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991.
高光谱影像数据预处理是构建高效的影像数据库以及实现地理目标成分信息反演与地理目标识别的基础。本文从反射率演算、光谱微分技术以及高光谱影像数据的降维处理等三个方面对高光谱影像数据预处理进行了研究。实现了基于高光谱影像的反射率反演算法,针对高光谱遥感数据影像分辨率比较低的现状,提出了直方图均衡化、色调平衡、对比度调整等影像处理算法,并给出了实验结果。 相似文献
992.
993.
现代小卫星技术是近些年来迅速发展起来的航天领域高新技术,利用该技术为地球观测服务是一件远景可观、意义深远的事情。在对地观测卫星的诸多关键技术之中,地面站的设计是一个很重要的方面。本文主要对对地观测卫星地面站的站址选择与布局进行了详细的讨论。 相似文献
994.
本文提出一种基于小面元相对配准的正射影像快速更新方法,该方法不涉及常规摄影测量的处理方法,而是直接利用新获取的卫星遥感影像和原始正射影像进行高精度小面元相对配准,然后将卫星遥感影像纠正到原始正射影像参考坐标系,进而实现正射影像的快速更新。 相似文献
995.
小型混合云室常用于自然冰核浓度的观测和人工冰核成核率的检测。使用表明:由于受云室容积、造雾方法和操作程序等因素的影响, 检测结果有很大差异, 难以相互比较。为提高检测数据的可信性, 设计并制作了15 L混合云室。云室由F22压缩机系统制冷, 最低能达到-28℃。为减小云室温度的波动, 在云室外围设计有装满乙二醇-水溶液的夹套。在溶液中, 安装了1个1 kW的电加热器, 接通后可使云室升温。在夹套外, 采用发泡技术形成约10 cm厚的绝热层, 以使云室与外界绝热。云室运行时, 可通过控制压缩机和电加热器得到实验温度。此外, 为拓宽检测冰核浓度的检测范围, 设计了玻璃片接取显微镜读数和糖盘接取目测读数两种可供选择使用的冰晶观测方法, 前者在冰晶浓度高时使用 (人工冰核), 后者在低浓度时使用 (自然冰核)。另一个重要改进是:先由一个超声雾化器产生常温雾, 而后使常温雾穿过一个低温狭缝进行预冷, 当雾温等于或低于云室温度后再进入云室。这一措施不仅避免了瞬时高度过饱和, 而且还减小了对云室温度的扰动。该云室在弹载催化剂成核率的改进实验中发挥了重要作用, 曾用它对多个人工冰核复合配方进行了检测和对比。结果表明:云室具有较好的稳定性和重复性, 整体性能优于以往的同类云室。这一结果是由于改进了提供过冷雾的设计和冰晶接取方法得到的。 相似文献
996.
997.
Particle image velocimetry (PIV) data obtained in a wind-tunnel model of a canopy boundary layer is used to examine the characteristics
of mean flow and turbulence. The vector spacing varies between 1.7 and 2.5 times the Kolmogorov scales. Conditional sampling
based on quadrants, i.e. based on the signs of velocity fluctuations, reveals fundamental differences in flow structure, especially
between sweep and ejection events, which dominate the flow. During sweeps, the downward flow generates a narrow, highly turbulent,
shear layer containing multiple small-scale vortices just below canopy height. During ejections, the upward flow expands this
shear layer and the associated small-scale flow structures to a broad region located above the canopy. Consequently, during
sweeps the turbulent kinetic energy (TKE), Reynolds stresses, as well as production and dissipation rates, have distinct narrow
peaks just below canopy height, whereas during ejections these variables have broad maxima well above the canopy. Three methods
to estimate the dissipation rate are compared, including spectral fits, measured subgrid-scale (SGS) energy fluxes at different
scales, and direct measurements of slightly underresolved instantaneous velocity gradients. The SGS energy flux is 40–60%
of the gradient-based (direct) estimates for filter sizes inside the inertial range, while decreasing with scale, as expected,
within the dissipation range. The spectral fits are within 5–30% of the direct estimates. The spectral fits exceed the direct
estimates near canopy height, but are lower well above and below canopy height. The dissipation rate below canopy height increases
with velocity magnitude, i.e. it has the highest values during sweep and quadrant 1 events, and is significantly lower during
ejection and quadrant 3 events. Well above the canopy, ejections are the most dissipative. Turbulent transport during sweep
events acts as a source below the narrow shear layer within the canopy and as a sink above it. Transport during ejection events
is a source only well above the canopy. The residual term in the TKE transport equation, representing mostly the effect of
pressure–velocity correlations, is substantial only within the canopy, and is dominated by sweeps. 相似文献
998.
