CSIRO Publishing

Journal of the International Association of Wildland Fire

Shopping Cart: ( empty )

Articles citing this paper

Estimation of shrub height for fuel-type mapping combining airborne LiDAR and simultaneous color infrared ortho imaging

David Riaño ^A ^B ^F , Emilio Chuvieco ^A , Susan L. Ustin ^B , Javier Salas ^A , José R. Rodríguez-Pérez ^C , Luis M. Ribeiro ^D , Domingos X. Viegas ^D , José M. Moreno ^E and Helena Fernández ^E

+ Author Affiliations

- Author Affiliations

^A Departamento de Geografía, Universidad de Alcalá, Colegios 2, E-28801 Alcalá de Henares, Madrid, Spain.

^B Center for Spatial Technologies and Remote Sensing (CSTARS), University of California, Davis, 250-N, The Barn, One Shields Avenue, Davis, CA 95616-8617, USA.

^C Área de Ingeniera Cartográfica, Geodésica y Fotogrametría, Universidad de León, Avenida de Astorga, s/n, E-24400 Ponferrada, León, Spain.

^D Centro de Estudios sobre Incêndios Florestais, Coimbra, Portugal.

^E U. Castilla la Mancha, Toledo, Spain.

^F Corresponding author. Email: driano@cstars.ucdavis.edu

International Journal of Wildland Fire 16(3) 341-348 https://doi.org/10.1071/WF06003
Submitted: 6 January 2006 Accepted: 24 January 2007 Published: 3 July 2007

91 articles found in Crossref database.

Geospatial Technology for Earth Observation (2010)

Gens Rudiger

Forest Fire Severity Assessment Using ALS Data in a Mediterranean Environment

Montealegre Antonio, Lamelas María, Tanase Mihai, de la Riva Juan

Remote Sensing. 2014 6(5). p.4240

Estimating Fuel Loads and Structural Characteristics of Shrub Communities by Using Terrestrial Laser Scanning

Alonso-Rego Cecilia, Arellano-Pérez Stéfano, Cabo Carlos, Ordoñez Celestino, Álvarez-González Juan Gabriel, Díaz-Varela Ramón Alberto, Ruiz-González Ana Daría

Remote Sensing. 2020 12(22). p.3704

Multispectral and LiDAR data fusion for fuel type mapping using Support Vector Machine and decision rules

García Mariano, Riaño David, Chuvieco Emilio, Salas Javier, Danson F. Mark

Remote Sensing of Environment. 2011 115(6). p.1369

A Two-Phase Classification of Urban Vegetation Using Airborne LiDAR Data and Aerial Photography

Tong Xiaohua, Li Xiaoichun, Xu Xiong, Xie Huan, Feng Tiantian, Sun Tong, Jin Yanmin, Liu Xiangfeng

IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 2014 7(10). p.4153

Mapping fire risk in the Model Forest of Urbión (Spain) based on airborne LiDAR measurements

González-Olabarria José-Ramón, Rodríguez Francisco, Fernández-Landa Alfredo, Mola-Yudego Blas

Forest Ecology and Management. 2012 282 p.149

Automatic Identification of Shrub-Encroached Grassland in the Mongolian Plateau Based on UAS Remote Sensing

Dong Yu, Yan Huimin, Wang Na, Huang Mei, Hu Yunfeng

Remote Sensing. 2019 11(13). p.1623

Ground peak identification in dense shrub areas using large footprint waveform LiDAR and Landsat images

Zhuang Wei, Mountrakis Giorgos

International Journal of Digital Earth. 2015 8(10). p.805

Tools for Assessing the Impacts of Climate Variability and Change on Wildfire Regimes in Forests

Herawati Hety, González-Olabarria José, Wijaya Arief, Martius Christopher, Purnomo Herry, Andriani Rubeta

Forests. 2015 6(12). p.1476

High-resolution mapping of aboveground shrub biomass in Arctic tundra using airborne lidar and imagery

Greaves Heather E., Vierling Lee A., Eitel Jan U.H., Boelman Natalie T., Magney Troy S., Prager Case M., Griffin Kevin L.

Remote Sensing of Environment. 2016 184 p.361

Introducing Close-Range Photogrammetry for Characterizing Forest Understory Plant Diversity and Surface Fuel Structure at Fine Scales

Bright Benjamin C., Loudermilk E. Louise, Pokswinski Scott M., Hudak Andrew T., O'Brien Joseph J.

