基于Android的光谱数据传输与处理系统研究
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摘要
提出一种基于Android平台的海水油污检测光谱仪数据传输与处理系统设计方案,方案结合移动终端便捷性、高效性的特性,选用蓝牙对光谱数据和油污等光谱参数进行传输,优化数据解析算法,实现了光谱和油污参数变化曲线实时绘制,并可进行数据本地存储。在实验中,对威海小石岛水域进行了测量,实时快速获得了海水的光谱及油污参数数据,实验结果表明系统具有数据传输处理速度快、稳定性高、成本低等优势,有较高的实用价值。
Based on Android platform, a transmission and processing system was designed to meet the needs of on-site processing and data sharing of ocean spectrometer.The scheme combines the convenience, high efficiency and low power consumption of the mobile terminal, selects Bluetooth to transmit spectral data and oil pollution parameter, optimizes the data analysis algorithm, maps the spectrum and oil pollution parameter curve in real time, and stores the data locally. The communication design can realize real-time, stable and fast data processing and display of spectral and ocean oil pollution parameter under low cost conditions, and effectively save data locally.
Based on Android platform, a transmission and processing system was designed to meet the needs of on-site processing and data sharing of ocean spectrometer.The scheme combines the convenience, high efficiency and low power consumption of the mobile terminal, selects Bluetooth to transmit spectral data and oil pollution parameter, optimizes the data analysis algorithm, maps the spectrum and oil pollution parameter curve in real time, and stores the data locally. The communication design can realize real-time, stable and fast data processing and display of spectral and ocean oil pollution parameter under low cost conditions, and effectively save data locally.
引文
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[2] 周海彬,雷新卓,周望,等.基于Android系统的微型光谱仪总体设计[J].激光与光电子学进展,2016,53(6):298—304.Zhou Haibin,Lei Xinzhou,Zhou Wang,et al.Overall design of miniature spectrometer based on android[J].Laser & Optoelectronics Progress,2016,53(6):298—304.
[3] 祁兴普,陈通,陈斌.基于Android微型近红外光谱仪实时检测云系统的实现[J].食品安全质量检测学报,2016,7(5):1864—1869.Qi Xingpu,Chen Tong,Chen Bin.Realization of real-time detection system based on the Android and micro near-infrared spectrometer[J].Journal of Food Safety & Quality,2016,7(5):1864—1869.
[4] 王峥杰.基于Android平台的便携式光谱仪图像处理软件研究[D].中国科学院研究生院(西安光学精密机械研究所),2013:38—41.Wang Zhengjie.Spectral imaging software for portable spectral imager based on android platform[D].Xi’an Institute of Optics & Precision Mechnics(Chinese Academy of Science),2013:38—41.
[5] 陈通,陆道礼,陈斌.基于Android平台微型近红外光谱仪的开发与应用[J].食品工业,2016,37(9):159—162.Chen Tong,Lu Daoli,Chen Bin.Development and application of a miniature near infrared spectrometer based on an android OS[J].The Food Industry,2016,37(9):159—162.
[6] 李宏斌,刘文清,张玉钧,等.激光诱导荧光水体污染遥测数据定量分析方法[J].光学技术,2006,32(6):941—943.Li Hongbin,Liu Wenqing,Zhang Yujun,et al.A method of DOM guantitative analysis in the laser induced fluorescence remote system[J].Optical Technique,2006,32(6):941—943.
[7] 景敏,华灯鑫,乐静.激光诱导荧光雷达探测系统仿真研究[J].应用光学,2017,37(1):131—135.Jing Min,Hua Dengxin,Le Jing.Simulation of laser induced fluorescence lidar detecting system[J].Journal of Applied Optics,2017,37(1):131—135.
[8] 周孟然,聂梦雅.激光诱导荧光技术的煤矿水源水质监测研究[J].安徽理工大学学报:自科版,2013,33(2):17—19.Zhou Mengran,Nie Mengya.Monitoring of coal mine water quality with laser induced fluorescence technology[J].Journal of Anhui University of Science and Technology:Natural Science,2013,33(2):17—19.
[9] 伯云台,王岚,姜源庆,等.海洋在线水质生态观测系统研究进展[J].环境影响评价,2018,40(2):81—85.Bo Yuntai,Wang Lan,Jiang Yuanqing,et al.Advances in study of automatic monitoring system for seawater quality[J].Environmental Impact Assessment,2018,40(2):81—85.
[10] 程骏超,何中文.我国海洋信息化发展现状分析及展望[J].海洋开发与管理,2017,34(2):46—51.Cheng Junchao,He Zhongwen.Analysis and expectation of china's maritime informatization status[J].Ocean Development and Management,2017,34(2):46—51.
[11] 曹宇峰,蓝虹,黄央央.多参数水质测试仪在海洋环境污染应急监测中的应用[J].海洋开发与管理,2017,34(8):62—64.Cao Yufeng,Lan Hong,Huang Yangyang.Application of multi-parameter water quality tester in emergency monitoring of marine environmental pollution[J].Ocean Development and Management,2017,34(8):62—64.
[12] 韩仲志,刘杰,刘康炜,等.紫外/可见光下海洋溢油油种光谱识别方法[J].光学技术,2016,42(4):337—341.Han Zhongzhi,Liu Jie,Liu Kangwei,et al.Oil spills classification based on spectrum under UV/Vis[J].Optical Technique,2016,42(4):337—341.
[13] Zhenli H,Weihu Z,Zhaosong Q.Study on three dimensional laser-induced fluorescence (3DLIF) techniques and its instrument[J].Journal of Experiments in Fluid Mechanics,2017,31(5):1—14.
[14] Pelevin V,Zlinszky A,Khimchenko E,et al.Ground truth data on chlorophyll-\r,a\r,chromophoric dissolved organic matter and suspended sediment concentrations in the upper water layer as obtained by LIF lidar at high spatial resolution[J].International Journal of Remote Sensing,2017,38(7):1967—1982.
[15] Tian Z,Wang L,Zhang S,et al.Experimental study on microlaser fluorescence spectrometer[J].Optical Engineering,2018,57(1):014102.
[16] Evans M J,Clemens G,Casey C,et al.Developing a mobile app for remote access to and data analysis of spectra[J].Vibrational Spectroscopy,2014,72(3):37—43.