SAR数据与光学数据融合在土地覆盖分类中的应用研究

采用ALOS 1 PALSAR数据的强度信息、HV/HH极化比值信息和HV & HH相干系数与TM影像融合,以支持向量机 （SVM） 的方法对土地覆盖进行分类,对比了TM影像、TM+SAR强度影像、TM+HV/HH比值影像、TM+相干影像的分类结果。结果表明：分类精度由高到依次为TM+相干影像＞TM+HV/HH比值影像＞TM+SAR强度影像＞TM影像;采用SAR数据与光学数据融合,可以在不同程度上提高土地利用覆盖分类的精度。     

不同地形条件下的村镇形态特征识别方法研究

以平原村镇香河县、山地村镇密云县和水乡村镇昆山市为例,研究了其村镇形态特征,建立了基于面积和周长的形状指数模型,并用变异系数对该模型进行了比较与验证。结果表明：此模型同时考虑了面积和周长两个要素,更加敏感,能够更好地区分不同类型的村镇。     

Random point sampling to detect gain and loss in tree canopy cover in response to urban densification

Urban tree canopy cover (UTC) is a simple, and common, measure of urban forest resource. Urban infill development is likely to lead to losses in UTC under private tenure, at a time when local governments are setting ambitious targets to increase UTC overall. Simple, statistically rigorous methods are required to benchmark and track change in UTC, whilst identifying which land-use types or tenures experience change.We estimated UTC in six Melbourne suburbs in 2010 and 2015 by randomly sampling 2000 points across public land, public streetscapes and private land. We were able to detect a net change in UTC of <2% over five years to a 95% level of confidence. A significant net decrease in UTC (−2.4%) was only detected in one of the six suburbs. Two suburbs had a net increase in UTC by +2.7% over five years. On private land, there was often areas of UTC loss, but this was generally offset by canopy gain in other areas of the private realm as well as in streetscapes and public land. Losses in UTC on private land were mainly due to tree removal, with or without subsequent construction works.This study describes a simple, but statistically rigorous, method to quantify UTC change and the drivers of change in different land-use types and tenure. Despite studying two suburbs will high rates of infill development, only one suburb showed evidence of net UTC decrease. The ‘dynamic equilibrium’ in UTC, whereby canopy losses area approximately offset by concurrent canopy gain, means that ambitious targets being set by local governments to increase UTC may be difficult to achieve without changes in tree protection and infill development policy and planning.     

吉林省西部新开发水田遥感动态监测研究

为了响应土地整理开发项目的政策,吉林省西部地区开发了大面积的水田。为掌握新开发水田的动态变化,有必要对吉林省地区进行土地利用分类。以吉林省前郭县为例,利用2010年环境卫星数据进行不同土地利用分类方法的比较,进而对另外3景图像进行信息提取,分析4个年份新开发水田的分布及变化情况。结果表明,支持向量机法比最大似然法的耕地分类精度高约5%,其产品和用户精度分别为95%和84%。加入纹理信息没有显著提高分类精度。2009~2012年水田面积分别增加-67.7 km2,111.7 km2和265.01 km2。     

A computer vision system for oocyte counting using images captured by smartphone

This work proposes a computer vision procedure for counting Twospot astyanax (Astyanax bimaculatus) oocytes in Petri dishes using images captured by smartphone. First, the proposed procedure uses simple linear iterative clustering (SLIC) to divide the images into groups of pixels (superpixels). Then, based on their color and space characteristics, the images are classified into light background, dark background, dirt, or oocyte by a machine learning algorithm. Five different types of machine learning algorithms were tested: support vector machines (SVM), decision trees using the algorithm J48 and random forest, k-nearest neighbors (k-NN), and Naive Bayes. To train the algorithms, 8.578 superpixels were classified by an expert into oocyte (n = 354), dirtiness (n = 651), dark background (n = 3.622), and light background (n = 3.951). Of the five learning algorithms, SVM obtained the best result with 97% correct oocyte recognition. Given the wide availability of smartphones, we therefore conclude that the presented procedure can be a valuable tool in future experiments and studies on fertilization and hatching success in Twospot astyanax.     

