光学仪器实验室绝对辐射定标及现场质量跟踪     

汪小勇  李铜基 《海洋技术学报》2003,22(1):29-33

为保证现场测量离水辐射率的精度，对现场测量光谱仪进行严格的实验室绝对辐射定标是必不可少的。另外，由于现场试验环境复杂，要在野外长期试验，需要随时监测仪器的工作状态是否稳定。文章以加拿大Satlantic公司的光学仪器航空模拟器（SAS－Ⅱ）为例业阐述实验室绝对辐射定标的方法，类似可推广至同类光学传感器的实验室绝对辐射定标；根据SeaWiFS质量监控器（SQM－Ⅱ）监测剖面仪／表面仪的变化来阐述现场质量跟踪的方法。  相似文献   

光学悬浮沙粒径谱仪   总被引：2，自引：8，他引：2  

于连生  宋家驹  唐宏寰 《海洋技术学报》2004,23(4):1-5

在海岸工程应用中，需要了解悬沙运移规律，由于我国近海河口悬沙浓度很高，尚未有可用的现场测量仪器。在国家863计划的支持下，我们研制成功了可用于现场高浓度悬沙测量的“光学悬洋沙粒径谱仪”。文章介绍光学悬浮沙粒径谱仪的原理，现场实验结果和高浓度悬沙数字图像分析技术。现场实验表明，该仪器可用于粒径5～100μm浓度大于10%的悬沙现场测量。文中给出了芦潮港海区悬沙测量结果。  相似文献   

《海洋技术》2003年1～4期总目录     

《海洋技术学报》2003,22(4)

HY- 1卫星水色扫描仪的辐射定标与真实性检验陈清莲 ,李铜基 ,任洪启 ( 1 - 1 )………………………SAS测量水体表观光学参数的方法李铜基 ,陈清莲 ( 1 - 1 0 )…………………………………………………高效液相色谱法测量海洋浮游植物色素浓度朱建华 ( 1 - 1 4)…………………………………………………用 4波段红外辐射计现场测量海表面温度任洪启 ( 1 - 2 0 )……………………………………………………气溶胶的光学厚度与反射率比的处理方法高　飞 ( 1 - 2 5 )……………………………………………………光学仪器实验室绝对辐射定标及现场…  相似文献   

海水现场水色色度及渤海水域水色色度分析     

张绪琴  张世魁 《黄渤海海洋》2001,19(3):76-81

叙述了目前海水现场水色测量的弊端，指出数字化海洋水色的潜在应用价值；根据色度学及色度学的三原色基本理论，确定海洋现场水色的色度要素，使海洋现场水色标号统一为物理学中严格的颜色物理量。结合1996年渤海水域光谱反射测量，对渤海水域4个典型站位的反射光谱做了水色色度分析，并进行了2种测量方法的比较。  相似文献   

海水营养盐现场自动分析技术   总被引：2，自引：0，他引：2  

杜军兰  邹常胜  袁钟才  夏冬 《海洋技术学报》2003,22(3):37-42

介绍了目前国内外对海水营养盐浓度测量仪器的研究现状，论述了吸光光度法测量营养盐浓度的基本原理，以及硅酸盐和氨氮现场测量分析工艺流程。  相似文献   

误差椭圆在精密工程测量中的应用研究   总被引：2，自引：0，他引：2  

卞和方  张书毕  李益斌  王波 《海洋测绘》2009,29(1):49-51

进行精密工程测量时，要根据工程的要求和现场的具体条件，通过精度分析拟定切实可行的观测方案，采用合适的测量方法来获得最可靠的成果。据此探讨了误差椭圆在精密工程测量中的应用。  相似文献   

现场测量与室内分析悬浮体粒度方法的比较     

胡刚  刘健  苏大鹏 《海洋地质前沿》2009,25(11):32-36

2008年8月，在长江河口最大浑浊带边缘地区，利用现场激光粒度仪LISST-100X在无扰动情况下，定点连续观测了水体悬浮体粒径和体积浓度，并结合采取水样进行了实验室分析，比较两种方法得到的悬浮体颗粒的平均粒径、体积浓度和粒径的分布，结果显示，进行悬浮体含量测量时，两种方法得到结果均能有效反映悬浮体含量；LISST现场无扰动测量可真实有效反映悬浮体的粒径及物质组成，但在浑浊带地区，尤其是浮泥发生地区必须借助于现场水样的室内分析。  相似文献   

