Satellite Multi-Temporal Data and Cropping Pattern Approach for Green Gram Crop Management in the Lower Midland Zone IV and V in Kenya

Creation of a spectral signature reflectance data, which aids in the identification of the crops is important in determining size and location crop fields. Therefore, we developed a spectral signature reflectance for the vegetative stage of the green gram (Vigna. radiata L.) over 5 years (2020, 2018, 2017, 2015, and 2013) for agroecological zone IV and V in Kenya. The years chosen were those whose satellite resolution data was available for the vegetative stage of crop growth in the short rain season (October, November, December (OND)). We used Landsat 8 OLI satellite imagery in this study. Cropping pattern data for the study area were evaluated by calculating the Top of Atmosphere reflectance. Farms geo-referencing, along with field data collection, was undertaken to extract Top of Atmosphere reflectance for bands 2, 3, 4 and 7. We also carried a spectral similarity assessment on the various cropping patterns. The spectral reflectance ranged from 0.07696 - 0.09632, 0.07466 - 0.09467, 0.0704047 - 0.12188,0.19822 - 0.24387, 0.19269 - 0.26900, and 0.11354 - 0.20815 for bands 2, 3, 4, 5, 6, and 7 for green gram, respectively. The results showed a dissimilarity among the various cropping patterns. The lowest dissimilarity index was 0.027 for the maize (Zea mays L.) bean (Phaseolus vulgaris) versus the maize-pigeon pea (Cajanus cajan) crop, while the highest dissimilarity index was 0.443 for the maize bean versus the maize bean and cowpea cropping patterns. High crop dissimilarities experienced across the cropping pattern through these spectral reflectance values confirm that the green gram was potentially identifiable. The results can be used in crop type identification in agroecological lower midland zone IV and V for mung bean management. This study therefore suggests that use of reflectance data in remote sensing of agricultural ecosystems would aid in planning, management, and crop allocation to different ecozones.

醋酸靛胭脂混合三明治染色法联合智能分光比色技术结肠镜下Pit pattern分型对结直肠病变的诊断价值

目的 探讨醋酸靛胭脂混合(AIM)三明治染色法联合智能分光比色技术(FICE)结肠镜下Pit pattern分型对结直肠病变的诊断价值。方法 选择2022年6月-2023年10月该院收治的100例结直肠病变患者作为研究对象,共222处病灶;分别采用普通内镜、FICE和AIM三明治染色+FICE进行检查,并记录Pit pattern分型的检出情况、病理学类型;计算不同模式下Pit pattern分型诊断的敏感度、特异度、阳性预测值(PPV)、阴性预测值(NPV)和准确度,采用Kappa检验评估不同模式下Pit pattern分型诊断与病理学检查的一致性,采用受试者操作特征曲线(ROC curve)评估诊断效能。结果 与普通内镜(74.32%)相比,FICE(92.34%)和AIM三明治染色+FICE (97.30%) Pit pattern分型检出与病理结果符合率更高,且AIM三明治染色+FICE高于FICE,差异均有统计学意义(P <0.05);与普通内镜相比,FICE和AIM三明治染色+FICE诊断结直肠肿瘤性病变的准确度更高,且AIM三明治染色+FICE高于FICE,差异均有统计学意义(P <0.05);与普通内镜相比,FICE和AIM三明治染色+FICE诊断早期结直肠癌的准确度更高,差异均有统计学意义(P <0.05);普通内镜、FICE和AIM三明治染色+FICE预测结直肠肿瘤性病变的曲线下面积(AUC)分别为0.815 (95%CI:0.711~0.859)、0.881 (95%CI:0.752~0.904)和0.933 (95%CI:0.793~0.961);普通内镜、FICE和AIM三明治染色+FICE预测早期结直肠癌的AUC分别为0.850 (95%CI:0.720~0.866)、0.938(95%CI:0.764~0.951)和0.947 (95%CI:0.803~0.972);AIM三明治染色+FICE预测结直肠肿瘤性病变和早期结直肠癌的Youden指数最大,分别为0.955和0.968。结论 AIM三明治染色+FICE下Pit pattern分型诊断结直肠肿瘤性病变和早期结直肠癌的准确度较高,可有效提高内镜的诊治质量。

POINT PATTERN MATCHING ALGORITHM BASED ON POINT PAIR TOPOLOGICAL CHARACTERISTICS AND SPECTRAL MATCHING

Most of the Point Pattern Matching (PPM) algorithm performs poorly when the noise of the point's position and outliers exist. This paper presents a novel and robust PPM algorithm which combined Point Pair Topological Characteristics (PPTC) and Spectral Matching (SM) together to solve the afore mentioned issues. In which PPTC, a new shape descriptor, is firstly proposed. A new comparability measurement based on PPTC is defined as the matching probability. Finally, the correct matching results are achieved by the spectral matching method. The synthetic data experiments show its robustness by comparing with the other state-of-art algorithms and the real world data experiments show its effectiveness.

