Tesis sobre el tema "Leaf area estimation"
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Wang, Dongdong. "Improving satellite Leaf Area Index estimation based on various integration methods". College Park, Md.: University of Maryland, 2009. http://hdl.handle.net/1903/9872.
Texto completoThesis research directed by: Dept. of Geography. Title from t.p. of PDF. Includes bibliographical references. Published by UMI Dissertation Services, Ann Arbor, Mich. Also available in paper.
Winkler, Tobias. "Empirical models for grape vine leaf area estimation on cv. Trincadeira". Master's thesis, ISA-UL, 2016. http://hdl.handle.net/10400.5/13008.
Texto completoEstimating a Vineyard’s leaf area is of great importance when evaluating the productive and quality potential of a vineyard and for characterizing the light and thermal microenvironments of grapevine plants. The aim of the present work was to validate the Lopes and Pinto method for determining vineyard leaf area in the vineyards of Lisbon’s wine growing region in Portugal, with the typical local red grape cultivar Trincadeira, and to improve prediction quality by providing cultivar specific models. The presented models are based on independent datasets of two consecutive years 2015 and 2016. Fruiting shoots were collected and analyzed during all phenological stages. Primary leaf area of shoots is estimated by models using a calculated variable obtained from the average of the largest and smallest primary leaf area multiplied by the number of primary leaves, as presented by Lopes and Pinto (2005). Lateral Leaf area additionally uses the area of the biggest lateral leaf as predictor. Models based on Shoot length and shoot diameter and number of lateral leaves were tested as less laborious alternatives. Although very fast and easy to assess, models based on shoot length and diameter were not able to predict variability of lateral leaf area sufficiently and were susceptible to canopy management. The Lopes and Pinto method is able to explain a very high proportion of variability, both in primary and lateral leaf area, independently of the phenological stage, as well as before and after trimming. They are inexpensive, universal, practical, non-destructive methods which do not require specialized staff or expensive equipment
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Phinopoulos, Victoras Georgios. "Estimation of leaf area in grapevine cv. Syrah using empirical models". Master's thesis, ISA/UL, 2014. http://hdl.handle.net/10400.5/8631.
Texto completoEmpirical models for the estimation of the Area of single Primary and Lateral leaves, and total Primary and Lateral Leaf Area of a shoot, are presented for the grapevine cv. Syrah (Vitis vinifera L.). The Area of single Leaves is estimated with models using the sum of the lengths of the two lateral veins of each leaf, with logarithmic transformation of both variables. Separate models are proposed for Primary and Lateral Leaves. Models based on the Lopes and Pinto (2005) method, using Mean Leaf Area multiplied by the number of Leaves as predictors, are proposed for the estimation for Total Primary and Lateral Leaf Area. It is suggested, that failure to locate the Largest Leaf of a Primary or Lateral shoot, would not significantly impair the accuracy of the models. All models explain a very high proportion of variability in Leaf Area and they can by applied in research and viticulture for the frequent estimation of Leaf Area in any phase of the growing cycle. They are inexpensive, practical, non-destructive methods which do not require specialised staff or expensive equipment
Fang, Hongliang. "Improving the estimation of leaf area index from multispectral remotely sensed data". College Park, Md. : University of Maryland, 2003. http://hdl.handle.net/1903/304.
Texto completoThesis research directed by: Geography. Title from t.p. of PDF. Includes bibliographical references. Published by UMI Dissertation Services, Ann Arbor, Mich. Also available in paper.
Pacheco, Anna. "Contribution of hyperspectral remote sensing to the estimation of leaf area index in the context of precision agriculture". Thesis, University of Ottawa (Canada), 2004. http://hdl.handle.net/10393/26734.
Texto completoBanskota, Asim. "The discrete wavelet transform as a precursor to leaf area index estimation and species classification using airborne hyperspectral data". Diss., Virginia Tech, 2011. http://hdl.handle.net/10919/39188.
Texto completoPh. D.
Kandasamy, Sivasathivel. "Leaf Area Index (LAI) monitoring at global scale : improved definition, continuity and consistency of LAI estimates from kilometric satellite observations". Phd thesis, Université d'Avignon, 2013. http://tel.archives-ouvertes.fr/tel-00967319.
Texto completoMazumdar, Deepayan Dutta. "Multiangular crop differentiation and LAI estimation using PROSAIL model inversion". Thesis, Lethbridge, Alta. : University of Lethbridge, Dept. of Geography, c2011, 2011. http://hdl.handle.net/10133/3103.
