[1]
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Field Investigation of Effect of Plants on Cracks of Compacted Clay Covers at a Contaminated Site
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International Journal of …,
2022 |
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[2]
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Evaluation of Performance of Polyacrylamide-Modified Compacted Clay as a Gas Barrier: Water Retention and Gas Permeability and Diffusion Characteristics
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Applied Sciences,
2022 |
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[3]
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Investigation and realisation of PID and LQR control methods in Parrot Mambo minidrone
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International Journal of …,
2022 |
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[4]
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Using UAV imagery to map invasive Phragmites australis on the Crow Island State Game Area, Michigan, USA
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Wetlands Ecology and Management,
2022 |
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[5]
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About lizards and unmanned aerial vehicles: assessing home range and habitat selection in Lacerta agilis
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SALAMANDRA,
2022 |
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[6]
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Approaches and Methodologies on Mapping Vegetation Cover and Biodiversity Status Using Remote Sensing and Spatial Analysis: A Systematic Review
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… and Monitoring of Forest …,
2022 |
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[7]
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Rubber-Tree Leaf Diseases Mapping Using Close Range Remote Sensing Images
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International …,
2022 |
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[8]
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Comparison of low-cost methods for vegetation mapping using object based analysis of UAV imagery: a case study for the greater Côa Valley, Portugal
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2022 |
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[9]
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草地植物物种多样性测度方法及发展趋势.
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Yingyong Shengtai …,
2022 |
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[10]
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Multispectral remote sensing of vegetation responses to groundwater variability in the greater floristic region of the Western Cape, South Africa
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2021 |
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[11]
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Vegetation change analysis from 2010-2018 using aerial photography and RTK-GNSS to assist Lake Mattamuskeet Restoration Efforts in North Carolina, USA
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2021 |
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[12]
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Drones for conservation: integrating UAVs with field methods to classify satellite imagery to map plant communities–A case study of Drentsche AA, The Netherlands
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2021 |
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[13]
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Remote Sensing and UAVs for the Geomorphological and Habitat Analysis in Ephemeral and Permanent Mediterranean Streams
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2021 |
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[14]
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Mapping of non-submerged aquatic vegetation by using UAV for clarifying the status of Eichhornia crassipes (Mart.) Solms in the Nong Bong Khai Non-hunting Area …
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Journal of the Japanese …,
2021 |
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[15]
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轻小型无人机遥感及其行业应用进展
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地理科学进展,
2021 |
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[16]
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Spatial patterns of aboveground phytogenic Si stocks in a grass-dominated catchment–results from UAS-based high-resolution remote sensing
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Biogeosciences,
2021 |
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[17]
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LoRa communications as an enabler for internet of drones towards large-scale livestock monitoring in rural farms
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Sensors,
2021 |
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[18]
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UAVs as remote sensing platforms in plant ecology: review of applications and challenges
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Journal of Plant …,
2021 |
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[19]
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Teleoperation methods and enhancement techniques for mobile robots: A comprehensive survey
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Robotics and Autonomous …,
2021 |
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[20]
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Non-Destructive Biomass Estimation in Mediterranean Alpha Steppes: Improving Traditional Methods for Measuring Dry and Green Fractions by Combining Proximal …
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Lozano, E Rodríguez-Caballero… - Remote Sensing,
2021 |
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[21]
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A cost-effective method to monitor vegetation changes in steppes ecosystems: A case study on remote sensing of fire and infrastructure effects in eastern …
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Ecological …,
2021 |
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[22]
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A Hybrid Vegetation Detection Framework: Integrating Vegetation Indices and Convolutional Neural Network
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Symmetry,
2021 |
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[23]
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An Integrated Object and Machine Learning Approach for Tree Canopy Extraction from UAV Datasets
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2021 |
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[24]
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Impacts of Groundwater and Climate Variability on Terrestrial Groundwater Dependent Ecosystems: A Review of Geospatial Assessment Approaches and Challenges …
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2021 |
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[25]
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Enumerating White‐Tailed Deer Using Unmanned Aerial Vehicles
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2021 |
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[26]
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适用于无人机数据链电磁干扰自适应的环境监测系统
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2020 |
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[27]
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Can UAVs fill the gap between in situ surveys and satellites for habitat mapping?
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2020 |
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[28]
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Methodology for optimizing quadrat size in sparse vegetation surveys: A desert case study from the Tarim Basin
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2020 |
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[29]
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Aeronave remotamente pilotada de baixo custo no estudo de plantas invasoras em áreas de cerrado
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2020 |
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[30]
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Supporting Urban Weed Biosecurity Programs with Remote Sensing
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2020 |
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[31]
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一种无人机数据链电磁干扰自适应新方法
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北京理工大学学报自然版,
2020 |
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[32]
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Diversity
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2019 |
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[33]
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UAV 영상을 이용한 하천지형 및 식생정보의 자료화-복하천과 왕숙천을 중심으로
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2019 |
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[34]
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Remote sensing semi-automatic measurements approach for monitoring bioenergetic crops of Miscanthus spp.