Canadian Journal of Remote Sensing. 2016 42(5). p.460

Lidar Aboveground Vegetation Biomass Estimates in Shrublands: Prediction, Uncertainties and Application to Coarser Scales

Li Aihua, Dhakal Shital, Glenn Nancy, Spaete Lucas, Shinneman Douglas, Pilliod David, Arkle Robert, McIlroy Susan

Remote Sensing. 2017 9(9). p.903

Exploring snow distribution dynamics in steep forested slopes with UAV-borne LiDAR

Koutantou Kalliopi, Mazzotti Giulia, Brunner Philip, Webster Clare, Jonas Tobias

Cold Regions Science and Technology. 2022 200 p.103587

Early Forest Fire Detection Using Radio-Acoustic Sounding System

Sahin Yasar Guneri, Ince Turker

Sensors. 2009 9(3). p.1485

Categorizing Grassland Vegetation with Full-Waveform Airborne Laser Scanning: A Feasibility Study for Detecting Natura 2000 Habitat Types

Zlinszky András, Schroiff Anke, Kania Adam, Deák Balázs, Mücke Werner, Vári Ágnes, Székely Balázs, Pfeifer Norbert

Remote Sensing. 2014 6(9). p.8056

Generation of high-resolution fuel model maps from discrete airborne laser scanner and Landsat-8 OLI: A low-cost and highly updated methodology for large areas

Marino Eva, Ranz Pedro, Tomé José Luis, Noriega Miguel Ángel, Esteban Jessica, Madrigal Javier

Remote Sensing of Environment. 2016 187 p.267

An accurate and computationally efficient algorithm for ground peak identification in large footprint waveform LiDAR data

Zhuang Wei, Mountrakis Giorgos

ISPRS Journal of Photogrammetry and Remote Sensing. 2014 95 p.81

UAV-based individual shrub aboveground biomass estimation calibrated against terrestrial LiDAR in a shrub-encroached grassland

Zhao Yujin, Liu Xiaoliang, Wang Yang, Zheng Zhaoju, Zheng Shuxia, Zhao Dan, Bai Yongfei

International Journal of Applied Earth Observation and Geoinformation. 2021 101 p.102358

Biomass Supply Chains for Bioenergy and Biorefining (2016)

Ciria P., Barro R.

Generating a Baseline Map of Surface Fuel Loading Using Stratified Random Sampling Inventory Data through Cokriging and Multiple Linear Regression Methods

Lin Chinsu, Ma Siao-En, Huang Li-Ping, Chen Chung-I, Lin Pei-Ting, Yang Zhih-Kai, Lin Kuan-Ting

Remote Sensing. 2021 13(8). p.1561

Ground Level LiDAR as a Contributing Indicator in an Environmental Protection Application

Coman Ciprian M., Toma Bogdan C., Constantin Mihai A., Florescu Adriana

IEEE Access. 2023 11 p.106277

Does NDVI reflect variation in the structural attributes associated with increasing shrub dominance in arctic tundra?

Boelman Natalie T, Gough Laura, McLaren Jennie R, Greaves Heather

Environmental Research Letters. 2011 6(3). p.035501

Estimating aboveground biomass and leaf area of low-stature Arctic shrubs with terrestrial LiDAR

Greaves Heather E., Vierling Lee A., Eitel Jan U.H., Boelman Natalie T., Magney Troy S., Prager Case M., Griffin Kevin L.

Remote Sensing of Environment. 2015 164 p.26

UAV photogrammetry for mapping vegetation in the low-Arctic

Fraser Robert H., Olthof Ian, Lantz Trevor C., Schmitt Carla

Arctic Science. 2016 2(3). p.79

Estimating wildfire fuel consumption with multitemporal airborne laser scanning data and demonstrating linkage with MODIS-derived fire radiative energy

McCarley T. Ryan, Hudak Andrew T., Sparks Aaron M., Vaillant Nicole M., Meddens Arjan J.H., Trader Laura, Mauro Francisco, Kreitler Jason, Boschetti Luigi

Remote Sensing of Environment. 2020 251 p.112114

LiDAR-Based Wildfire Prevention in WUI: The Automatic Detection, Measurement and Evaluation of Forest Fuels

Fernández-Álvarez Marta, Armesto Julia, Picos Juan

Forests. 2019 10(2). p.148

Remote sensing of plant functional types

Ustin Susan L., Gamon John A.