Texto completoxiii, 161 leaves : ill., map ; 29 cm
Soma, Maxime. "Estimation de la distribution spatiale de surface et de biomasse foliaires de couverts forestiers méditerranéens à partir de nuages de points acquis par un LIDAR terrestre". Thesis, Aix-Marseille, 2019. http://www.theses.fr/2019AIXM0111.
Texto completoTo better understand functioning of forest ecosystems at fine scale, ecophysiological model attempt to include energy and material fluxes. Such exchanges depend on the distribution of vegetation. Hence, these models require a tridimensional (3D) description of vegetation structure, at a level of detail which can only be retrieve with remote sensing at large scale. Terrestrial LiDAR (Light Detection And Ranging) have a great potential to provide 3D description of vegetation elements in canopy. Previous studies established promising relations between the point density and quantity of vegetation. This work develop these statistical methods, focusing on source of errors. Systematic biases are corrected at branch, tree and plot scales. This study relies on both numerical simulations and field experiments. First, we test estimators on branches in laboratory conditions. On this natural vegetation, estimators are sensitive to voxel size and distance from instrument with phase-shift LiDAR. Developed corrections from this branch experiment are valid at tree scale. However, difficulties arising from sampling limitations due to occlusion and instrument sampling pattern cause negative biases in dense areas. Specific investigations are conducted to identify source of errors and to optimize multiscan estimations. A statistical method called LAD-kriging, based on spatial correlation within vegetation, improves local accuracy of estimations and limits underestimations due to occlusion. The tools produced in this work allow to map vegetation at plot scale by providing unbiased estimator of leaf area. Some of these tools are currently implemented within open access Computree software
Pinjuv, Guy L. "Hybrid forest modelling of Pinus Radiata D. Don in Canterbury, New Zealand". Thesis, University of Canterbury. New Zealand School of Forestry, 2006. http://hdl.handle.net/10092/1102.
Texto completoHu, Ronghai. "Estimation cohérente de l'indice de surface foliaire en utilisant des données terrestres et aéroportées". Thesis, Strasbourg, 2018. http://www.theses.fr/2018STRAD021/document.
Texto completoLeaf Area Index (LAI), defined as one half of the total leaf area per unit ground surface area, is a key parameter of vegetation structure for modeling Earth's ecological cycle and its acquisition accuracy always has the need and opportunity for improvement. Active laser scanning provides an opportunity for consistent LAI retrieval at multiple scales because terrestrial laser scanning (TLS) and airborne laser scanning (ALS) have the similar physical mechanism. However, the three-dimensional information of laser scanning is not fully explored in current methods and the traditional theories require adaptation. In this thesis, the path length distribution model is proposed to model the clumping effect, and it is applied to the TLS and ALS data. The method of obtaining the path length distribution of different platforms is studied, and the consistent retrieval model is established. This method is found to improve the individual tree measurement in urban areas and LAI mapping in natural forest, and its results at consistent at different scales. The model is expected to facilitate the consistent retrieval of the forest leaf area index using ground and airborne data
Jiang, Jingyi. "Retrieving leaf and canopy characteristics from their radiative properties using physically based models : from laboratory to satellite observations Estimation of leaf traits from reflectance measurements: comparison between methods based on vegetation indices and several versions of the PROSPECT model a model of leaf optical properties accounting for the differences between upper and lower faces Speeding up 3D radiative transfer simulations: a physically based approximation of canopy reflectance dependency on wavelength, leaf biochemical composition and soil reflectance Effective GAI for crops is best estimated from reflectance observations as compared to GAI and LAI Optimal learning for GAI and chlorophyll estimation from 1D and 3D radiative transfer model inversion: the case of wheat and maize crops observed by Sentinel2". Thesis, Avignon, 2019. http://www.theses.fr/2019AVIG0708.