基于Cortex-M4内核的μCOS-Ⅱ移植

针对TI公司新推出的基于Cortex-M4内核的TM4C123G高性能低功耗芯片,详细介绍了嵌入式开源实时操作系统μCOS-Ⅱ在芯片上的移植方法。根据移植的需求,首先介绍了芯片的一些基本功能以及相关的软件开发环境,然后结合芯片的固有特性以及μCOS-Ⅱ移植的需求,使用C语言和汇编语言修改了相关的源文件,并详细阐述了修改的原因。     

基于迁移学习的无人机影像耕地信息提取方法

随着精准农业技术的发展,对农作物用地信息快速、准确提取的需求越来越高。同时,无人机技术以其方便、高效、具有低空云下飞行能力等优势被广泛应用于自然资源的调查中。但无人机影像普遍光谱信息较为匮乏,因此很难准确、快速地提取出耕地信息。基于此,提出了一种利用迁移学习机制的耕地提取方法(TLCLE)。首先,利用深度卷积神经网络(DCNN)剔除线状地物(道路、田埂等),然后,通过引入迁移学习机制将DCNN特征训练过程中得到的特征提取方法迁移到耕地提取中,最后,将所提方法与利用易康(e Cognition)软件进行耕地提取(ECLE)结果进行对比。研究结果表明:对于实验影像1、2,TLCLE方法耕地提取总体精度分别为91.9%、88.1%,ECLE方法总体精度分别为90.3%、88.3%,2种方法提取精度相当,在保证耕地地块完整、连续性上TLCLE方法优于ECLE方法。     

改进YOLOv5s对病理学图像中猪只小肠绒毛的检测

为解决传统小肠绒毛需要专业人员手动检测耗时耗力且存在主观性和不稳定性等问题,同时提高在复杂病理学图像中小肠绒毛检测的准确率和效率,该研究提出基于改进YOLOv5s检测复杂病理学图像下猪只小肠绒毛的方法。首先,采用串联形式的混合池化对空间金字塔进行优化,增强特征提取与特征表达,提升检测精度;然后引入一种基于注意力机制的网络模块(simpleattentionmechanism,SimAM)与Bottleneck中的残差连接相结合,使用SimAM对Bottleneck中的特征图进行加权,得到加权后的特征表示,利用注意力机制加强模型对目标的感知。试验结果表明,该研究算法的平均精度（average precision）和每秒传输帧数（frame per second,FPS）达到92.43%和40帧/s。改进后的YOLOv5s在召回率和平均精度上相较改进前提高2.49和4.62个百分点,在不增加模型参数量的情况下,每帧图片的推理时间缩短1.04 ms。与经典的目标检测算法SSD、Faster R-CNN、YOLOv6s、YOLOX相比,平均精度分别提高15.16、10.56、2.03和4.07...     

融合光谱混合分解与面向对象的土地利用/覆被分类

错综复杂的土地利用模式和破碎的地物斑块制约了土地利用/覆被分类的精度和效率。一方面,混合像元模糊了地物的光谱信息,影响了分类精度。另一方面,如何高效利用地物的光谱、形状和纹理特征是当前土地利用/覆被分类的研究热点。为了提高基于遥感技术的土地利用/覆被分类精度,该研究基于Sentinel-2A遥感影像,开展融合光谱混合分解与面向对象的土地利用/覆被分类研究。首先,基于地物的光谱、形状和纹理特征,在3个分割尺度通过NDWI（Normalized Difference Water Index)、NDVI（Normalized Difference Vegetation Index）、SBL（Soil Background Level）等8个特征参数构建了不同地物信息的提取规则。其次,利用光谱混合分解模型提取研究区基质（SL;岩石和土壤）、植被（GV;光合作用叶片）和暗色物质（DA;阴影和水）3类通用端元。最后,尝试融合3端元光谱特征优化地物信息提取规则。研究结果表明：1）基于构建的光谱、形状和纹理的地物信息提取规则,使用模糊函数、阈值法进行土地利用/覆被分类,获得了较高的分类精度,总体精度为80.83%,Kappa系数为0.76。2）融合3端元的光谱特征的提取规则将分类精度提升至90.00%,Kappa系数提升至0.88。3）具有明确物理意义的3端元的融入增强了像元内各组分信息的差异性,弥补了传统光谱指数对植被与土壤间的亮度信息解析度不足的缺陷。该方法能充分利用影像的光谱信息,是一种由易到难、对不确定因素进行逐层剥离的土地利用/覆被信息提取技术。因此,对中高分辨率的多光谱遥感影像十分友好,在土地利用/覆被的精细化分类中有较大应用潜力。