New Phytologist. 2010 186(4). p.795

3-D mapping of a multi-layered Mediterranean forest using ALS data

Ferraz António, Bretar Frédéric, Jacquemoud Stéphane, Gonçalves Gil, Pereira Luisa, Tomé Margarida, Soares Paula

Remote Sensing of Environment. 2012 121 p.210

Development and validation of fuel height models for terrestrial lidar – RxCADRE 2012

Rowell Eric M., Seielstad Carl A., Ottmar Roger D.

International Journal of Wildland Fire. 2016 25(1). p.38

Increasing the use of expert opinion in forest characterisation approaches based on LiDAR data

Pascual Cristina, García-Montero Luis G., Arroyo Lara A., García-Abril Antonio

Annals of Forest Science. 2013 70(1). p.87

Examining Landscape-Scale Fuel and Terrain Controls of Wildfire Spread Rates Using Repetitive Airborne Thermal Infrared (ATIR) Imagery

Schag Gavin M., Stow Douglas A., Riggan Philip J., Tissell Robert G., Coen Janice L.

Fire. 2021 4(1). p.6

Estimation of forest structure and canopy fuel parameters from small-footprint full-waveform LiDAR data

Hermosilla Txomin, Ruiz Luis A., Kazakova Alexandra N., Coops Nicholas C., Moskal L. Monika

International Journal of Wildland Fire. 2014 23(2). p.224

LiDAR-Based Classification of Sagebrush Community Types

Sankey Temuulen Tsagaan, Bond Pamela

Rangeland Ecology & Management. 2011 64(1). p.92

Prediction of forest canopy fuel parameters in managed boreal forests using multispectral and unispectral airborne laser scanning data and aerial images

Maltamo Matti, Räty J., Korhonen L., Kotivuori E., Kukkonen M., Peltola H., Kangas J., Packalen P.

European Journal of Remote Sensing. 2020 53(1). p.245

Lidar‐derived estimate and uncertainty of carbon sink in successional phases of woody encroachment

Sankey Temuulen, Shrestha Rupesh, Sankey Joel B., Hardegree Stuart, Strand Eva

Journal of Geophysical Research: Biogeosciences. 2013 118(3). p.1144

Overstory-understory land cover mapping at the watershed scale: accuracy enhancement by multitemporal remote sensing analysis and LiDAR

Fragoso-Campón Laura, Quirós Elia, Mora Julián, Gutiérrez Gallego José Antonio, Durán-Barroso Pablo

Environmental Science and Pollution Research. 2020 27(1). p.75

Tree, Shrub, and Grass Classification Using Only RGB Images

Ayhan Bulent, Kwan Chiman

Remote Sensing. 2020 12(8). p.1333

Forestry Applications of Airborne Laser Scanning (2014)

Gajardo John, García Mariano, Riaño David

Landslides investigations from geoinformatics perspective: quality, challenges, and recommendations

Pirasteh Saied, Li Jonathan

Geomatics, Natural Hazards and Risk. 2017 8(2). p.448

Within-Species Benefits of Back-projecting Airborne Laser Scanner and Multispectral Sensors in Monospecific Pinus sylvestris Forests

Valbuena Rubén, De-Blas Alejandro, Martín-Fernádez Susana, Maltamo Matti, Nabuurs Gert-Jan, Manzanera José Antonio

European Journal of Remote Sensing. 2013 46(1). p.491

Modelling canopy fuel variables for Pinus radiata D. Don in NW Spain with low-density LiDAR data

González-Ferreiro Eduardo, Diéguez-Aranda Ulises, Crecente-Campo Felipe, Barreiro-Fernández Laura, Miranda David, Castedo-Dorado Fernando

International Journal of Wildland Fire. 2014 23(3). p.350

Characterizing understory vegetation in Mediterranean forests using full-waveform airborne laser scanning data

Crespo-Peremarch Pablo, Tompalski Piotr, Coops Nicholas C., Ruiz Luis Ángel

Remote Sensing of Environment. 2018 217 p.400

Estimation of Total Biomass in Aleppo Pine Forest Stands Applying Parametric and Nonparametric Methods to Low-Density Airborne Laser Scanning Data

Domingo Darío, Lamelas María, Montealegre Antonio, García-Martín Alberto, de la Riva Juan

Forests. 2018 9(4). p.158

Errors in LiDAR-derived shrub height and crown area on sloped terrain

Glenn N.F., Spaete L.P., Sankey T.T., Derryberry D.R., Hardegree S.P., Mitchell J.J.

