728                                  渔  业  研  究                                     第 47 卷

                   aquatic science applications: demonstrations and valida-  动态监测  [D]. 烟台：中国科学院大学（中国科学院
                   tions[J]. Remote Sensing of Environment, 2017, 201: 47 −  烟台海岸带研究所） ，2019.
                   56.                                              Wei Z N. Seaweed cultivation region remote sensing and
              ［  8  ］   Li X Y, Zhao P L, Liang M X, et al. Dynamics changes  analysis on the dynamics in seaweed-facility recycling in

                   of coastal aquaculture ponds based on the Google earth  northern Jiangsu shoal[D]. Yantai: University of Chinese
                   engine in Jiangsu Province, China[J]. Marine Pollution  Academy of Sciences (Yantai Institute of Coastal Zone
                   Bulletin, 2024, 203: 116502.                     Research, Chinese Academy of Sciences), 2019.
              ［  9  ］   Bolanio K P, Bermoy M M, Gagula A C, et al. Analysis  ［18］   Chang S I, Juang J G. UAV control based on pattern re-
                   of  the  super  typhoon  rai-induced  infrastructure  damage  cognition in aquaculture application[J]. Aerospace, 2024,
                   in severely affected areas of Caraga Region, Philippines  11(4): 302.
                   using  Sentinel-1  SAR  imageries[J].  ISPRS  Annals  of  ［19］   Zhang H, Tian Z N, Liu L H, et al. Real-time detection
                   the Photogrammetry, Remote Sensing and Spatial Infor-  of dead fish for unmanned aquaculture by yolov8-based
                   mation Sciences, 2022, X-3/W1-2022: 9−15.        UAV[J]. Aquaculture, 2025, 595(Pt 1): 741551.
              ［10］   Liu X Y, Wang Y C, Chen T E, et al. Monitoring water  ［20］   Ubina  N  A,  Cheng  S  C,  Chen  H  Y,  et  al.  A  visual
                   quality parameters  of  freshwater  aquaculture  ponds   us-  aquaculture  system  using  a  cloud-based  autonomous
                   ing UAV-based multispectral images[J]. Ecological In-  drones[J]. Drones, 2021, 5(4): 109.
                   dicators, 2024, 167: 112644.               ［21］   Shatnawi N, Abu-Qdais H, Abu-Dalo M, et al. Assess-
              ［11］   Lin Y C, Cheng Y T, Zhou T, et al. Evaluation of UAV  ing water quality of a lake using combination of drone
                   LiDAR  for  mapping  coastal  environments[J].  Remote  images and artificial intelligence models[J]. The Egyp-
                   Sensing, 2019, 11(24): 2893.                     tian  Journal  of  Remote  Sensing  and  Space  Sciences,
              ［12］   Nujaira H, Prasad K A, Kumar P, et al. Quantifying spa-  2025, 28(3): 426 − 435.
                   tio-temporal variation in aquaculture production areas in  ［22］   敦章德，张永拓，朱学聪，等. 无人机与  AI 技术在
                   Satkhira, Bangladesh using geospatial and social survey  对虾养殖中的应用  [J]. 电子技术，2023，52（9） ：
                   [J]. PLoS One, 2022, 17(12): e0278042.           56 − 57.
              ［13］   吴瑞娟，龚雪，李林坤. 联合无人机数据与          Sentinel-2       Dun  Z  D,  Zhang  Y  T,  Zhu  X  C,  et  al.  Application  of
                   影像的流域制图研究       [J]. 测绘与空间地理信息，2024，             UAV and AI technology in shrimp farming[J]. Electron-
                   47（1） ：1 − 4.                                    ic Technology, 2023, 52(9): 56 − 57.
                   Wu  R  J,  Gong  X,  Li  L  K.  River  basin  mapping  using  ［23］   Yu  H  M,  Wang  F  Z,  Hou  Y  Z,  et  al.  MSARG-Net:  a
                   combined  UAV  data  and  sentinel-2  imagery[J].  Geo-  multimodal offshore  floating  raft  aquaculture  area   ex-
                   matics & Spatial Information Technology, 2024, 47(1):  traction  network  for  remote  sensing  images  based  on
                   1 − 4.                                           multiscale  SAR  guidance[J].  IEEE  Journal  of  Selected
              ［14］   Xing Q G, Liu H L, Li J H, et al. A novel approach of  Topics in Applied Earth Observations and Remote Sens-

                   monitoring Ulva pertusa green tide on the basis of UAV  ing, 2024, 17: 18319 − 18334.
                   and deep learning[J]. Water, 2023, 15(7): 3080.  ［24］   许春晓. 无人机航拍技术在养殖用海调查中的应用探
              ［15］   Xiao  Y,  Chen  J  H,  Xu  Y,  et  al.  Monitoring of   chloro-  析  [J]. 渔业研究，2022，44（6） ：613 − 619.
                   phyll-a and suspended sediment concentrations in optic-  Xu C X. Application of UAV aerial photography techno-
                   ally  complex  inland  rivers  using  multisource  remote  logy in the survey of aquaculture sea[J]. Journal of Fish-
                   sensing  measurements[J].  Ecological  Indicators,  2023,  eries Research, 2022, 44(6): 613 − 619.
                   155: 111041.                               ［25］   Cai L N, Yin J, Yan X J, et al. The environmental ana-
              ［16］   Liu Y M, Yang X M, Wang Z H, et al. Mapping the fine  lysis and site selection of mussel and large yellow croak-
                   spatial  distribution  of  global  offshore  surface  seawater  er  aquaculture  areas  based  on  high  resolution  remote
                   mariculture  using  remote  sensing  big  data[J].  Interna-  sensing[J]. Acta Oceanologica Sinica, 2024, 43(3): 66 −
                   tional Journal of Digital Earth, 2024, 17(1): 2402418.  86.
              ［17］   魏振宁. 苏北浅滩海藻养殖区精细化遥感与筏架回收                 ［26］   Lu Y M, Shao W, Sun J. Extraction of offshore aquacul-