SYNTHETICAL REMOTE SENSING SURVEY AND MAPPING IN LONGTAN HYDROELECTRIC STATION

Long Tan Hydroelectric Station is planned to be built in the middle reaches of Hong Shui River between the Guongxi Zhuang Autonomous Region and Guizhou Province where the terrain is complicated and the traffic is unconvenient. In order to speed up engineering design, the synthetical remote sensing survey and mapping had been made

Progress of Geological Survey Using Airborne Hyperspectral Remote Sensing Data in the Gansu and Qinghai Regions

Hyperspectral remote sensing is now a frontier of the remote sensing technology. Airborne hyperspectral remote sensing data have hundreds of narrow bands to obtain complete and continuous ground-object spectra. Therefore, they can be effectively used to identify these grotmd objects which are difficult to discriminate by using wide-band data, and show much promise in geological survey. At the height of 1500 m, have 36 bands in visible to the CASI hyperspectral data near-infrared spectral range, with a spectral resolution of 19 nm and a space resolution of 0.9 m. The SASI data have 101 bands in the shortwave infrared spectral range, with a spectral resolution of 15 nm and a space resolution of 2.25 m. In 2010, China Geological Survey deployed an airborne CASI/SASI hyperspectral measurement project, and selected the Liuyuan and Fangshankou areas in the Beishan metallogenic belt of Gansu Province, and the Nachitai area of East Kunlun metallogenic belt in Qinghai Province to conduct geological survey. The work period of this project was three years.

Studies on Land Resource Inventory for Agricultural Land Use Planning in Northern Transition Zone of India through Remote Sensing and GIS Techniques

Land suitability analysis is a prerequisite to achieving optimum utilization of available land resources. Hence, a study on land resource inventory for agricultural land use planning was conducted in the Northern Transition Zone of India to determine land capability and develop a suitability map for wheat and sorghum-based on physical and climatic factors of production using remote sensing and GIS techniques. Detailed soil survey information was used for this exercise. Four series (Singhanhalli, Mugli, Bogur and Venkatapur series) were identified and mapped into seventeen mapping units. Land capability classification showed that a greater portion of the study area belonged to class III followed by class IV with limitations of erosion, wetness and varying soil properties. Four land capability classes viz., II, III, IV, and VI, and seven subclasses viz., IIsf, IIItsf, IVs, IVt, IVts, IVtsf and VIt were identified. Major limitations of these subclasses were slope, erosion, depth, texture, coarse fragments, pH, organic carbon and base saturation. Soil suitability assessment revealed that the soils are moderately suitable to permanently not suitable. About 234 ha (31.6%) is moderately suitable, 494 ha (65.0%) marginally suitable and 10.2 ha (1.3%) permanently not suitable for wheat;while 78.5 ha (10.3%) is moderately suitable, 633.4 ha (82.3%) marginally suitable and 32.6 ha (4.3%) permanently not suitable for sorghum respectively. The moderate, marginal and permanent non-suitability was due to moderate, severe and very severe limitations respectively. However, it is possible to achieve potential yield of the crops in the study area if these limitations are addressed.

遥感技术及其在海洋测绘领域中的应用

遥感技术是随着航空摄影技术发展起来的新型空间探测技术,目前在海洋测绘领域中也取得了较为显著的应用效果。海洋遥感测绘技术的专业性比较强,需要做好深层次分析与探索,才能够保证这项技术发挥预期效果。该文先阐述海洋遥感测绘技术的基本原理和应用优势,接着结合海洋测绘领域的实践经验,立足于海洋滩涂、海洋环境监测、海洋要素观测、海洋活动监测、海洋动力监测和海洋灾害监测等多个方面,探讨遥感技术的具体应用内容,最后分析遥感技术在海洋测绘领域中的应用保障措施。

2016年《海洋测绘》论文综述

针对2016年《海洋测绘》刊载的论文情况,从海洋测绘学科发展角度,通过对各专业发表论文的统计分析,对海洋大地测量、海底地形测量、遥感应用、导航定位、海图制图等专业领域的最新研究成果及其发展现状,进行了归纳总结和简要评述,旨在为广大测绘科技工作者提供理论和技术参考。

动态地图服务管理对象模型研究

传统地图服务发布采用静态定制一个或少量几个地图服务的方式,海洋环境遥感数据具有海量、动态、更新快的特点,传统的静态地图服务发布方式无法满足要求.在分析了海洋环境遥感数据特点的基础上,设计了动态地图服务管理对象模型,以实现服务器端大量地图服务的动态创建、监测以及服务冗余状态下的调度.