水中矿物油荧光特性实验研究   总被引：4，自引：0，他引：4  

夏达英  史锦珊等 《黄渤海海洋》2002,20(2):91-98

为了实现现场测量地表水中矿物油含量的全光纤荧光计的研制，采用荧光光谱测量分析方法，于1999年10月－2000年5月，采集了国内外不同的地区原油和成品油共23种，用14种不同波长的激发光激励，进行荧光光谱特性测量实验研究，同时，对不同浓度的矿物油，水混合液地进行了测量实验，得出其最低检测浓度为0．005mg/L，测量了青岛近岸海域表层受油污染海水的含油量为0．01－0．22mg/L，此外对水中矿物油受激荧光发射原理也作了简述，并对水中矿物油荧光光谱特性，浓度与荧光强度的关系，以及为研制现场测量水中矿物油学的全光纤荧光计的可能性作出了结论性的意见。  相似文献   

ADCP对悬浮沉积物浓度的测量及其误差分析研究   总被引：6，自引：0，他引：6  

兰志刚  龚德俊  李思忍  徐永平  秦枫  姜静波 《海洋科学》2004,28(10):20-23

为实时、连续地测量海水中悬浮沉积物，利用声学多普勒海流剖面仪(ADCP)，可以在测流的同时，测量海洋悬浮沉积物浓度。描述了利用后散射强度，估计悬浮沉积物浓度的原理。在现场测试中，利用采水器采集水样，通过水样分析并结合声信号的衰减特征对AI)CP的测量结果进行修正。作者还结合现场测试结果，对这一测量方法的精度进行了分析。现场实验表明，经公式校正后，ADCP测得的后散射强度与实测水样所获得的悬浮沉积物浓度之间有很好的相关性，相关系数达0．88，由此证明，此测量方法具有很好的实用价值和应用前景。  相似文献   

海水叶绿素a现场测量仪研究   总被引：9，自引：2，他引：9  

夏达英  王振先  夏敬芳  夏荣环  辛海英 《海洋与湖沼》1997,28(4):433-439

采用荧光测量方法研究成功的海水叶绿素a现场测量仪，是用于海上现场实时测量海洋中浮游植物体内叶绿素a含量的新型海洋仪器。本仪器采用低功耗、高强度、低重复频率、窄脉冲宽度的脉冲氙灯，为激发光源及相应的脉冲检测技术测量荧光信号。该仪器可在海表层至50m水深内任一日光强度下工作；测量海洋中浮游植物体内叶绿素a的浓度范围为1×10-6—1×10-9g／cm3；当仪器走航拖曳速度为2m／s时，其空间分辨度为1m，仪器具有海上现场测量实用价值。  相似文献   

两种测高重力异常反演海底地形方法比较     

彭聪  周兴华  王颖 《海洋通报》2020,39(2):223-230

针对基于测高重力异常反演海底地形理论众多、选取标准无法确定的情况,利用中国南海海域内的测高重力异常和船测水深数据研究比较了重力地质法(GGM)和SmithSandwell (SAS)法两种精度高、计算速度相对较快的海底地形反演理论。其中,GGM方法的密度差异常数Δρ由向下延拓技术确定为2.15 g·cm-3,SAS方法采用移去-恢复技术得到反演波段内重力异常和水深数据。结果表明:测线分布条件一定时,水深多在-1 000 m左右或反演区域岛礁、海山等复杂海底地形较多时选取SAS方法,水深主要在-3 000 m以深的区域或海底地形复杂程度不高时选取GGM方法则能获取更好的效果,其效果最优处与船测水深在检核点处的差值最优平均值能达-0.61 m,标准差可达14.67 m。  相似文献   

Theoretical accuracy of synthetic aperture sonar micronavigation using a displaced phase-center antenna     

Bellettini  A. Pinto  M.A. 《Oceanic Engineering, IEEE Journal of》2002,27(4):780-789

The Cramer-Rao lower bounds on the cross-track translation and rotation of a displaced phase-center antenna (DPCA) in the slant range plane between two successive pings (known as DPCA sway and yaw in what follows) are computed, assuming statistically homogeneous backscatter. These bounds are validated using experimental data from a 118-182-kHz sonar, showing an accuracy of the order of 20 microns on the ping-to-ping cross-track displacements. Next, the accuracy required on the DPCA sway and yaw in order to achieve a given synthetic aperture sonar (SAS) beampattern specification, specified by the expected SAS array gain, is computed as a function of the number P of pings in the SAS. Higher accuracy is required when P increases to counter the accumulation of errors during the integration of the elementary ping-to-ping estimates: the standard deviation must decrease as P/sup -1/2/ for the DPCA sway and P/sup -3/2/ for the yaw. Finally, by combining the above results, the lower bounds on DPCA micronavigation accuracy are established. These bounds set an upper limit to the SAS length achievable in practice. The maximum gain Q in cross-range resolution achievable by a DPCA micronavigated SAS is computed as a function of the key SAS parameters. These theoretical predictions are compared with simulations and experimental results.  相似文献   

Position Correction Using Echoes From a Navigation Fix for Synthetic Aperture Sonar Imaging     