Journal of Arid Environments. 2011 75(4). p.377

Mapping fuels at the wildland-urban interface using colour ortho-images and LiDAR data

Rosa Melissa F., Stow Douglas A.

Geocarto International. 2014 29(5). p.570

Using Simulated 3D Surface Fuelbeds and Terrestrial Laser Scan Data to Develop Inputs to Fire Behavior Models

Rowell Eric, Loudermilk E. Louise, Seielstad Carl, O’Brien Joseph J.

Canadian Journal of Remote Sensing. 2016 42(5). p.443

Effect of Tree Phenology on LiDAR Measurement of Mediterranean Forest Structure

Simonson William, Allen Harriet, Coomes David

Remote Sensing. 2018 10(5). p.659

Estimation of fire severity using pre- and post-fire LiDAR data in sagebrush steppe rangelands

Wang Cheng, Glenn Nancy F.

International Journal of Wildland Fire. 2009 18(7). p.848

Assessment of factors affecting shrub volume estimations using airborne discrete-return LiDAR data in Mediterranean areas

Ruiz Luis A.

Journal of Applied Remote Sensing. 2012 6(1). p.063544

Shrub biomass accumulation and growth rate models to quantify carbon stocks and fluxes for the Mediterranean region

Pasalodos-Tato Maria, Ruiz-Peinado Ricardo, del Río Miren, Montero Gregorio

European Journal of Forest Research. 2015 134(3). p.537

Regional Level Data Server for Fire Hazard Evaluation and Fuel Treatments Planning

Krsnik Goran, Busquets Olivé Eduard, Piqué Nicolau Míriam, Larrañaga Asier, Cardil Adrián, García-Gonzalo Jordi, González Olabarría José Ramón

Remote Sensing. 2020 12(24). p.4124

Categorizing Wetland Vegetation by Airborne Laser Scanning on Lake Balaton and Kis-Balaton, Hungary

Zlinszky András, Mücke Werner, Lehner Hubert, Briese Christian, Pfeifer Norbert

Remote Sensing. 2012 4(6). p.1617

Dehesa environment mapping with transference of a Random Forest classifier to neighboring ultra-high spatial resolution imagery at class and macro-class land cover levels

Fragoso-Campón Laura, Quirós Elia, Gutiérrez Gallego José Antonio

Stochastic Environmental Research and Risk Assessment. 2020 34(12). p.2179

Airborne Lidar Estimation of Aboveground Forest Biomass in the Absence of Field Inventory

Ferraz António, Saatchi Sassan, Mallet Clément, Jacquemoud Stéphane, Gonçalves Gil, Silva Carlos, Soares Paula, Tomé Margarida, Pereira Luisa

Remote Sensing. 2016 8(8). p.653

Estimation of shrub biomass by airborne LiDAR data in small forest stands

Estornell J., Ruiz L.A., Velázquez-Martí B., Fernández-Sarría A.

Forest Ecology and Management. 2011 262(9). p.1697

Análise do potencial de Angola para a instalação de centrais termoelétricas a biomassa vegetal

Sousa Oloiva, Lucas Maria Raquel, Aranha José

Revista de Economia e Sociologia Rural. 2023 61(spe).

A LiDAR signature library simulated from 3-dimensional Discrete Anisotropic Radiative Transfer (DART) model to classify fuel types using spectral matching algorithms

Lamelas-Gracia M. Teresa, Riaño David, Ustin Susan

GIScience & Remote Sensing. 2019 56(7). p.988

Characterizing potential wildland fire fuel in live vegetation in the Mediterranean region

Fares Silvano, Bajocco Sofia, Salvati Luca, Camarretta Nicolò, Dupuy Jean-Luc, Xanthopoulos Gavriil, Guijarro Mercedes, Madrigal Javier, Hernando Carmen, Corona Piermaria

Annals of Forest Science. 2017 74(1).

Earth Observation of Global Change (2008)

Chuvieco Emilio

Shrub characterization using terrestrial laser scanning and implications for airborne LiDAR assessment

Vierling Lee A., Xu Yanyin, Eitel Jan U.H., Oldow John S.

Canadian Journal of Remote Sensing. 2013 38(6). p.709

Fire models and methods to map fuel types: The role of remote sensing

Arroyo Lara A., Pascual Cristina, Manzanera José A.