基于延迟多普勒图像的GNSS-R有效波高反演方法

为了实现海面有效波高的探测,本文利用全球导航卫星系统反射信号(Global Navigation Satellite System Reflection,GNSS-R)提出了一种利用延迟多普勒图像进行信噪比计算的有效波高反演方法。相比传统雷达等主动探测,GNSS-R是利用卫星信号前向散射的被动观测,无需发射机,具有信号源多、功耗小、成本低、重量轻等优势,便于在星载、机载以及船载平台上进行搭建。由于海面波高的不同,接收机接收到的反射信号也不同。通过对反射信号的分析,可以得到不同反射面的物理特征信息,从而反演出我们所需的海面波高信息。本文通过反射信号生成延迟多普勒图像,并给出相应的信噪比定义,从而获得有效波高。为验证本文提出算法的可行性,本文进行了船载有效波高反演试验,并和传统利用干涉复数场(Interference Complex Field,ICF)进行反演的估算方法进行了性能对比和验证。结果表明,所提算法的均方根误差为0.098 m,R2值为77%,相关系数为0.82,均优于ICF方法,且与测波雷达的有效波高真值数据表现出更好的一致性,提升了基于GNSS-R技术进行有效波高估算的精度,能够为船舶航行的海况信息感知提供服务。

Mapping rice-fallow cropland areas for short-season grain legumes intensification in South Asia using MODIS 250 m time-series data

The goal of this study was to map rainfed and irrigated rice-fallow cropland areas across South Asia,using MODIS 250 m time-series data and identify where the farming system may be intensified by the inclusion of a short-season crop during the fallow period.Rice-fallow cropland areas are those areas where rice is grown during the kharif growing season(June–October),followed by a fallow during the rabi season(November–February).These cropland areas are not suitable for growing rabi-season rice due to their high water needs,but are suitable for a short-season(≤3 months),low water-consuming grain legumes such as chickpea(Cicer arietinum L.),black gram,green gram,and lentils.Intensification(double-cropping)in this manner can improve smallholder farmer’s incomes and soil health via rich nitrogen-fixation legume crops as well as address food security challenges of ballooning populations without having to expand croplands.Several grain legumes,primarily chickpea,are increasingly grown across Asia as a source of income for smallholder farmers and at the same time providing rich and cheap source of protein that can improve the nutritional quality of diets in the region.The suitability of rainfed and irrigated rice-fallow croplands for grain legume cultivation across South Asia were defined by these identifiers:(a)rice crop is grown during the primary(kharif)crop growing season or during the north-west monsoon season(June–October);(b)same croplands are left fallow during the second(rabi)season or during the south-east monsoon season(November–February);and(c)ability to support low water-consuming,short-growing season(≤3 months)grain legumes(chickpea,black gram,green gram,and lentils)during rabi season.Existing irrigated or rainfed crops such as rice or wheat that were grown during kharif were not considered suitable for growing during the rabi season,because the moisture/water demand of these crops is too high.The study established cropland classes based on the every 16-day 250 m normalized difference vegetation index(NDVI)time series for one year(June 2010–May 2011)of Moderate Resolution Imaging Spectroradiometer(MODIS)data,using spectral matching techniques(SMTs),and extensive field knowledge.Map accuracy was evaluated based on independent ground survey data as well as compared with available sub-national level statistics.The producers’and users’accuracies of the cropland fallow classes were between 75%and 82%.The overall accuracy and the kappa coefficient estimated for rice classes were 82%and 0.79,respectively.The analysis estimated approximately 22.3 Mha of suitable rice-fallow areas in South Asia,with 88.3%in India,0.5%in Pakistan,1.1%in Sri Lanka,8.7%in Bangladesh,1.4%in Nepal,and 0.02%in Bhutan.Decision-makers can target these areas for sustainable intensification of short-duration grain legumes.

