农田渍害遥感监测方法研究应用进展

首先介绍了农田渍害的表现特征;其次根据监测原理,将国内外农田溃害遥感监测的主要方法分为地表指示标志法、地下水位反演法和与非遥感方法相结合的综合分析法,并分别对各类方法的原理、技术、适用范围及优缺点进行分析,发现各种方法均能解决特定的农田渍害监测问题,同时也存在着缺陷和局限性;最后,进行了总结并指出了两种潜在的遥感监测方...     

基于遥感的黄土丘陵沟壑区人口密度分布模拟——以甘肃省榆中县为例

基于“面向对象”的人口分配原则,通过扩展的城市人口-面积异速生长模型,以SPOT5遥感影像为基本数据源,提取居民地信息;以榆中县为例,建立居民地分类体系,采取城乡人口分割算法,以人口统计数据为总量控制建立了人口分布的反演模型,模拟了榆中县域人口的空间分布。研究方法可为黄土丘陵沟壑区中尺度人口分布模拟的理论与应用研究提供借鉴。     

基于自适应遗传算法的超平面分类及遥感应用

智能分类算法是遥感影像分类研究的热点,遗传算法作为一种智能全局优化技术在遥感影像分类中具有良好应用前景.针对现有多光谱遥感影像分类方法的不足,提出了基于自适应遗传算法的超平面分类方法(hyper plane-adaptive genetic algorithm,HP-AGA)并应用于遥感影像分类,该方法利用神经网络中的神经元激活函数Sigmoid函数,对遗传算法中交叉率、变异率进行非线性自适应性调整,不再需要反复训练遗传参数,同时利用快速全局寻优特点,确定分类超平面的各个位置参数,从而获取最佳分类超平面集进行分类.多光谱遥感影像分类方法的应用实验表明,基于自适应遗传算法的超平面遥感分类方法能更快、更稳定地收敛到全局最优解,具有更好的效率及鲁棒性,并能取得优于简单遗传超平面分类算法及传统分类方法的分类精度.     

CWNs中机会协作传输策略及其差错性能分析

在主用户和感知用户共存的认知无线网(cognitive wireless networks, CWNs)中,针对如何在保证主用户有效传输的同时满足感知用户无线业务通信要求的问题,提出了一种基于频谱感知的机会协作传输策略。在瑞利衰落信道下对所提方案进行理论分析,给出了协作传输与非协作传输策略下平均误比特率的解析表达式,理论分析和仿真结果表明,相对于传统非协作传输而言,机会协作传输策略的差错性能得到明显改善。     

Temporal and spatial distribution of tropospheric CO<Subscript>2</Subscript> over China based on satellite observations

Mid-troposphere CO₂ data retrieved by the AIRS (atmospheric infrared sounder) were validated with five ground-based stations and aircraft measurements in the Northern Hemisphere. AIRS CO₂ products show good agreement with ground and aircraft observations. The data had a monthly average accuracy better than 3 ppmv. In this study, the spatial and temporal distribution of mid-troposphere CO₂ from January 2003 to December 2008 was analyzed based on this satellite product. The average concentration of atmospheric CO₂ was higher in the Northern Hemisphere than in the Southern Hemisphere. The yearly average results show a gradual increase from 2003 to 2008. In China, the annual growth rate was about 2 ppmv/a, similar to the United States, Europe, Australia and India, but was slightly lower than Canada and Russia. Mid-troposphere CO₂ concentrations were higher over northern China than over southern areas, due to differences in natural conditions and industrial layout. There were four centers of high CO₂ concentration between 35° and 45°N over China, with low concentrations over Yunnan Province. There was a significant seasonal CO₂ variation with peak concentration in spring and the lowest concentration in autumn.     

Global vegetation change analysis based on MODIS data in recent twelve years①

Vegetation cover change is critical for understanding impacts and responses of vegetation to climate change. A study found that vegetation in the regions between 45°N-70°N was increasing using normalized difference vegetation index( NDVI) from 1981 to 1991 ten years ago. The global vegetation growth has changed because of climate change in recent twelve years( 2001- 2012). After thorough analysis based on satellite data,it is found that it is evident that the global vegetation changed( NDVI) little,and it is increasing slightly in Northern hemisphere while it is decreasing slightly in Southern Hemisphere. For different latitudes,vegetation is increasing 0.17% every year from 60°N to 70 °N( R~2= 0.47,P 0.013),while the vegetation is decreasing 0.11% every year from 10°N to 10° S( R~2= 0.54,P 0.004). For different continents,the vegetation in South America is decreasing 0.16% every year( R~2= 0.78,P 0.0001) and it is increasing 0.05% every year in Asia( R~2= 0.28,P 0.072) and 0.25% every year in Oceania( R~2= 0.24,P 0.1). The analysis of global vegetation in different seasons indicates that spatial distribution of global temperature and water vapor will affect the spatial distribution of vegetation,in turn,the spatial distribution of vegetation will also regulate the global temperature and water vapor spatial distribution at large scale. The growth and distribution of vegetation are mainly caused by the orbit of the celestial bodies,and a big data model based on gravitational-magmatic change with the solar or the galactic system as its center is proposed to be built for analyzing how the earth's orbit position in the solar and galaxy system affects spatial-temporal variations of global vegetation and temperature at large scale. These findings promise a holistic understanding of the global climate change and potential underlying mechanisms.     

基于DMSP/OLS数据的全国空气污染物时空演变研究

基于美国国防气象卫星搭载传感器DMSP/OLS的夜间灯光遥感影像，从2000—2013年选取4年进行影像采集、影像校正等操作后，提取了灯光总量、灯光面积数据，根据年份间夜间灯光数据的增长量开展了全国各区域间的差异分析，结合空气污染物排放量进行了相关度分析。研究结果发现：（1）整体上全国夜间灯光量增幅变大，且增幅受相关年份政策影响。（2）夜间灯光总量与空气污染物排放量呈现正相关性，且两者相关系数较高；工业空气污染物与夜间灯光量相关性不断降低，同时生活空气污染物与夜间灯光量相关性不断提高。（3）夜间灯光总量与空气污染的高/高集聚区域一致性稳步提升。结合夜间灯光影像数据与空气污染数据，通过比较夜间灯光数据差异探讨空气污染物的时空演变，为我国空气污染的综合治理提供了一个新的视角。     

Dempster-Shafer （D-S） algorithm with credit scale in spectrum sensing

In cognitive radio, the detection probability of primary user affects the signal receiving performance for both primary and secondary users significantly. In this paper, a new Dempster-Shafer (D-S) algorithm with credit scale for decision fusion in spectrum sensing is proposed for the purpose to improve the performance of detection in cognitive radio. The validity of this method is established by simulation in the environment of multiple cognitive users who know their signal to noise ratios (SNR) and a central node. The channels between the cognitive users and the central node are considered to be additive white Gaussian noise (AWGN). Compared with traditional data fusion rules, the proposed D-S algorithm with credit scale provides a better detection performance.     

基于RS和GIS的水土流失遥感调查方法探讨

以湖北省为例,在传统目视解译方法的基础上对遥感调查方法做了改进.通过遥感影像的信息提取,获得区域土地利用类型和水土流失影响因子,在此基础上建立水土流失分级指标,并使用ARC-GIS强大的空间分析功能生成最后的结果.采用该方法能够及时掌握区域水土流失现状、水土保持治理、水土流失动态变化等信息.