Forest Ecology and Management. 2008 256(6). p.1239

Estimación de la distribución vertical de combustibles finos del dosel de copas en masas de Pinus sylvestris empleando datos LiDAR de baja densidad

Fidalgo-González L. A., Arellano-Pérez S., Álvarez-González J. G., Castedo-Dorado F., Ruiz-González A. D., González-Ferreiro E.

Revista de Teledetección. 2019 (53). p.1

A Mixed Methods Approach for Fuel Characterisation in Gorse (Ulex europaeus L.) Scrub from High-Density UAV Laser Scanning Point Clouds and Semantic Segmentation of UAV Imagery

Hartley Robin J. L., Davidson Sam J., Watt Michael S., Massam Peter D., Aguilar-Arguello Samuel, Melnik Katharine O., Pearce H. Grant, Clifford Veronica R.

Remote Sensing. 2022 14(19). p.4775

Short-Term Recovery of the Aboveground Carbon Stock in Iberian Shrublands at the Extremes of an Environmental Gradient and as a Function of Burn Severity

Fernández-Guisuraga José Manuel, Calvo Leonor, Fernandes Paulo M., Suárez-Seoane Susana

Forests. 2022 13(2). p.145

Analysis of Mediterranean Vegetation Fuel Type Changes Using Multitemporal LiDAR

García-Cimarras Alba, Manzanera José Antonio, Valbuena Rubén

Forests. 2021 12(3). p.335

Modelling aboveground biomass and fuel load components at stand level in shrub communities in NW Spain

Vega José A., Arellano-Pérez Stéfano, Álvarez-González Juan Gabriel, Fernández Cristina, Jiménez Enrique, Fernández-Alonso José María, Vega-Nieva Daniel J., Briones-Herrera Carlos, Alonso-Rego Cecilia, Fontúrbel Teresa, Ruiz-González Ana Daría

Forest Ecology and Management. 2022 505 p.119926

Assessing the attributes of high-densityEucalyptus globulusstands using airborne laser scanner data

Gonçalves-Seco Luis, González-Ferreiro Eduardo, Diéguez-Aranda Ulises, Fraga-Bugallo Bruño, Crecente Rafael, Miranda David

International Journal of Remote Sensing. 2011 32(24). p.9821

An object-based approach for mapping forest structural types based on low-density LiDAR and multispectral imagery

Ruiz Luis Ángel, Recio Jorge Abel, Crespo-Peremarch Pablo, Sapena Marta

Geocarto International. 2018 33(5). p.443

Biomass equations for rockrose (Cistus laurifolius L.) shrublands in North-central Spain

Bados Raquel, Esteban Luis Saúl, Esteban Jessica, Fernández-Landa Alfredo, Sánchez Tomás, Tolosana Eduardo

Forest Systems. 2021 30(3). p.e015

Spectral mapping methods applied to LiDAR data: Application to fuel type mapping

Huesca Margarita, Riaño David, Ustin Susan L.

International Journal of Applied Earth Observation and Geoinformation. 2019 74 p.159

Forest Monitoring System Through Sound Recognition

2018 International Conference on Communications (COMM) (2018)

Olteanu Elena, Suciu Victor, Segarceanu Svetlana, Petre Ioana, Scheianu Andrei

Vegetation and slope effects on accuracy of a LiDAR-derived DEM in the sagebrush steppe

Spaete Lucas P., Glenn Nancy F., Derryberry Dewayne R., Sankey Temuulen T., Mitchell Jessica J., Hardegree Stuart P.

Remote Sensing Letters. 2011 2(4). p.317

Predicting Surface Fuel Models and Fuel Metrics Using Lidar and CIR Imagery in a Dense, Mountainous Forest

Jakubowksi Marek K., Guo Qinghua, Collins Brandon, Stephens Scott, Kelly Maggi

Photogrammetric Engineering & Remote Sensing. 2013 79(1). p.37

Estimation of biomass and volume of shrub vegetation using LiDAR and spectral data in a Mediterranean environment

Estornell J., Ruiz L.A., Velázquez-Martí B., Hermosilla T.

Biomass and Bioenergy. 2012 46 p.710

Dendrometric and dasometric analysis of the bushy biomass in Mediterranean forests

Velázquez-Martí B., Fernández-González E., Estornell J., Ruiz L.A.