2003年8~9月北京及周边地区云系微物理飞机探测研究 总被引:7,自引:4,他引:7
对2003年8~9月北京及周边地区4次飞机探测结果,特别对资料较完整的8月15日的层积云(Sc)和9月4日的层状云(St)系进行了较详细的分析。结果表明,FSSP-100测量的小云粒子(云滴、冰晶)最大浓度的变化范围从Sc云的120 cm-3到深厚高层云(As)的183 cm-3,平均直径7.22~16.05 μm。2D-GA2探头观测的冰粒子最大浓度变化范围从2.25×10-3 cm-3到3.29×10-1 cm-3。机载King热线液态水含量仪(King-LWC)的最大含水量变化范围为0.42~0.69 g/m3。St云垂直和水平分布不均匀特性很明显,高空(-10℃层以上)有较大的小云粒子浓度,达到120 cm-3以上,尺度也比较大,最大值为20 μm。云中液态水含量随高度缓慢减小,基本处于0.1~0.2 g/m3的范围。在-5.9~-8℃层,主要是柱状冰晶和少量结淞体,-8~-12℃层显示基本为结淞粒子,-20℃层左右表现出较多的枝状冰粒子。大冰粒子浓度基本在0.01~1 L-1左右。Sc云和St云的平均谱存在明显的差异。Sc云系的大粒子不同层的平均谱很相似,为单峰分布,谱宽达到1500 μm。越到云低层,云粒子浓度越低。St云系的大粒子不同层的谱分布差异比较大,云中在0~-8℃和-8~-12℃层,直径小于400 μm的粒子谱型基本相似,大于400 μm的大粒子谱分布差异较大,-8~-12℃层有明显的双峰分布特征,而0~-8℃呈现多峰特征,谱宽达到1300~1400 μm。 相似文献
999.
Effect of Atmospheric Haze on the Deterioration of Visibility over the Pearl River Delta 总被引:14,自引:0,他引:14
WU Dui BI Xueyan DENG Xuejiao LI Fei TAN Haobo LIAO Guolian HUANG Jian 《Acta Meteorologica Sinica》2007,21(2):215-223
The studies on the effect of atmospheric aerosol on climate and environment are hot issues in the current circle of international science and technology. In recent years the pollution of aerosol is getting worse and worse over the Pearl River Delta. The clouds of aerosol occur all year round, with heavy pollution area located at the western side at the mouth of Pearl River. The haze weather mainly occurs from October to April next year, resulting in visibility deterioration. From the beginning of 1980s, visibility dramatically deteriorated, obviously increasing haze weather, in which there are three big fluctuations, showing the periods of pollutions of dust, sulphate and dust, fine particle from photochemical process and sulphate and dust accompanying with the development of economy respectively. The long-term tendency of visibility caused by fog and light fog does not show a tendency due to human activities or economic development, which mainly shows the interannual and interdecadal variation of climate. The deterioration of visibility has close relation to the fine particles over Pearl River Delta, with half of PM10 overpass the limited value set by national second graded standard (150μg m-3), meanwhile, all values of PM2.5 overpass the day-mean limited value of American national standard (65μg m-3), especially from October to January next year, monthly mean values of PM2.5 almost reach two times of standard value, indicating the fine particle concentration is very high. The ratio of PM2.5 to PM10 is also very high, reaching 58%-77%, higher especially in dry season than in rainy season. Thus it is the fine particle pollution in aerosol pollution over the Pearl River Delta. Compared with the data of 15 years ago, the ratio of fine particle to aerosol has obviously increased. 相似文献
1000.