Assessment of spray deposition, drift and mass balance from unmanned aerial vehicle sprayer using an artificial vineyard

被引:0
|
作者
Wang, Changling [1 ,2 ]
Herbst, Andreas [3 ]
Zeng, Aijun [1 ,4 ]
Wongsuk, Supakorn [1 ,4 ]
Qiao, Baiyu [1 ,4 ]
Qi, Peng [1 ,4 ]
Bonds, Jane [5 ]
Overbeck, Verena [3 ]
Yang, Yi [6 ]
Gao, Wanlin [2 ]
He, Xiongkui [1 ,4 ]
机构
[1] Centre for Chemicals Application Technology, China Agricultural University, Beijing,100193, China
[2] College of Information and Electrical Engineering, China Agricultural University, Beijing,100094, China
[3] Julius Kühn Institute (JKI) – Federal Research Centre for Cultivated Plants, Institute for Application Techniques in Plant Protection, Braunschweig,38104, Germany
[4] College of Science, China Agricultural University, Beijing,100193, China
[5] Bonds Consulting Group LLC, Panama City,32408, United States
[6] Beijing TT Aviation Technology Co. Ltd, Beijing,102202, China
来源
Science of the Total Environment | 2021年 / 777卷
基金
国家重点研发计划;
关键词
Aerial vehicle - Airborne drift - Mass balance - Non-targeted - Plant protection products - Sedimenting drift - Spray deposition - Spray performance - Sprayer - Vehicle types;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
相关论文
共 50 条
  • [41] Spray deposition and uniformity assessment of unmanned aerial application systems (UAAS) at varying operational parameters
    Byers, Coleman
    Virk, Simerjeet
    Rains, Glen
    Li, Steve
    FRONTIERS IN AGRONOMY, 2024, 6
  • [42] Comparing vineyard imagery acquired from Sentinel-2 and Unmanned Aerial Vehicle (UAV) platform
    Sozzi, Marco M.
    Kayad, Ahmed
    Marinello, Francesco
    Taylor, James A.
    Tisseyre, Bruno
    OENO ONE, 2020, 54 (02) : 189 - 197
  • [43] Testing method and distribution characteristics of spatial pesticide spraying deposition quality balance for unmanned aerial vehicle
    Wang, Changling
    He, Xiongkui
    Wang, Xiaonan
    Wang, Zhichong
    Wang, Shilin
    Li, Longlong
    Bonds, Jane
    Herbst, Andreas
    Wang, Zhiguo
    INTERNATIONAL JOURNAL OF AGRICULTURAL AND BIOLOGICAL ENGINEERING, 2018, 11 (02) : 18 - 26
  • [44] Fractal methods for extracting artificial objects from the unmanned aerial vehicle images
    Markov, Eugene
    JOURNAL OF APPLIED REMOTE SENSING, 2016, 10
  • [45] SPRAY APPLICATION EFFICIENCY FROM A MULTI-ROTOR UNMANNED AERIAL VEHICLE CONFIGURED FOR AERIAL PESTICIDE APPLICATION
    Richardson, B.
    Rolando, C. A.
    Kimberley, M. O.
    Strand, T. M.
    TRANSACTIONS OF THE ASABE, 2019, 62 (06) : 1447 - 1453
  • [46] Documenting customary land boundaries using unmanned aerial vehicle imagery and artificial intelligence
    Abeho, Dianah Rose
    Shoko, Moreblessings
    Odera, Patroba Achola
    PHOTOGRAMMETRIC RECORD, 2024, 39 (188): : 876 - 893
  • [47] Unmanned Aerial Vehicle (UAV) Attitude Estimation Using Artificial Neural Network Approach
    Say, Marc Francis Q.
    Sybingco, Edwin
    Bandala, Argel A.
    Vicerra, Ryan Rhay P.
    Chua, Alvin Y.
    2019 IEEE 11TH INTERNATIONAL CONFERENCE ON HUMANOID, NANOTECHNOLOGY, INFORMATION TECHNOLOGY, COMMUNICATION AND CONTROL, ENVIRONMENT, AND MANAGEMENT (HNICEM), 2019,
  • [48] Wheat Drought Assessment by Remote Sensing Imagery Using Unmanned Aerial Vehicle
    Su, Jinya
    Coombes, Matthew
    Liu, Cunjia
    Guo, Lei
    Chen, Wen-Hua
    2018 37TH CHINESE CONTROL CONFERENCE (CCC), 2018, : 10340 - 10344
  • [49] Spray Deposition and Drift as Influenced by Wind Speed and Spray Nozzles from a Remotely Piloted Aerial Application System
    Martin, Daniel E.
    Perine, Jeffrey W.
    Grant, Shanique
    Abi-Akar, Farah
    Henry, Jerri Lynn
    Latheef, Mohamed A.
    DRONES, 2025, 9 (01)
  • [50] Spray Deposition on Weeds (Palmer Amaranth and Morningglory) from a Remotely Piloted Aerial Application System and Backpack Sprayer
    Martin, Daniel
    Singh, Vijay
    Latheef, Mohamed A.
    Bagavathiannan, Muthukumar
    DRONES, 2020, 4 (03) : 1 - 18
12345