《Oceanic Engineering, IEEE Journal of》2009,34(3):294-306

In synthetic aperture sonar (SAS), the platform position must be known sufficiently accurately for signals to be added coherently along the synthetic aperture. Often, the onboard navigation system is insufficiently accurate by itself, so corrections are needed. A well-known method is the displaced phase center antenna (DPCA) procedure for correcting platform position using seabed echoes. DPCA methods have the advantage of insensitivity to changing interference patterns, moving specular reflection, and changing occlusion, with aspect. However, when seabed echoes are unusable, either because they are too weak, or because they are corrupted by multipath, the seabed DCPA method may fail. Therefore, we present an alternative DPCA method using sonar echoes from a suitable navigation fix, based on an object detected after standard beamforming. In our proposed system, look angle is obtained by tracking the centroid of the rectified image of the fix object. When the standard DPCA correction equations are modified for a fixed reflector, it turns out that they provide incremental range and look-angle errors, precisely the values required when the target itself is used as the navigation fix. Moreover, the values obtained are then self-compensating for errors in estimating seabed depth or forward motion of the platform. The navigation fix is selected by bracketing in range, and beamforming overlapping subsets of the receiver array. In this paper, we present experimental results at transmitter frequencies of 25 and 100 kHz where our method enabled well-focused SAS images to be generated with little recourse to other navigation information. Hence, SAS can be carried out, even when a sophisticated inertial navigation system (INS) is not available.   相似文献   

Mean–Standard Deviation Representation of Sonar Images for Echo Detection: Application to SAS Images     

Maussang  F. Chanussot  J. Hetet  A. Amate  M. 《Oceanic Engineering, IEEE Journal of》2007,32(4):956-970

This paper addresses the detection of underwater mines echoes with application to synthetic aperture sonar (SAS) imaging. A detection method based on local first- and second-order statistical properties of the sonar images is proposed. It consists of mapping the data onto the mean-standard deviation plane highlighting these properties. With this representation, an adaptive thresholding of the data enables the separation of the echoes from the reverberation background. The procedure is automated using an entropy criterion (setting of a threshold). Applied on various SAS data sets containing both proud and buried mines, the proposed method positively compares to the conventional amplitude threshold detection method. The performances are evaluated by means of receiver operating characteristic (ROC) curves.  相似文献   

Shadow Enhancement in Synthetic Aperture Sonar Using Fixed Focusing     

《Oceanic Engineering, IEEE Journal of》2009,34(3):269-284

A shadow cast by an object on the seafloor is important information for target recognition in synthetic aperture sonar (SAS) images. Synthetic aperture imaging causes a fundamental limitation to shadow clarity because the illuminator is moved during the data collection. This leads to a blend of echo and shadow, or geometrical fill-in in the shadow region. The fill-in is most dominant for widebeam synthetic aperture imaging systems. By treating the shadow as a moving target and compensating for the motion during the synthetic aperture imagery, we avoid the geometrical shadow fill-in. We show this to be equivalent to fixing the focus at the range of the shadow caster. This novel technique, referred to as fixed focus shadow enhancement (FFSE) can be used directly as an imaging method on hydrophone data or as a postprocessing technique on the complex SAS image. We demonstrate the FFSE technique on simulated data and on real data from a rail-based SAS, and on two different SAS systems operated on a HUGIN autonomous underwater vehicle.   相似文献   

Bathymetry enhancement by altimetry-derived gravity anomalies in the East Sea (Sea of Japan)   总被引：1，自引：0，他引：1  

Kwang Bae Kim  Yu-Shen Hsiao  Jeong Woo Kim  Bang Yong Lee  Yi Kyun Kwon  Chang Hwan Kim 《Marine Geophysical Researches》2010,31(4):285-298

The gravity-geologic method (GGM) was used to enhance the bathymetry of the East Sea (Sea of Japan) with satellite altimetry-derived free-air gravity anomalies and shipborne depth measurements. By comparison with the bathymetry model of Smith and Sandwell’s (SAS) approach (1994), GGM was found to have an advantage with short wavelength (≤12 km) components, while SAS better predicts longer wavelength (≥25 km) components, despite its dependency on density contrast. To mitigate this limitation, a tuning density contrast of 10.25 g/cm³ between seawater and the seafloor was primarily estimated by the downward continuation method and then validated by the check points method with GGM. Similarly, SAS is limited by the “A” value in low-pass part of the Wiener filter, which defines the effective range of the wavelength components on bathymetry. As a final result, we present an enhanced GGM bathymetry model by integrating all available data.  相似文献   

Relative Height Estimation by Cross-Correlating Ground-Range Synthetic Aperture Sonar Images     

Saebo  T.O. Hansen  R.E. Hanssen  A. 《Oceanic Engineering, IEEE Journal of》2007,32(4):971-982