多光谱信息下的油纸绝缘局部放电深度学习融合诊断方法

为了获得更丰富的放电特征信息,提高局部放电诊断的效率,提出了一种多光谱信息下的油纸绝缘局部放电深度学习融合方法。首先,基于微型光学传感器件和局部放电光谱分布,构建了局部放电多光谱同步检测平台,通过实验获得了四种放电类型的多光谱数据;然后构建卷积神经网络模型,将不同光谱段的局部放电数据作为模型不同通道的输入,利用通道级融合提取多光谱信号中的有效信息,对油纸绝缘局部放电类型进行准确辨识。结果表明:不同放电类型的多光谱信息可以作为模式识别的有效特征;引入多光谱信息后,本文所提方法的识别准确率可以达到98%以上,相比于仅使用脉冲电流信号有着明显的提升;相比于统计特征参数分析法和深度神经网络,提出的方法对多光谱信息融合的效果更好,识别的准确率更高。

从气候学角度理解“21.7”河南特大暴雨的形成机理

2021年7月19—22日,河南省遭遇历史罕见特大暴雨,破纪录降水引发了严重的洪涝灾害。目前,“21.7”河南特大暴雨的研究大多针对降水个例,引发极端降水的气候学机制仍不明确。本文基于谱聚类方法,利用中国气象局多年历史站点降水资料和NCEP/NCAR再分析数据研究了1960—2021年华北地区夏季区域性极端降水事件的主控环流天气型,系统揭示了“21.7”河南特大暴雨的发生过程。结果表明,“21.7”河南特大暴雨发生在罕见天气型下,即西太平洋上空增强的远距离台风配合异常偏西北的西太平洋副热带高压与异常偏东北的南亚高压。该天气型虽然仅贡献了华北地区夏季区域性极端降水事件的5.97%,却易导致更强的极端降水事件。台风和副高之间的盛行东南风将水汽从西太平洋输送到河南,对流层高低层强烈的风切变引发的垂直上升运动导致了“21.7”河南暴雨的发生。河南及周边地区对流层低层更加强烈的上升运动与非绝热加热之间的正反馈效应使得“21.7”河南暴雨相对同一天气型下的其他特大暴雨事件的极端性更强。本研究为理解和准确预测类似“21.7”河南暴雨的破纪录区域性极端降水提供了全新的气候学视角。

人工神经网络在色谱分析中的应用

综述了人工神经网络在色谱分析中的应用。介绍了人工神经网络基本原理和优势,以及几种在色谱分析中应用较广的人工神经网络,总结了人工神经网络在预测色谱保留值、分析色谱图和化学模式识别等方面的应用。在预测色谱保留值中,人工神经网络能精准预测色谱保留时间和保留指数,具有高精确度和高准确度;在色谱图分析中,人工神经网络能处理色谱峰,包括分离分析重叠峰,检测和积分峰值等,处理能力强,准确度较高;在化学模式识别中,人工神经网络能识别、分类和鉴定目标物,具有高效性、无损性。持续优化人工神经网络、加深对深度神经网络的研究与应用是未来人工神经网络发展趋势。

Magnetic Field Configurations Corresponding to Electric Field Patterns That Evoke Long-Term Potentiation Shift Power Spectra of Light Emissions from Microtubules from Non-Neural Cells

Photon counts were measured every 15 ms for 75 s from microtubule-enriched preparations (and nuclei) from mouse melanoma cells during baseline and after 2 min exposures to 1 μT magnetic fields. The magnetic fields were generated from a circular array of solenoids and presented with accelerating or decelerating rotation velocities. The range of photon radiant flux density was in the order of 10-12 W·m-2. Microtubules preparations that had been exposed for only 2 min to a magnetic field configuration corresponding to the electric field pattern that induced long-term potentiation in neural tissue when applied as electric current displayed peaks of spectral power densities within 7 - 8 Hz, 9.5 Hz, 14 - 15 Hz, and 22 Hz bands. The major peak (9.4 Hz) bandwidth was approximately 0.1 Hz. While microtubule preparations exposed for 2 min to a 7 Hz sine-wave or in the absence of a field emitted an overall similar level of spectral power density, the peaks in power density were not present. Treatment with the LTP patterned fields, compared to the baseline or sine-wave fields primarily altered the frequency band in which the amplitude of the photon field was expressed. These results suggest that the photon emissions from microtubule preparations have the capacity to respond to specifically-patterned or geometric shapes of magnetic fields by altering spectral configurations rather than the absolute numbers of photons.