Texto completoMeasuring leaf and canopy characteristics from remote sensing acquisitions is an effective and non destructive way to monitor crops both for decision making within the smart agriculture practices or for phenotyping under field conditions to improve the selection efficiency. With the advancement of computer computing power and the increasing availability of high spatial resolution images, retrieval methods can now benefit from more accurate simulations of the Radiative Transfer (RT) models within the vegetation. The objective of this work is to propose and evaluate efficient ways to retrieve leaf and canopy characteristics from close and remote sensing observations by using RT models based on a realistic description of the leaf and canopy structures. At the leaf level, we first evaluated the ability of the different versions of the PROSPECT model to estimate biochemical variables like chlorophyll (Cab), water and dry matter content. We then proposed the FASPECT model to describe the optical properties differences between the upper and lower leaf faces by considering a four-layer system. After calibrating the specific absorption coefficients of the main absorbing material, we validated FASPECT against eight measured ground datasets. We showed that FASPECT simulates accurately the reflectance and transmittance spectra of the two faces and overperforms PROSPECT for the upper face measurements. Moreover, in the inverse mode, the dry matter content estimation is significantly improved with FASPECT as compared to PROSPECT. At the canopy level, we used the physically based and unbiased rendering engine, LuxCoreRender to compute the radiative transfer from a realistic 3D description of the crop structure. We checked its good performances by comparison with the state of the art 3D RT models using the RAMI online model checker. Then, we designed a speed-up method to simulate canopy reflectance from a limited number of soil and leaf optical properties. Based on crop specific databases simulated from LuxCoreRender for wheat and maize and crop generic databases simulated from a 1D RT model, we trained some machine learning inversion algorithms to retrieve canopy state variables like Green Area Index GAI, Cab and Canopy Chlorophyll Content (CCC). Results on both simulations and in situ data combined with SENTINEL2 images showed that crop specific algorithms outperform the generic one for the three variables, especially when the canopy structure breaks the 1D turbid medium assumption such as in maize where rows are dominant during a significant part of the growing season
Ebodaghe, Denis Abumere. "Estimating daily green leaf area index for corn in Virginia". Diss., Virginia Polytechnic Institute and State University, 1986. http://hdl.handle.net/10919/74731.
Texto completoPh. D.
Mohammadi, Vahid. "Design, Development and Evaluation of a System for the Detection of Aerial Parts and Measurement of Growth Indices of Bell Pepper Plant Based on Stereo and Multispectral Imaging". Electronic Thesis or Diss., Bourgogne Franche-Comté, 2022. http://www.theses.fr/2022UBFCK109.
Texto completoDuring the growth of plants, monitoring them brings much benefits to the producers. This monitoring includes the measurement of physical properties, counting plants leaves, detection of plants and separation of them from weeds. All these can be done different techniques, however, the techniques are favorable that are non-destructive because plant is a very sensitive creature that any manipulation can put disorder in its growth or lead to losing leaves or branches. Imaging techniques are of the best solutions for plants growth monitoring and geometric measurements. In this regard, in this project the use of stereo imaging and multispectral data was studied. Active and passive stereo imaging were employed for the estimation of physical properties and counting leaves and multispectral data was utilized for the separation of crop and weed. Bell pepper plant was used for imaging measurements for a period of 30 days and for crop/weed separation, the spectral responses of bell pepper and five weeds were measured. Nine physical properties of pepper leaves (i.e. main leaf diameters, leaf area, leaf perimeter etc.) were measured using a scanner and was used as a database and also for comparing the estimated values to the actual values. The stereo system consisted of two LogiTech cameras and a video projector. First the stereo system was calibrated using sample images of a standard checkerboard in different position and angles. The system was controlled using the computer for turning a light line on, recording videos of both cameras while light is being swept on the plant and then stopping the light. The frames were extracted and processed. The processing algorithm first filtered the images for removing noise and then thresholded the unwanted pixels of environment. Then, using the peak detection method of Center of Mass the main and central part of the light line was extracted. After, the images were rectified by using the calibration information. Then the correspondent pixels were detected and used for the 3D model development. The obtained point cloud was transformed to a meshed surface and used for physical properties measurement. Passive stereo imaging was used for leaf detection and counting. For passive stereo matching six different matching algorithms and three cost functions were used and compared. For spectral responses of plants, they were freshly moved to the laboratory, leaves were detached from the plants and placed on a blur dark background. Type A lights were used for illumination and the spectral measurements were carried out using a spectroradiometer from 380 nm to 1000 nm. To reduce the dimensionality of the data, PCA and wavelet transform were used. Results of this study showed that the use of stereo imaging can propose a cheap and non-destructive tool for agriculture. An important advantage of active stereo imaging is that it is light-independent and can be used during the night. However, the use of active stereo for the primary stage of growth provides acceptable results but after that stage, the system will be unable to detect and reconstruct all leaves and plant's parts. Using ASI the R2 values of 0.978 and 0.967 were obtained for the estimation leaf area and perimeter, respectively. The results of separation of crop and weeds using spectral data were very promising and the classifier—which was based on deep learning—could completely separate pepper from other five weeds
Bowyer, P. "Estimating leaf area index in savanna vegetation using remote sensing and inverse modelling". Thesis, University of Salford, 2005. http://usir.salford.ac.uk/2234/.
