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Wheel-Based Lidar Data for Plant Height and Canopy Cover Evaluation to Aid Biomass Prediction., , , , , , and . IGARSS, page 3242-3245. IEEE, (2018)Image-Aided LiDAR Mapping Platform and Data Processing Strategy for Stockpile Volume Estimation., , , , , , , , , and 2 other author(s). Remote. Sens., 14 (1): 231 (2022)New Orthophoto Generation Strategies from UAV and Ground Remote Sensing Platforms for High-Throughput Phenotyping., , , , and . Remote. Sens., 13 (5): 860 (2021)Multi-Sensor Integration Onboard a UAV-Based Mobile Mapping System for Agricultural Management., , , , , , , , and . IGARSS, page 3412-3415. IEEE, (2018)Image-assisted GNSS/INS navigation for UAV-based mobile mapping systems during GNSS outages., , and . PLANS, page 417-425. IEEE, (2018)Linear Feature-Based Triangulation for Large-Scale Orthophoto Generation Over Mechanized Agricultural Fields., , , and . IEEE Trans. Geosci. Remote. Sens., (2022)Assessing Vehicle Profiling Accuracy of Handheld LiDAR Compared to Terrestrial Laser Scanning for Crash Scene Reconstruction., , , , , and . Sensors, 21 (23): 8076 (2021)Salt Stockpile Inventory Management Using LiDAR Volumetric Measurements., , , , , , , , and . Remote. Sens., 14 (19): 4802 (2022)Comparative Analysis of Different Mobile LiDAR Mapping Systems for Ditch Line Characterization., , , and . Remote. Sens., 13 (13): 2485 (2021)Development of a Miniaturized Mobile Mapping System for In-Row, Under-Canopy Phenotyping., , , , , and . Remote. Sens., 13 (2): 276 (2021)