Forest Ecology and Management. 2010 259(5). p.875

Non-Destructive Biomass Estimation in Mediterranean Alpha Steppes: Improving Traditional Methods for Measuring Dry and Green Fractions by Combining Proximal Remote Sensing Tools

Rodríguez-Lozano Borja, Rodríguez-Caballero Emilio, Maggioli Lisa, Cantón Yolanda

Remote Sensing. 2021 13(15). p.2970

Analysis of the factors affecting LiDAR DTM accuracy in a steep shrub area

Estornell J., Ruiz L.A., Velázquez-Martí B., Hermosilla T.

International Journal of Digital Earth. 2011 4(6). p.521

Decadal‐scale aspen changes: evidence in remote sensing and tree ring data

Sankey Temuulen Tsagaan

Applied Vegetation Science. 2012 15(1).

Stochastic gradient boosting classification trees for forest fuel types mapping through airborne laser scanning and IRS LISS-III imagery

Chirici G., Scotti R., Montaghi A., Barbati A., Cartisano R., Lopez G., Marchetti M., McRoberts R.E., Olsson H., Corona P.

International Journal of Applied Earth Observation and Geoinformation. 2013 25 p.87

Radiometric calibration of small-footprint full-waveform airborne laser scanner measurements: Basic physical concepts

Wagner Wolfgang

ISPRS Journal of Photogrammetry and Remote Sensing. 2010 65(6). p.505

Forest Monitoring System Through Sound Recognition

2018 International Conference on Communications (COMM) (2018)

Olteanu Elena, Suciu Victor, Segarceanu Svetlana, Petre Ioana, Scheianu Andrei

Characterizing Western Juniper Expansion via a Fusion of Landsat 5 Thematic Mapper and Lidar Data

Sankey Temuulen Tsagaan, Glenn Nancy, Ehinger Sara, Boehm Alex, Hardegree Stuart

Rangeland Ecology & Management. 2010 63(5). p.514

Modeling vegetation heights from high resolution stereo aerial photography: An application for broad-scale rangeland monitoring

Gillan Jeffrey K., Karl Jason W., Duniway Michael, Elaksher Ahmed

Journal of Environmental Management. 2014 144 p.226

Combining aerial LiDAR and multispectral imagery to assess postfire regeneration types in a Mediterranean forest

Martín-Alcón Santiago, Coll Lluís, De Cáceres Miquel, Guitart Lídia, Cabré Mariló, Just Ariadna, González-Olabarría José Ramón

Canadian Journal of Forest Research. 2015 45(7). p.856

Characterizing boreal forest wildfire with multi-temporal Landsat and LIDAR data

Wulder M.A., White J.C., Alvarez F., Han T., Rogan J., Hawkes B.

Remote Sensing of Environment. 2009 113(7). p.1540

Use of imaging spectroscopy and LIDAR to characterize fuels for fire behavior prediction

Stavros E. Natasha, Coen Janice, Peterson Birgit, Singh Harshvardhan, Kennedy Kama, Ramirez Carlos, Schimel David

Remote Sensing Applications: Society and Environment. 2018 11 p.41

A comparison of multiple methods for mapping local-scale mesquite tree aboveground biomass with remotely sensed data

Ku Nian-Wei, Popescu Sorin C.

Biomass and Bioenergy. 2019 122 p.270

IoT System for Forest Monitoring

2019 42nd International Conference on Telecommunications and Signal Processing (TSP) (2019)

Marcu Alina-Elena, Suciu George, Olteanu Elena, Miu Delia, Drosu Alexandru, Marcu Ioana

Landsat-5 TM and Lidar Fusion for Sub-pixel Juniper Tree Cover Estimates in a Western Rangeland

Sankey Temuulen, Glenn Nancy

Photogrammetric Engineering & Remote Sensing. 2011 77(12). p.1241

UAV lidar and hyperspectral fusion for forest monitoring in the southwestern USA

Sankey Temuulen, Donager Jonathon, McVay Jason, Sankey Joel B.

Remote Sensing of Environment. 2017 195 p.30

Automatic Processing of Aerial LiDAR Data to Detect Vegetation Continuity in the Surroundings of Roads

Novo Ana, Fariñas-Álvarez Noelia, Martínez-Sánchez Joaquin, González-Jorge Higinio, Lorenzo Henrique

Remote Sensing. 2020 12(10). p.1677