Spectral matching algorithm based on nonsubsampled contourlet transform and scale-invariant feature transform

A new spectral matching algorithm is proposed by us- ing nonsubsampled contourlet transform and scale-invariant fea- ture transform. The nonsubsampled contourlet transform is used to decompose an image into a low frequency image and several high frequency images, and the scale-invariant feature transform is employed to extract feature points from the low frequency im- age. A proximity matrix is constructed for the feature points of two related images. By singular value decomposition of the proximity matrix, a matching matrix （or matching result） reflecting the match- ing degree among feature points is obtained. Experimental results indicate that the proposed algorithm can reduce time complexity and possess a higher accuracy.

Turing pattern in the fractional Gierer–Meinhardt model

It is well-known that reaction–diffusion systems are used to describe the pattern formation models. In this paper,we will investigate the pattern formation generated by the fractional reaction–diffusion systems. We first explore the mathematical mechanism of the pattern by applying the linear stability analysis for the fractional Gierer–Meinhardt system.Then, an efficient high-precision numerical scheme is used in the numerical simulation. The proposed method is based on an exponential time differencing Runge–Kutta method in temporal direction and a Fourier spectral method in spatial direction. This method has the advantages of high precision, better stability, and less storage. Numerical simulations show that the system control parameters and fractional order exponent have decisive influence on the generation of patterns. Our numerical results verify our theoretical results.

二维多边形物体剖分研究

文中对二维多边形物体有意义剖分进行了研究。心理学家通过研究后发现对物体进行有意义的剖分是人类识别物体的一个重要过程。研究对二维多边形物体的剖分,对于图像识别具有重要意义。在进行图像识别时可首先提取图像中物体的边缘,并用封闭多边形表示。研究如何对该多边形进行有意义的剖分,是正确识别该图像中的物体很关键的一步。文中首先用谱分析结合K-均值的方法,对要剖分的多边形的顶点进行聚类,然后用计算多边形剖分线段适合度的方法,递归地在顶点类内部和顶点类之间选择最佳剖分线段,实验结果表明了该方法的有效性。该算法剖分结果和知名的人工剖分结果的定量分析比较表明,算法剖分结果符合人类思维,取得了较好的剖分结果。

基于LIBS的山药饮片产地溯源研究

山药为薯蓣科植物薯蓣的根茎,其中的多糖、多酚、皂苷、黏蛋白和维生素C等成分使山药具有抗肿瘤、抗氧化、抗炎症、降血糖和降血脂等作用。不同产地的山药由于生长条件存在差异,致使药用成分含量显著不同,结合独特的炮制工艺,进而导致市场价格差别大,所以山药饮片的产地识别至关重要。为对山药饮片进行产地溯源,本文基于激光诱导击穿光谱(LIBS)技术提出多元散射矫正-改进遗传算法-支持向量机(MSC-IGA-SVM)模型对山药产地进行精确识别。使用八个不同产地的山药饮片进行LIBS实验,八种产地的山药饮片磨粉过筛后制成粉末压片,通过采集山药饮片的LIBS光谱,分别使用单一分类器与使用光谱预处理、特征提取及模式识别算法的模型对光谱的识别结果进行对比。将光谱信号按2∶1的比例划分为训练集和测试集,使用5次交叉验证K-邻近算法(KNN)模型的测试集准确率作为预处理参数优化的评价指标。各类药材的平均光谱整体趋势一致,所含谱峰基本相同,但因产地不同导致峰值强度各不相同,道地山药对一些金属元素(K,Na,Ca,Mg,Al)的富集能力大于非道地产区山药,其中,K元素特征谱线(769.90 nm)的峰值最高,即山药饮片中K元素含量最多,相关研究表明山药根茎对K元素的富集能力最强。选取35条关键谱线进行分析,在识别种类多、识别难度大的情况下,改进遗传算法(IGA)比主成分分析(PCA)更能清楚辨别光谱中的非线性关系,同时受噪声的影响更小。MSC-IGA-SVM模型的产地溯源效果最好。MSC-IGA-SVM模型的交叉验证集准确率为96.9%,测试集的准确率为97.32%,与直接使用原信号建立的最好模型支持向量机(SVM)(96.43%)相比,测试集准确率提高了0.87%。同时,MSC-IGA-SVM模型将输入变量的维度减少了99.93%。结果表明,LIBS技术结合MSC-IGA-SVM模型能够快速、准确对山药饮片进行产地溯源。

