, W., Krzystek, P., Heurich, M. 2012. Tree species classification and estimation of stem volume and DBH based on single tree extraction by exploiting airborne full-waveform LiDAR data. - Remote Sensing of Environment, 123, 368-380.
- Zarnoch, S.J., Bechtold, W.A., Stolte, K.W. 2004. Using crown condition variables as indicators of forest health. Canadian Journal of Forest Research, 34, 1057−1070
- Zhao, K., Popescu, S., Meng, X., Pang, Y., Agca, M. 2011. Characterizing forest canopy structure with lidar composite metrics and machine learning. - Remote Sensing of Environment, 115, 1978-1996.
Language: English
Page range: 46 - 56
Submitted on: Nov 11, 2013
Accepted on: Mar 5, 2014
Published on: Sep 19, 2014
Published by: Estonian University of Life Sciences
In partnership with: Paradigm Publishing Services
Publication frequency: 2 times per year
Keywords:
Related subjects:
© 2014 Tauri Arumäe, Mait Lang, published by Estonian University of Life Sciences
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.