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| Active Navigation System for a | rubber | -Tapping Robot Based on Trunk Detection |
| Application of Optical Remote Sensing in | rubber | Plantations: A Systematic Review |
| Assessment of the Impact of | rubber | Plantation Expansion on Regional Carbon Storage Based on Time Series Remote Sensing and the InVEST Model |
| Capability of Phenology-Based Sentinel-2 Composites for | rubber | Plantation Mapping in a Large Area with Complex Vegetation Landscapes |
| Change Analysis of the Spectral Characteristics of | rubber | Trees at Canopy and Leaf Scales During The Brazilian Autumn |
| Comparison of Different Important Predictors and Models for Estimating Large-Scale Biomass of | rubber | Plantations in Hainan Island, China |
| Comparison of Pixel- and Object-Based Approaches in Phenology-Based | rubber | Plantation Mapping in Fragmented Landscapes |
| Detection of | rubber | Tree Powdery Mildew from Leaf Level Hyperspectral Data Using Continuous Wavelet Transform and Machine Learning |
| Developing Multi-Source Indices to Discriminate between Native Tropical Forests, Oil Palm and | rubber | Plantations in Indonesia |
| High-Precision Stand Age Data Facilitate the Estimation of | rubber | Plantation Biomass: A Case Study of Hainan Island, China |
| Identifying Establishment Year and Pre-Conversion Land Cover of | rubber | Plantations on Hainan Island, China Using Landsat Data during 1987-2015 |
| Image Multi-Thresholding to Characterise the Mechanical Stability of | rubber | Latex Concentrate |
| InflateSAR Campaign: Testing SAR Vessel Detection Systems for Refugee | rubber | Inflatables, The |
| Integrating Phenological and Geographical Information with Artificial Intelligence Algorithm to Map | rubber | Plantations in Xishuangbanna |
| Mapping Deciduous | rubber | Plantation Areas and Stand Ages with PALSAR and Landsat Images |
| Mapping of | rubber | Forest Growth Models Based on Point Cloud Data |
| Mapping | rubber | Plantations and Natural Forests in Xishuangbanna (Southwest China) Using Multi-Spectral Phenological Metrics from MODIS Time Series |
| Mapping tropical forests and | rubber | plantations in complex landscapes by integrating PALSAR and MODIS imagery |
| Monitoring | rubber | plantation expansion using Landsat data time series and a Shapelet-based approach |
| Novel | rubber | Hand Illusion Paradigm Allowing Active Self-Touch With Variable Force Feedback Controlled by a Haptic Device, A |
| Phenology-Based Vegetation Index Differencing for Mapping of | rubber | Plantations Using Landsat OLI Data |
| Recognition of Raised Characters For Automatic Classification of | rubber | Tires |
| Retrieval of Aerodynamic Parameters in | rubber | Tree Forests Based on the Computer Simulation Technique and Terrestrial Laser Scanning Data |
| Robust Accurate Lane Detection and Tracking for Automated | rubber | -Tired Gantries in a Container Terminal |
| rubber | Band Algorithm for Estimating the Length of Digitized Space-curves |
| rubber | Identification Based on Blended High Spatio-Temporal Resolution Optical Remote Sensing Data: A Case Study in Xishuangbanna |
| rubber | Tree Crown Segmentation and Property Retrieval Using Ground-Based Mobile LiDAR after Natural Disturbances |
| rubber | Trees, Plantations, Analysis |
| rubber | -mask technique, I: Pattern measurement and analysis, The |
| rubber | -mask technique, II: Pattern Storage and Recognition, The |
| Spatio-temporal prediction of leaf area index of | rubber | plantation using HJ-1A/1B CCD images and recurrent neural network |
| Stand age estimation of | rubber | (Hevea brasiliensis) plantations using an integrated pixel- and object-based tree growth model and annual Landsat time series |
| Subset Warping: | rubber | Sheeting with Cuts |
| Suitability of PlanetScope Imagery for Mapping | rubber | Plantations, The |
| Surfaces, | rubber | Sheets, Plates |
| Tri-Camera High-Speed Videogrammetry for Three-Dimensional Measurement of Laminated | rubber | Bearings Based on the Large-Scale Shaking Table |
| Using Multi-Temporal Satellite Data to Analyse Phenological Responses of | rubber | (Hevea brasiliensis) to Climatic Variations in South Sumatra, Indonesia |
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