Comparisons of ganglion cell-inner plexiform layer loss patterns and its diagnostic performance between normal tension glaucoma and primary open angle glaucoma: a detailed, severity-based study

AIM: To evaluate the patterns of macular ganglion cell-inner plexiform layer(GCIPL) loss in normal tension glaucoma(NTG) and primary open angle glaucoma(POAG) in a detailed, disease severity-matched way;and to assess the diagnostic capabilities of GCIPL thickness parameters in discriminating NTG or POAG from normal subjects.METHODS: A total of 157 eyes of 157 subjects, including 57 normal eyes, 51 eyes with POAG and 49 eyes with NTG were enrolled and strictly matched in age, refraction, and disease severity between POAG and NTG groups. The average, minimum, superotemporal, superior, superonasal, inferonasal, inferior, and inferotemporal GCIPL thickness, and the average, superior, temporal, inferior, and nasal retinal nerve fiber layer(RNFL) thickness were obtained by Cirrus optical coherence tomography(OCT). The diagnostic capabilities of OCT parameters were assessed by area under receiver operating characteristic(AUROC) curves. RESULTS: Among all the OCT thickness parameters, no statistical significant difference between NTG group and POAG group was found(all P>0.05). In discriminating NTG or POAG from normal subjects, the average and inferior RNFL thickness, and the minimum GCIPL thickness had better diagnostic capabilities. There was no significant difference in AUROC curve between the best GCIPL thickness parameter(minimum GCIPL) and the best RNFL thickness parameter in discriminating NTG(inferior RNFL;P=0.076) and indiscriminating POAG(average RNFL;P=0.913) from normal eyes.CONCLUSION: Localized GCIPL loss, especially in the inferior and inferotemporal sectors, is more common in NTG than in POAG. Among all the GCIPL thickness parameters, the minimum GCIPL thickness has the best diagnostic performance in differentiating NTG or POAG from normal subjects, which is comparable to that of the average and inferior RNFL thickness.

基于大数据分析的激光图像模式识别研究

为降低图像模式识别误差、提高对不同类型图像的识别精度,提出基于大数据分析的激光图像模式识别方法。使用卷积神经网络,对原始激光图像大数据展开训练处理。提取图像特征,并设定阈值对其进行预分割,完成图像预处理。使用正则最小二乘法,完成激光图像模式识别过程,实现图像模式区分。构建实验环节,对此方法的应用效果进行分析。实验结果表明,本方法对于不同类型图像的预设目标图像识别率稳定于97%以上,识别误差率稳定在2%以下,图像识别消耗时间在15 s以内,说明本方法具备较好的应用效果。

基于光谱混合分解的果园扩张特征与种植适宜性研究

以果园为代表的经济作物种植面积迅速扩张,其在获得一定经济收益的同时,也造成了一系列的生态环境问题。开展果园扩张及其演变特征研究,是助力果园生态可持续发展的重要内容。本研究以山东省烟台市苹果主产区栖霞市、莱阳市以及海阳市为研究区,基于线性光谱混合分解方法提取土地利用数据,分析了1998—2019年研究区果园种植面积变化情况,并结合扩张强度、扩张速率以及景观格局指数探析了当地果园扩张演变特征及其规律,进而通过种植适宜性评价体系,分析3个研究区果园种植适宜性分布情况。结果表明:研究期间,研究区果园呈持续扩张趋势,且明显分为快速扩张(1998—2010年)和平稳扩张(2010—2019年)两个阶段,其果园分别扩张409.25、684.71 km^(2);此外,约68.11%的果园扩张发生在北部栖霞市,这使当地形成以果园种植为主的农业经济发展模式。1998—2019年间,果园扩张主要来源为林地和耕地,其贡献率分别约为23.55%和55.52%;其中,一熟作物为主要耕地来源,其果园扩张贡献率高达42.51%,而裸地贡献率最低。2010年以后,研究区果园扩张由“填充式”转为“零散式”扩张,果园结构聚集度下降,破碎度增大;此外,果园扩张主要优先发生在高海拔以及山地,优先扩张区具有充足的气候资源与优良的自然地理条件,有利于苹果树生长发育。果园扩张达到一定规模时,会受海拔、坡度以及农村劳动力等因素的限制,逐渐向地形条件相对较差的地区扩张,可能造成果园收支不平衡现象和较大的潜在水土环境风险,当地政府应予以重视,并进一步加以控制。栖霞市的果园种植区整体种植适宜性较高,果园生长发育外部环境良好,尤其是气候条件;受土壤条件影响,莱阳市与海阳市果树种植区外部投入量相对较大。