无人机海监测绘技术应用下舰船遥感图像目标检测

随着遥感技术与无人机技术的结合,无人机遥感已广泛应用于海监测绘领域。通过大量实践发现,受到天气雨雪、大雾、霾的影响,无人机获取舰船遥感图像时,目标识别清晰与准确度明显降低。为此,应用无人机海监测绘技术进行下舰船遥感图像目标检测。通过对遥感图像目标的明暗分离计算、海陆场景分离计算与目标神经特征识别计算,实现对舰船遥感目标的快速检测。仿真场景对提出的设计进行对比测试,结果证明了提出设计的可行性与实用性。

2021年《海洋测绘》论文综述

从2021年《海洋测绘》刊载的论文情况出发,立足海洋测绘学科发展,综合分析海洋测绘相关领域的最新研究进展,重点对海洋大地测量与导航、海洋重力测量、海洋磁力测量、海道测量、海洋遥感、海图制图、海洋测绘仪器等专业领域的最新研究成果及其发展现状进行归纳总结,简要介绍了研究成果在相关领域存在的差距,以及作者如何借鉴和吸收已有理论,进而提出新理论、新技术、新方法的过程,旨在为广大海洋测绘科技工作者提供理论和技术参考。

星敏感器在海上遥感测绘中的计量方法

传统的海上遥感测绘计量方法会受外界因素的影响,无法精确的计量测绘数据,为了解决这个问题,提出基于星敏感器的海上遥感测绘计量方法。利用星敏感器,提取海上遥感测绘数据,再利用极大似然法,处理海上遥感测绘数据,在此基础上,应用海上遥感测绘计量模型,得出精准的计量测绘数据。考虑到重力加速度的问题,需引入测速传感器,对速度进行补偿处理。由此,完成基于星敏感器的海上遥感测绘计量方法的设计。最后,通过仿真实验,对比2种方法的精准度,实验结果表明,所以方法相比传统的海上遥感测绘计量方法精准度更高。

遥感技术及其在海洋测绘领域的应用

遥感技术是基于航空摄影技术发展起来的一种空间探测技术,产生于20世纪60年代初,经过数十年的发展后,已经被广泛的应用到环境、气象、水文、地质等领域,发挥出了相当积极的作用。文章结合遥感技术的特点,对其在海洋测绘领域的应用进行了分析和讨论。

Overview of the key technologies for high-resolution satellite mapping

As the important infrastructures for land mapping and resource monitoring,highresolution remote sensing satellites(HRSS)are urgently demanded for the development of China.In this article,the key technologies of the main HRSS are summarized,and these technologies include sensor design,attitude and orbit determination,geometric calibration,imaging model construction,and block adjustment,etc.,which involve the mapping accuracy of HRSS.Finally,the system design of the ZY-3 Satellite(China’s first civil stereoscopic surveying and mapping satellite,to be launched in 2012)is introduced,which mainly include satellite technical specifications and strategies design based on these key technologies research.

近30年卫星测高研究的文献计量分析(1991-2020)

利用Web of Science(WoS)和中国知网收录的1991—2020年卫星测高相关主题文献,梳理国内外卫星测高领域的研究线索和动态趋势,分析文献数量、发文期刊、研究机构和国家、作者、关键词信息,并对比了国内外研究差异,以全面了解卫星测高领域的整体发展特征和研究前沿,为中国的卫星测高研究以及相关卫星任务的发展提供参考。

Geoinformatics education in China

The paper gives an overview of the current status of education in geoinformatics in China.First,the paper provides a brief introduction to the history of geoinformatics education in China and a general review of the scientific and technological development.It then presents how the development affects the education and training in China.In the paper,universities and institutes in China that can award academic degrees related to geoinformatics are summarized,and undergraduate majors are briefly introduced.Next,the paper reports the work having been done by the national expert group on Surveying and Mapping,including the revision of discipline catalog and guide for graduate education and requirements.A list of typical curricula in geoinformatics education is suggested.Activities on promoting the graduate student exchange platform are presented.Finally,a case study of geoinformatics education in Wuhan University is discussed.