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2019 |
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[35]
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Identificação automática de plantas invasoras em imagens aéreas
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2019 |
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[36]
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Multi-Scale detection, mapping, and modelling geomorphic change in gravel-bed rivers with UAV remote sensing
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2019 |
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[37]
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Using Airborne Hyperspectral Imaging Spectroscopy to Accurately Monitor Invasive and Expansive Herb Plants: Limitations and Requirements of the Method
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2019 |
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[38]
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Coastal dune vegetation mapping using a multispectral sensor mounted on an UAS
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2019 |
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[39]
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Forest biometric parameter extraction using unmanned aerial vehicle to aid in forest inventory data collection.
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2019 |
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[40]
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Multi-View, Deep Learning, and Contextual Analysis: Promising Approaches for sUAS Land Cover Classification
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2019 |
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[41]
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Importance of machine learning for enhancing ecological studies using information-rich imagery
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2019 |
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[42]
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Remote sensing of mangroves using unmanned aerial vehicles: current state and future directions
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2019 |
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[43]
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Vegetation monitoring via a novel push-broom-sensor-based hyperspectral device
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2019 |
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[44]
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Investigation of vegetation as a precondition for improving the management of a national nature park (on the example of Dzharylhatskyi NP)
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2019 |
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[45]
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Tracing the scientific trajectory of riparian vegetation studies: Main topics, approaches and needs in a globally changing world
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2019 |
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[46]
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Monitoring the colonization of alluvial deposits using multitemporal UAV RGB‐imagery
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2019 |
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[47]
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A Novel Mosaic Method for UAV-Based Hyperspectral Images
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2019 |
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[48]
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Geo-fencing Technique in Unmanned Aerial Vehicles for Post Disaster Management in the Internet of Things
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2019 |
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[49]
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Wetland mapping and monitoring using polarimetric and interferometric synthetic aperture radar (SAR) data and tools
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2019 |
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[50]
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Comparison of Accuracy of UAV Aerials and Ground Measurements in the Curonian Spit Dunes
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Baltic J. Modern Computing,
2019 |
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[51]
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Remotely Sensed Rivers in the Anthropocene: State of the Art and Prospects
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2019 |
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[52]
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Citation patterns of publications using unmanned aerial vehicles in ecology and conservation
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2019 |
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[53]
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Using unmanned aerial vehicles for vegetation mapping and identification of botanical species in wetlands
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Landscape and Ecological Engineering,
2019 |
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[54]
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Evaluation of Sentinel-2 time-series for mapping floodplain grassland plant communities
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2019 |
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[55]
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Mini-UAV-Borne Hyperspectral Remote Sensing: From Observation and Processing to Applications
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2018 |
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[56]
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無人飛行機 (UAV) を用いた浮葉植物ヒシの分布推定手法
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保全生態学研究,
2018 |
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[57]
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Maintaining the Portfolio of Wetland Functions on Landscapes: A Rapid Evaluation Tool for Estimating Wetland Functions and Values in Alberta, Canada
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Wetland and Stream Rapid Assessments,
2018 |
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[58]
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Mapping grassland plant communities using a fuzzy approach to address floristic and spectral uncertainty
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Applied Vegetation Science,
2018 |
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[59]
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The advantages of using drones over space-borne imagery in the mapping of mangrove forests
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PLOS ONE,
2018 |
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[60]
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Evaluating the potential of multi-view data extraction from small Unmanned Aerial Systems (UASs) for object-based classification for Wetland land covers
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GIScience & Remote Sensing,
2018 |
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[61]
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Multi-view object-based classification of wetland land covers using unmanned aircraft system images
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Remote Sensing of Environment,
2018 |
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[62]
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Drohneneinsatz in der Vegetationsökologie: Neue Perspektiven auf Muster und Dynamik–das Beispiel Hörfeld-Moor
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2018 |
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[63]
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生态恢复监测研究进展——基于最近三届世界生态恢复大会报告的统计分析
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2018 |
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[64]
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Herramientas de Percepción Remota para el Estudio y Monitoreo de la Vegetación en Zonas Áridas
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2018 |
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[65]
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VEGETATION DETECTION CLOSE TO TRANSMISSION LINES USING CLOUD DATA POINTS FROM LIDAR IN BRAZIL
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Conference Paper,
2018 |
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[66]
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Sensors networks: Application to the tracking of moving targets
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2018 |
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[67]
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Réseaux de capteurs: application à la poursuite des cibles mobiles