Texto completoSouza, Vanessa de Arruda. "Utilização de técnicas de sensoriamento remoto para a estimativa da evapotranspiração em uma cultura de arroz irrigado". reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2013. http://hdl.handle.net/10183/72454.
Texto completoThe Evapotranspiration (ET) is a natural phenomenon that directly causes changes in the local and global climate, having a great hydrologic and meteorological importance. This work has as objective to estimate ET through the Penman-Monteith method and compare with the estimated results by the Eddy Covariance Method. The LAI (Leaf Area Index) data for the vegetation description were obtained from the MODIS sensor and from field measurements of the SulFlux network. The field of study of this research had place in the city of Cachoeira do Sul – Rio Grande do Sul state, in a irrigated rice crop property. The study period is referred to the crop that extended from October 2010 to March 2011. The results showed that the LAI and the ET estimates have a similar temporal behavior. The comparison between the results of ET estimates, using data obtained in field and estimated through remote sensing, were satisfactory. However, the result that showed the highest values for ET was from the MODIS sensor. This way, it can be concluded that the ET estimate, through vegetation data, obtained by remote sensing techniques, are an alternative for the ET methods that use vegetation field measured data.
Peduzzi, Alicia. "Estimating forest attributes using laser scanning data and dual-band, single-pass interferometric aperture radar to improve forest management". Diss., Virginia Tech, 2011. http://hdl.handle.net/10919/39456.
Texto completoPh. D.
Chiang, Yang-Sheng. "Estimating landscape level leaf area index and net primary productivity using field measurements, satellite imagery, and a 2-D ecophysiological model". Virtual Press, 2004. http://liblink.bsu.edu/uhtbin/catkey/1294241.
Texto completoDepartment of Natural Resources and Environmental Management
Jaboinski, Fernando Roberto. "Avaliação de produtos do sensor MODIS para aplicações na estimativa de parâmetros biofísicos da cultura da soja no estado do Rio Grande do Sul". reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2011. http://hdl.handle.net/10183/36964.
Texto completoEstimates of soybean yield are useful information that can assist institutions in decisions related by commercial policies. It is considered also in financing of production and agricultural insurance. Mathematical models, which are based in clime plant relationship known as Agrometeorological Models, can provide an estimate for grain yield through meteorological and biophysical data correlated with the culture, as an example: the LAI (Leaf Area Index) of soybean can be related with the Kc (Culture's coefficient) to estimate the phenological stage, and this information, applied to model's parameters. The main objective of this work was evaluated of possibilities of MODIS's images, in estimation of biophysical parameters, which are applicable in yield's modeling for soybean. The studying area was a portion of northern of State of Rio Grande do Sul. Were obtained images from LAI, MOD15A2, and vegetation indexes, NDVI (Normalized Difference Vegetation Index) and NDWI (Normalized Difference Water Index) from MOD13Q1 product. Were analyzed two harvests: 2003/04 and 2004/05. The length of time for harvest was 15th October to 30th April. Soybean's areas was detected and masks were applied on the images. Firstly, were compared the means between LAI, MOD15A2 and two different methodologies of LAI's estimation based on relationship with NDVI. The scatter plots were discussed between LAI, MOD15A2 and other methodologies, for five key-dates. The culture's coefficient Kc_1 was estimated through LAI, MOD15A2, according to Martorano (2007), and compare with Kc_2, which were obtained from fitted culture's coefficient by Matzenauer (2002). The water balance were calculated aiming the index for Plant's water satisfaction needs (ISNA), which, ISNA_1 has considered the Kc_1, and ISNA_2, the Kc_2. Correlation indexes were obtained between ISNA_1 and 2, and vegetation indexes NDVI and NDWI, for the whole culture's cycle and specific periods of low ISNA. As results, LAI, MOD15A2, has presented coherence with soybean's cycle progress, however, as a rule, it presents lower values, comparing to Fontana et al. (1992) and Martorano (2007). Even now as a Kc's estimator, Kc_1 has presented lower variation's coefficient compared to Kc_2. Was observed also overrated in Kc_1 between the sowing to maximum development, and after, underestimated, what provokes periods of accented hydric deficiency during flowering and grain forming stages, in both harvests. Now, as to correlation's indexes, we observed more significance correlations between both vegetation's indexes and ISNA_1. This way, these results has indicated that remote sensing images can provide accurate estimates of IAF as much as Kc, and also indicate the hydric conditions of plants. It is recommended to improve the LAI's mean values on the images, exploring the relationship with NDVI, looking for adequate values for the case of soybean.
