摘要
针对目前铅鱼挂载的水下测量装置功耗高、铅鱼上流速仪无法测量水流流向和确定铅鱼位置,以及水文缆道人工测深精度不高的问题,开发研制出智能铅鱼水文信息测量系统。该系统采用超低功耗电路延长水下测量装置工作时长,采用三维姿态电路实时测量铅鱼三维姿态,并结合卡尔曼数据融合算法提高测流精度并获取水流流向,采用水深测量电路实时测量水深,并结合涌浪传感器滤除波浪对水深测量精度的影响,解决了人工测深精度低的问题,并大幅提高了水深测量精度。
In view that underwater measurement device on lead fish has high power consumption and low precisionof artificial water depth measurement by cable way, and that current meter on the lead fish cannot measure the flowdirection or determine the position of the lead fish , we developed an intelligent system of lead fish hydrological in-formation measurement. The system adopts ultra-low power circu it to increase the working hours of the device, andthree-dimensional posture circuit to measure the three dimensional position of the lead fish in real time. Moreover,it could improve the precision of flow velocity measurement and obtain flow direction by using the Kalman data fu-sion algorithm. It could also improve the precision of water depth measurement by combining surge wave sensorswith real-time circuit to address the influence of waves on depth measurement.
作者
吴锦生
王剑平
WU Jin- sheng WANG Jian-ping(College of Information Engineering and Automation, Kunming University of Science and Technology,Kunming 650500, Chin)
出处
《长江科学院院报》
CSCD
北大核心
2017年第5期146-150,共5页
Journal of Changjiang River Scientific Research Institute
基金
国家自然科学基金项目(61364008)
云南省应用基础研究重点项目(2014FA029)
云南省教育厅重点基金项目(2013Z127)
关键词
铅鱼
超低功耗
水深
流速
水流流向
水文测量
lead f ish
ultra-low power consumption
water depth
flow velocity
flow direction
hydrological meas-urement