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2018 |
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[68]
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ノ J 型 UAV に よる空撮映像を用いた南硫黄島の植物分布・植生図作成の試み
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2018 |
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[69]
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Multi-view Object-based Classification of Wetland Land covers using Unmanned Aerial System Images
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2018 |
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[70]
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Using structure from motion (SfM) technique for the characterisation of riverine systems-Case study in The Headwaters of the Volga River
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2017 |
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[71]
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Practical Experience of the Use of RGB Camera Images in UAV for the Generation of 3D Images in the Accurate Detection Distance of Vegetation Risk in Right-of-Way …
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2017 |
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[72]
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MODELAGEM DE PARÂMETROS DE UM VANT EQUIPADO COM LIDAR EM APLICAÇÕES DE MONITORAMENTO DE LINHAS DE TRANSMISSÃO DE ENERGIA …
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2017 |
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[73]
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Quantifying morphologic changes of a coastal foredune using a low-cost remotely piloted aerial system (RPAS)
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2017 |
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[74]
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MINI-UAV borne hyperspectral remote sensing: A review
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2017 |
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[75]
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Estimation of fractional vegetation cover using mean-based spectral unmixing method
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2017 |
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[76]
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Maintaining the portfolio of wetland functions on landscapes: a rapid evaluation tool for estimating wetland functions and values
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2017 |
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[77]
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Adavantages of using UAVs data to study rocky coasts geomorphology: the case study of the são paio rocky littoral, Portugal
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Dissertation, Open Repository of the University of Porto,
2017 |
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[78]
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Coastal Dune Surveying Using a Low-Cost Remotely Piloted Aerial System (RPAS)
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2017 |
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[79]
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USING STRUCTURE FROM MOTION (SFM) TECHNIQUE FOR THE CHARACTERISATION OF RIVERINE SYSTEMS - CASE STUDY IN THE HEADWATERS OF THE VOLGA RIVER
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GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY,
2017 |
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[80]
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Optimizing the Timing of Unmanned Aerial Vehicle Image Acquisition for Applied Mapping of Woody Vegetation Species Using Feature Selection
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Remote Sensing,
2017 |
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[81]
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Assessing carbon in urban trees: benefits of using high-resolution remote sensing
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2017 |
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[82]
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High resolution remote sensing for reducing uncertainties in urban forest carbon offset life cycle assessments
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2017 |
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[83]
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Unmanned Aerial Vehicles for Geographic Data Capture: A Review
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Thesis,
2017 |
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[84]
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UAV BASED MONITORING OF A LIVING WEIR IN THAILAND
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2016 |
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[85]
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Multi-factor modeling of above-ground biomass in alpine grassland: A case study in the Three-River Headwaters Region, China
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Remote Sensing of Environment,
2016 |
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[86]
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Images from unmanned aircraft systems for surveying aquatic and riparian vegetation
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2016 |
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[87]
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无人机在生物多样性遥感监测中的应用现状与展望
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2016 |
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[88]
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小型 UAV を活用した香川県有明浜の海浜植生と微地形の把握
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日本緑化工学会誌,
2016 |
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[89]
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Overcoming the challenges of using unmanned aircraft for bridge inspections
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2016 |
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[90]
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UAS based monitoring of a living weir in Thailand
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2016 |
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[91]
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Operational Surface Water Detection and Monitoring Using Radarsat 2
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remote sensing,
2016 |
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[92]
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UAV Sensor Selection Based on Aerial Mapping Mission Specific Requirements
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???????? ????? ???,
2016 |
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[93]
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A novel CMOS-compatible, monolithically integrated line-scan hyperspectral imager covering the VIS-NIR range
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SPIE Commercial+ Scientific Sensing and Imaging,
2016 |
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[94]
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UAV による高解像度画像を用いた津波被災海岸林の実態把握
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日本緑化工学会誌,
2015 |
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[95]
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VII Congresso Nacional de Geomorfologia. Geomorfologia 2015
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2015 |
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[96]
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Automated Identification of River Hydromorphological Features Using UAV High Resolution Aerial Imagery
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Sensors,
2015 |
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[97]
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Quantitative Evaluation of Stereo Visual Odometry for Autonomous Vessel Localisation in Inland Waterway Sensing Applications
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Sensors,
2015 |
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[98]
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Vantagens no uso de imagens obtidas com veículos autónomos não-tripulados no estudo de costas rochosas: o exemplo de S. Paio, Vila do Conde
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VII Congresso Nacional de Geomorfologia: Geomorfologia 2015,
2015 |
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[99]
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Forest Monitoring with Drones: Application Strategies for Protected Riverine Forest Ecosystems in the Atlantic Forest of Rio de Janeiro, Brazil
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[100]
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MODELAGEM DE PARÂMETROS DE UM VANT EQUIPADO COM LIDAR EM APLICAÇÕES DE MONITORAMENTO DE LINHAS DE TRANSMISSÃO DE …
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