Zhao, Kaiguang. "Estimating forest structural characteristics with airborne lidar scanning and a near-real time profiling laser systems". [College Station, Tex. : Texas A&M University, 2008. http://hdl.handle.net/1969.1/ETD-TAMU-2964.
Texto completoSILVA, Anderson Santos da. "Estimativa de produtividade da cana-de-açúcar utilizando dados agrometeorológicos e imagens do sensor MODIS". Universidade Federal Rural de Pernambuco, 2016. http://www.tede2.ufrpe.br:8080/tede2/handle/tede2/5319.
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES
Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq
This research is based on estimated and observed agricultural productivity in an area of commercial sugarcane production located at São Francisco’s Agroindustry – AGROVALE S.A., Juazeiro – BA, Brazilian northeast. The new yield estimation models were obtained by multiple linear regression, in which the inputs variables were: irrigation, precipitation, average air temperature, vapor saturation deficit of the air, photoperiod, normalized difference vegetation index (NDVI), leaf area index (LAI) and fractional soil cover (FC). To obtain these models, it was used the statistics program Statística version 10. Futhermore, the meteorological data were obtained from an automatic weather station located at the Farm Brasil Uvas, Juazeiro – BA such as: precipitation (mm), temperature (°C), relative humidity (%), evapotranspiration (mm), current vapor pressure (hPa) and saturation vapor pressure (hPa). The crop yield data and parameters related to crop development were obtained from AGROVALE Agriculture Department. The spectral data, NDVI, IAF and FC, were extracted from MODIS sensor images (Spectroradiometer Imager Moderate Resolution). The data used to models validation were obtained from the same sources previously mentioned. The data were analyzed by mean absolute error (DMA) and mean relative error (DMR). The comparison of yield observed and estimated values showed that the spectral agrometeorological model (SAM) presented the lower and better mean relative error (DMR) with a mean variation of 0.34 %, followed by agrometeorological model with a mean variation of 1.37 % and, finally, the spectral model presented larger mean relatives errors in comparison with other two models, showing a mean variation of 6.58%, approaching AGROVALE’s technicians estimation that presented a mean variation of 6.75%. At the validation’s model for the 2004/2005 crop year, the spectral surpassed the agrometeorological and agrometeorological spectral with average relative errors of 5.05%, while for other models the difference were 15.11% and 16.19%, reflecting a productivity of 93.05 t ha-1 versus 83.19 t ha-1 and 82.13 t ha-1 of agrometeorological and agrometeorologicalspectral models, respectively, for an observed yield of 98 t ha-1. Soon after the 2011/2012 years crop there was a planting renovation with a new variety, with different physiology and consequently a distinct productive power and, from 2013/2014 crop year, the models underestimated the productivity compared to the real. The estimate made by the technicians, based on the crop development since planting until next harvest, showed satisfactory results as well as the tested models.
