[1] 李春红,王迪,姚兴东,等.辽宁省玉米大豆带状复合种植示范研究[J].大豆科学,2017,36(2):219-225. [2] BENDIG J,YU K,AASEN H,et al.Combining UAV-based plant height from crop surface models, visible, and near infrared vegetation indices for biomass monitoring in barley[J].International journal of applied earth observation and geoinformation,2015,39:79-87. [3] GEIPEL J,LINK J,CLAUPEIN W.Combined spectral and spatial modeling of corn yield based on aerial images and crop surface models acquired with an unmanned aircraft system[J].Remote sensing,2014,6(11):10335-10355. [4] BERRY P M,SPINK J.Predicting yield losses caused by lodging in wheat[J].Field crops research,2012,137(3):19-26. [5] 谢田晋. 基于无人机遥感的作物高度获取方法评估[D].武汉:华中农业大学,2021. [6] DAVI H,SOUDANI K,DECKX T,et al.Estimation of forest leaf area index from SPOT imagery using NDVI distribution over forest stands[J].Remote sensing,2006,27(5):885-902. [7] PELLIKKA P K E, LÖTJÖNEN M, SILJANDER M,et al. Airborne remote sensing of spatiotemporal change (1955—2004) in indigenous and exotic forest cover in the Taita Hills, Kenya[J].International journal of applied earth observation and geoinformation,2009,11(4):221-232. [8] BRYSON M,REID A,RAMOS F,et al.Airborne vision-based mapping and classification of large farmland environments[J].Journal of field robotics,2010,27(5):632-655. [9] HUNG C,BRYSON M,SUKKARIEH S.Multi-class predictive template for tree crown detection[J].ISPRS journal of photogrammetry and remote sensing,2012,68:170-183. [10] 刘治开. 基于无人机可见光图像的作物株高提取研究[D].陕西杨凌:西北农林科技大学,2019. [11] 李燕强,张娟娟,熊淑萍,等.不同冬小麦品种株高的高光谱估算模型[J].麦类作物学报,2012,32(3):523-529. [12] WEISS M,BARET F. using 3d point clouds derived from uav rgb imagery to describe vineyard 3d macro-structure[J].Remote sensing,2017,9(2):111-128. [13] 牛庆林,冯海宽,杨贵军,等.基于无人机数码影像的玉米育种材料株高和LAI监测[J].农业工程学报,2018,35(5):73-82. [14] 郭涛,颜安,耿洪伟.基于无人机影像的小麦株高与LAI预测研究[J].麦类作物学报,2020,40(9):1129-1140. [15] WESTOBY M J,BRASINGTON J, GLASSER N F,et al.‘Structure-from-Motion’ photogrammetry: A low-cost, effective tool for geoscience applications[J].Geomorphology,2012,179:300-314. [16] ASHQPURE A,JUNG J,YEOM J,et al.A novel framework to detect conventional tillage and no-tillage cropping system effect on cotton growth and development using multi-temporal UAS data[J].ISPRS journal of photogrammetry and remote sensing,2019,152:49-64. [17] YUE J B,YANG G J,LI C C,et al.Estimation of winter wheat above-ground biomass using unmanned aerial vehicle-based snapshot hyperspectral sensor and crop height improved models[J].Remote sensing,2017,9(7):708-727. [18] HOLMAN F,RICHE A,MICHALSKI A,et al.High throughput field phenotyping of wheat plant height and growth rate in field plot trials using UAV based remote sensing[J].Remote sensing,2016, 8(12):1031-1055. |