一个新的极小谱任意复符号模式矩阵

设A为n阶复符号模式矩阵,若给定任意一个n阶首一复系数多项式f(λ),在A的定性矩阵类Q(A)中至少存在一个复矩阵A∈Q(A),使得A的特征多项式为f(λ),则称A是谱任意的.如果A是一个谱任意复符号模式矩阵且A的任意真子模式都不是谱任意的,那么A是一个极小谱任意复符号模式矩阵.运用了N-J方法证明一个n≥4的复符号模式矩阵是极小谱任意的.

基于支持向量机的玉米苗期田间杂草光谱识别

田间全面积均匀喷施除草剂不经济，还污染环境，精准喷施除草剂意义重大，其关键是正确识别杂草。用便携式野外光谱仪，在田间测量了玉米、马唐和稗草植株冠层在350～2 500 nm波长范围内的光谱数据，经过数据预处理，数据分析波长选为350～1 300和1 400～1 800 nm。数据处理采用支持向量机（SVM）模式识别方法。SVM具有可实现对小样本建模结构风险最小化、结果最优化、泛化能力强的优点。用线性、多项式、径向基和多层感知核函数对玉米和杂草建立二分类模型，结果表明，三阶多项式核函数SVM分类模型的正确识别率最高，达到80%以上，且支持向量比例较小。以二分类模型为基础，利用投票机制，建立了玉米、马唐和稗草的一对一多分类SVM模型，正确识别率达80%。田间光谱测量受光照、背景和仪器测量精度等条件的影响较大，但结果仍表明SVM结合光谱技术在田间杂草识别中应用潜力很大，此研究为田间杂草识别及传感器的建立提供了一种研究思路和应用基础。

航天器真空热试验用红外灯光谱分布研究

对航天器真空热试验用红外灯的光谱分布进行研究。通过对红外灯电流—电阻相关分析和数值拟合,建立了红外灯的功率计算模型和红外灯灯丝温度计算模型以及红外灯石英玻璃管的温度计算模型;最终给出了红外灯在不同电流下光谱分布模型。采用S2000光纤式光谱仪进行了红外灯光谱分布测试,结果表明红外灯光谱分布模型准确。研究成果可以为采用黑片式热流计测量红外灯阵到达热流奠定基础。

乳腺肿块的彩色多普勒血流频谱形态分析

目的 探讨血流频谱形态在诊断乳腺良恶性肿块中的临床价值。方法 应用彩色多普勒超声检测95个乳腺肿块,分析其多普勒血流频谱形态。结果 良性肿块血流形态以静脉和低阻力型多见。恶性肿块血流形态多样,以湍流和高阻力型多见。结论 彩色多普勒血流频谱形态的分析可作为鉴别诊断乳腺良恶性肿块的一项有价值的指标。

污染气体红外光谱仿真及参数设置研究

利用红外辐射传输理论,阐述了污染气体红外光谱仿真的基本模型,提出了在已知背景光谱和干扰物光谱的情况下进行污染气体红外光谱仿真的方法。仿真结果与实测光谱进行了验证比较,说明了仿真方法的可行性。研究了大气温度及浓度程长积等参数设置对仿真光谱的影响,通过大气温度对仿真光谱的影响研究解释了特征峰消失和反转现象;通过浓度程长积对仿真光谱研究解释了饱和现象。本文的方法可以应用于各种污染气体的光谱仿真、探测和识别。

谱任意的符号模式矩阵(英文)

一个n阶符号模式矩阵A称为是谱任意的,如果对任意的实系数n次首1多项式r(x),在A的定性矩阵类Q(A)中至少存在一个实矩阵B,使得B的特征多项式是r(x),文中证明了当n为奇数时n阶谱任意符号模式矩阵是存在的。