Esta pesquisa baseou-se na avaliação de produtividade agrícola estimada e observada em uma área de cultivo comercial de cana-de-açúcar localizada na Agroindústria do Vale do São Francisco – AGROVALE S.A., Juazeiro – BA, sertão nordestino. Novos modelos de estimativas de produtividades foram obtidos por regressão linear múltipla utilizando-se, como variáveis de entrada: a irrigação, a precipitação, a temperatura média do ar, o déficit de saturação de vapor do ar, o fotoperíodo, o índice de vegetação por diferença normalizada (NDVI), o índice de área foliar (IAF) e a fração de cobertura do solo (FC). Para obtenção desses modelos utilizou-se o programa estatístico Statística versão 10. Além disso, os meteorológicos foram obtidos na estação meteorológica automática instalada na Fazenda Brasil Uvas, em Juazeiro – BA sendo elas: precipitação, temperatura, umidade relativa, evapotranspiração, pressão atual de vapor e pressão de saturação de vapor. Os dados de rendimento agrícola e parâmetros inerentes ao desenvolvimento da cultura foram disponibilizados pelo Departamento Agrícola da usina AGROVALE. Os dados espectrais: NDVI, IAF e FC foram extraídos de produtos derivados de imagens orbitais do sensor MODIS (Espectrorradiômetro Imageador de Resolução Moderada). Os dados para validação dos modelos também foram obtidos nas mesmas fontes citadas anteriormente. Os dados foram avaliados por meio do cálculo do erro médio absoluto e do erro médio relativo ou percentual. A comparação dos valores observados e estimados de produtividades mostra que o modelo agrometeorológico-espectral (MAE) apresentou as menores e melhores diferenças médias relativas com uma variação média de 0,34%, seguido do modelo agrometeorológico (MA) com uma variação média de 1,37% e por último o modelo espectral (ME) apresentou as maiores diferenças médias relativas, quando comparado com os outros dois modelos obtendo uma variação média de 6,58%, aproximando-se mais da estimativa feita pelos técnicos da usina que apresentou variação média de 6,75%. Na validação dos modelos para o ano-safra de 2004/2005 o espectral superou os agrometeorológico e o agrometeorológico-espectral com diferenças médias relativas na ordem de 5,05% enquanto nos demais modelos as diferenças foram de 15,11% e 16,19%, refletindo numa produtividade de 93,05 t ha-1 contra 83,19 t ha-1 e 82,13 t ha-1 dos modelos agrometeorológicos e agrometeorológico-espectral, respectivamente, para uma produtividade observada de 98 t ha-1. Logo após a safra de 2011/2012 ocorreu uma renovação de plantio com nova variedade, fisiologia diferenciada e, consequentemente, um poder produtivo distinto e a partir da safra de 2013/2014 os modelos subestimaram a produtividade quando comparadas com o real. A estimativa feita pelos técnicos da usina baseada no desenvolvimento da cultura desde o plantio até próximo da colheita, apresentou resultados satisfatórios assim como os modelos testados.
Li-PingLin y 林莉萍. "Estimation of Forest Canopy Height Model and Leaf Area Index Using Airborne LiDAR data". Thesis, 2013. http://ndltd.ncl.edu.tw/handle/91295838225601949138.
Texto completo國立成功大學
測量及空間資訊學系碩博士班
101
Efficiently obtaining the information in forest region such as forest structure, forest ecosystems is important for forestry management. Remote sensing has been considered as a practical technology to acquire the data of a large area. Compared with spectral images, airborne light detection and ranging (LiDAR) can provide three dimensional coordinates directly, and the penetration characteristics of LiDAR system makes the possibility of seeing through the canopy. Therefore, the structure or the terrain under the canopy can be characterized by the LiDAR point cloud data. The purpose of this study is to estimate the Canopy Height Model (CHM) and the Leave Area Index (LAI) of a dense forest area by using airborne LiDAR data. CHM is estimated by taking the difference of DSM and DEM derived from LiDAR data. Estimation of LAI is achieved based on the calculation of Laser Penetration Index (LPI). Five calculations of LPI were applied in this paper: (1.) The ratio between the number of ground points and that of all the points; (2.) the ratio between the intensities of ground points and that of all the points; (3) the ratio between the number of ground points and the number of laser beams; (4) a weighting method modified from index (1); and (5) the ratio between the area of ground points and that of all the points. The study area is in a nature broadleaf forest of south Taiwan. In this study, we use three sets of airborne LiDAR data acquired with different full waveform LiDAR systems including Leica ALS60, Riegl LMS-Q680i and Optech Pegasus HD400. All of these LiDAR systems are capable of recording full waveform data, then we can get the waveform point clouds by the echo detector to do the comparison. Our experiments results show that the accuracy of CHM by different LiDAR data is about 1.5 meter. And the fourth LPI index has the highest coefficient of determination (about 0.8) and the estimation of LAI can be improved by using the waveform points.
Pope, Graham. "LiDAR and WorldView-2 Satellite Data for Leaf Area Index Estimation in the Boreal Forest". Thesis, 2012. http://hdl.handle.net/1974/7510.