The relative height of the seafloor can be estimated by using two vertically displaced receivers. In this paper, we propose techniques to improve the accuracy of the estimated height. Our results are based on the use of synthetic aperture sonar (SAS) imaging, which implies coherent addition of complex images acquired from a moving platform. The SAS processing improves the along-track (or azimuth) resolution, as well as the signal-to-noise ratio (SNR), which in turn improves the estimated height accuracy. We show that the shift of the effective center frequency induced by coherent, frequency-dependent scattering affect the time-delay estimates from complex cross correlations, and we propose a correction technique for broadband signals with uneven magnitude spectra. To reduce the effect of geometrical decorrelation and increase the coherence between the images, we beamform the sonar images onto an a priori estimate of the seafloor height before correlating. We develop a mathematical model for the imaging geometry. Finally, we demonstrate our proposed estimators by providing relative seafloor height estimates from real aperture and SAS images, obtained during the InSAS-2000 experiment at Elba Island in Italy. In particular, we demonstrate that the SAS image quality is significantly improved by inclusion of the height estimates as a priori information.  相似文献   

Motion-Compensation Improvement for Widebeam, Multiple-Receiver SAS Systems   总被引：1，自引：0，他引：1  

《Oceanic Engineering, IEEE Journal of》2009,34(3):262-268

The effect that uncompensated motion errors have on synthetic aperture sonar (SAS) imagery can be severe. Time-domain beamforming SAS reconstruction is able to compensate arbitrary track errors, but the more efficient frequency-domain reconstruction algorithms, such as the range-Doppler, chirp-scaling, and wave number (aka range migration or Stolt-mapping) algorithms do not allow for simple compensation, especially for widebeam sonars. Data processed via these block algorithms is usually compensated before azimuth compression in a computationally inexpensive preprocessing step. Unfortunately, this compensation assumes a narrowbeam geometry, causing blurring in high-resolution images collected with widebeam sonars. In this paper, we demonstrate a new technique for compensation of large, but known, motion errors in data collected with widebeam geometry sonars. The technique relies on obtaining angle-of-arrival information from the multiple-receiver array configuration typical in high-resolution SAS systems. The new method of compensating for motion errors was found to significantly outperform the previous techniques in a simulation of point-reflector imagery.   相似文献   

合成孔径声纳技术在海底管道探测中的应用进展     

于灏  王培刚  段康弘  张小波 《海洋测绘》2015,35(3):20-23

从合成孔径声纳的基本原理、研究进展、应用,以及实际应用中存在的问题等几个方面,探讨了该技术在海底管道探测方面的应用潜力。国内外一些海域开展的探索性应用显示,该技术可以对海底管道的埋设状态及其周边海域地形地貌和其他小目标清晰成像,并且能够获得管道状态和位置等的细节信息。然而,鉴于海洋水声环境的复杂性和特殊性,SAS在实际应用中仍存在一些问题,需要在信号处理方法、作业方式等方面进行更为深入的研究探索。  相似文献   

Characterization and seasonal variations of surface active substances in the natural sea surface micro-layers of the coastal Middle Adriatic stations     

Sanja Frka  Zlatica KozaracBožena Ćosović 《Estuarine, Coastal and Shelf Science》2009

Surface micro-layer (ML) samples were collected in different seasons over a long time period in the coastal area of the Middle Adriatic Sea including the seawater Rogoznica lake location and the semi-enclosed estuarine Martinska station. Natural surface micro-layers were studied as original samples and as ex-situ reconstructed films after previous extraction by organic solvents of different polarities (n-hexane and dichloromethane). Using alternating current (AC) voltammetry (out-of-phase mode) the concentration of surface active substances (SAS) in original ML of both locations was determined, and the enrichment factor (EF) in the ML was related to the underlayer water (ULW) samples collected at 0.5 m depth. Seasonal variability of SAS concentrations of the ML was observed at both locations. The ex-situ films were studied using a modified AC voltammetry method (out-of-phase mode) transferring an organic extract of natural micro-layers spread onto electrolyte from the air-water interface to the mercury electrode surface. The comparison of adsorption characteristics for model lipids of different polarities and those of transferred ex-situ reconstructed films has revealed that different types of lipid material were present in each ex-situ film of the same micro-layer. Additional characterization of the surface active material of natural MLs was carried out by AC voltammetry (in-phase mode) using cathodic reduction of cadmium ions as an indicator of permeability of different films adsorbed at the mercury electrode. The SAS of ML of both investigated locations induced an inhibition effect to the reduction of cadmium ions. Seasonal variations of inhibition have also been noticed. The electrochemical study contributed to the physicochemical characterization of the surface active matter of the surface micro-layer with the emphasis to the role of lipids which, although they represent a minor fraction of the total micro-layer organic material, contribute considerably to the micro-layer formation and stabilization at the air–water interface.  相似文献