韩磊,史令彬,沈清野,徐海宁,敬强,韦立富,李想,丁同臻,丁明磊,张霞
HAN Lei,SHI Lingbin,SHEN Qingye,XU Haining,JING Qiang,WEI Lifu,LI Xiang,DING Tongzhen,DING Minglei,ZHANG Xia

• 1:国网浙江省电力有限公司舟山供电公司

摘要(Abstract)：

陆域面积小、海域面积大的特点，使海底电缆运维监测占据舟山电网运维的关键地位，其中输电线路工程的运维智能化监测与高效预警尤为重要。在传统的海底电缆运维过程中，大多采用二维监测平台接入多源数据进行危险船舶的人工提醒与驱离，但海底电缆仍会受到外力损伤，导致监测数据不能实时准确还原海底电缆信息。因此，采用线性插值三角网法将扫测数据进行三维实时可视化还原，最终在Unitiy3D引擎搭建的监控系统中对海底电网进行智能可视化监测，可辅助监测系统直观显示海底电缆状态，在发生故障前进行三维预显示并采取措施。
Given the small land area and vast sea area of Zhoushan,the operation,maintenance and monitoring of submarine cables play a crucial part in the operation and maintenance of Zhoushan power grid. Especially important are the intelligent operation and maintenance monitoring and efficient early warning of transmission line projects. In the traditional submarine cable operation and maintenance process,two-dimensional monitoring platforms connecting multi-source data are mostly used to manually alert and drive away dangerous ships. Notwithstanding,the submarine cables are subject to damage by external forces,so the monitored data can not accurately restore the submarine cable information in real time. Therefore,the triangulation with linear interpolation is used to restore the measured data in 3D real-time visualization. Finally,the submarine cables are intelligently visualized and monitored in the monitoring system built by Unitiy3D engine,which can assist the monitoring system to explicitly display the 3D state of the submarine cables and take measures before faults.

关键词(KeyWords)： 三维可视化;海底电缆监测;地形还原;智能监测
3D visualization;submarine cable monitoring;terrain restoration;intelligent monitoring

Abstract:

Keywords:

基金项目(Foundation): 国网浙江省电力有限公司科技项目（5211ZS190070）

作者(Author): 韩磊,史令彬,沈清野,徐海宁,敬强,韦立富,李想,丁同臻,丁明磊,张霞
HAN Lei,SHI Lingbin,SHEN Qingye,XU Haining,JING Qiang,WEI Lifu,LI Xiang,DING Tongzhen,DING Minglei,ZHANG Xia

DOI: 10.19585/j.zjdl.202206011

参考文献(References)：

• [1]CAO C,GE Y,REN X,et al.Experimental research on submarine cable monitoring method based on MEMS sensor[J].Micro and Nano Engineering,2022,15(100130):128-140.
• [2]孙昌华，李景，戴桦，等.电力物联网智能终端安全检测应用研究[J].浙江电力，2021,40(1):24-28.
• [3]吴文庚，林雪倩.海底电缆综合监测关键技术及应用[J].中国电力，2018,51(6):129-135.
• [4]黄毓华，李辰，孙廷玺.海底电缆运行状态监测技术研究[J].中国新技术新产品，2021,7(14):8-11.
• [5]张顼.海底电缆和隧道电缆一体化综合监控平台的建设[J].吉林电力，2016,44(2):26-29.
• [6]张秀峰，史令彬，徐海宁.三维可视化海底电缆综合监控预警技术发展研究[J].中国安全科学学报，2020,30(11):191.
• [7]何旭涛，彭维龙，张引贤，等.海底电缆工程多源勘察数据管理及三维可视化研究[J].南方能源建设，2020,7（增刊1):72-77.
• [8]PENG L.Design and implementation of ROV submarine cable inspection decision support system[C]//IOP Conference Series:Earth and Environmental Science.IOP Publishing,the 2019 4th International Conference,Xi'an,2021,809(1):012003.
• [9]XUTAO H E,WEILONG P,ZHANG Y,et al.multi-source survey data management and 3D visualization of submarine cable Engineering[J].南方能源建设，2020,7（增刊1):72-77.
• [10]XIA Q.Application of 3Ds Max and virtual reality technology in 3D submarine scene modeling[J].Microprocessors and Microsystems,2021,80(103562):158-164.
• [11]DEL-PINO-LóPEZ J C,CRUZ-ROMERO P.Use of 3D-FEM tools to improve loss allocation in three-core armored cables[J].Energies,2021,14(9):2434.
• [12]THEUERKAUFF T,WAGNER Y,WALLHOF F.Realtime simulation and 3D-visualisation of surface and underwater vehicles for monitoring and evaluating autonomous missions[C]//ECMS.32nd Conference on Modelling and Simucation,Oldenburg,Germany,2018:129-135.
• [13]PENG L.Design and implementation of ROV submarine cable inspection decision support system[C]//IOP Conference Series:Earth and Environmental Science.IOP Publishing,2021,809(1):59-65.
• [14]何书锋，魏合龙，林文荣，等.基于Skyline的海洋地质三维可视化系统开发与实现[J].海洋地质前沿，2018,34(3):54-63.
• [15]邓英杰.基于KBEngine的三维可视化系统设计与实现[D].沈阳：中国科学院大学（中国科学院沈阳计算技术研究所），2019.
• [16]谭傜月，张余强，何小海，等.基于Web GL的勘探地形及探井信息三维可视化系统设计[J].现代计算机，2020,25(3):99-103.
• [17]彭燕青，董文煜，吴德聪，等.三维可视化系统应用[J].收藏，2019,16(5):176-177.
• [18]段翔兮，邹琬，高剑，等.基于Unity3d的监控告警信息展示系统的设计与实现[J].四川电力技术，2020,43(3):78-84.