Texto completoThesis (Master, Geography) -- Queen's University, 2012-09-24 16:18:09.96
Wilson, Janna L. "Estimation of phenological development and fractional leaf area of canola (Brassica napus L.) from temperature". 2002. http://hdl.handle.net/1993/7805.
Texto completoBurrows, Sean Nicolas Grant. "Geostatistical estimation of leaf area index and net primary production of five North American biomes". 2002. http://www.library.wisc.edu/databases/connect/dissertations.html.
Texto completoPeng, Bing-Syun y 彭炳勳. "Estimating Tree Heights and Leaf Area Index Using Airborne LiDAR Data". Thesis, 2007. http://ndltd.ncl.edu.tw/handle/89499830710571827263.
Texto completo國立屏東科技大學
森林系所
95
Due to the development of remote sensing, the remote image data and techniques had widely using in forest resource inventory. Airborne light detection and ranging (LiDAR) is an active remote sensing technique, which sends pulses of laser light toward the ground and detects the return times of back-scattered energy in order to determine ranges of the surface. The suitability of LiDAR in forestry is demonstrated by application such as assessment of timber resources and biomass, quantification of 3D canopy structures, as well as derivation of single trees properties like individual tree positions and tree height. LiDAR studies in forestry often used various canopy height and canopy density variables like laser derived height percentiles and proportions of laser return within various vertical canopy layers as predictor variables. So we can use the airborne laser data to estimate Leaf Area Index (LAI) or foliar mass. In this study, we use the single tree height and LAI data that was investigated in the Chitou and Alishan area, and use airborne LiDAR data to measured mean tree height, analyze the relationship between LAI and Laser Penetration Index (LPI) suitable raster cell size and estimation model. The results of the study indicated that the laser single tree height overestimates the ground truth tree height, especially in compression tree. The laser mean height is computed as the arithmetic mean of the largest laser values within grid size of 15m, and the results was R2 = 0.993. When the raster grid size was above 5× 5 m2 that could be used to calculate the LAI, and the R2 was above 0.6 when the LiDAR point cloud density was about 2-4 pts m-2 . The results was R2 = 0.979 when the LiDAR raster grid size was 15× 15 m 2. Therefore, LiDAR data is useful to estimate the LAI. The estimate map of LAI was obtained according to the results of regression analysis, and it can be found that the LiDAR point cloud of three-dimensional structure made the LAI values between forested region and non-forested region had significant differences. It shows that the LiDAR data have better detection ability for the forest canopy. It provides a new remote sensing technique for forestry investigation in Taiwan.
Condon, Timothy. "Achieving improved leaf area index estimations from digital hemispherical imagery through destructive sampling methods". Thesis, 2018. https://hdl.handle.net/2144/37054.
Texto completoGhebremicael, Selamawit T. "Estimating leaf area index (LAI) of black wattle (Acacia mearnsii) using Landsat ETM+ satellite imagery". Thesis, 2003. http://hdl.handle.net/10413/4511.
Texto completoFassnacht, Karin S. "Estimating the leaf area index of north central Wisconsin forests using the Landsat Thematic Mapper". 1995. http://catalog.hathitrust.org/api/volumes/oclc/35098568.html.
Texto completoTypescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 72-77).
Mthembu, Sibusiso L. "Estimating leaf area index (LAI) of gum tree (Eucalyptus grandis X camaldulensis) using remote sensing imagery and LiCor-2000". 2001. http://hdl.handle.net/10413/4927.
Texto completoThesis (M.Sc.)-University of Natal, Pietermaritzburg, 2001.
Mthembu, Ingrid Bongiwe. "Estimating foliar and wood lignin concentrations, and leaf area index (LAI) of Eucalyptus clones in Zululand usig hyperspectral imagery". 2006. http://hdl.handle.net/10413/3470.
Texto completoThesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2006.
Mzinyane, Thamsanqa D. "An investigation into estimating productivity, above ground biomass and leaf area index of Eucalyptus grandis using remotely sensed data and a process-based model". 2007. http://hdl.handle.net/10413/3335.
Texto completoThesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritburg, 2007.
Terracciano, Anthony. "Design and Development of Heterogenous Combustion Systems for Lean Burn Applications". Master's thesis, 2014. http://digital.library.ucf.edu/cdm/ref/collection/ETD/id/6201.
Texto completoM.S.M.E.
Masters
Mechanical and Aerospace Engineering
Engineering and Computer Science
Mechanical Engineering; Thermo-Fluids Track