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Adaptive Neuro-Fuzzy Inference System with Non-Linear Regression Model for Online Learning Framework 基于非线性回归模型的自适应神经模糊推理系统在线学习框架
Pub Date : 2020-08-25 DOI: 10.14299/ijser.2020.08.01
Abdul Joseph Fofanah, Ibrahim Kalokoh, Korjo Tesyon Hwase, Alex Peter Namagonya
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引用次数: 2
Formation Control of Swarm Quadrotors 群四旋翼机的编队控制
Pub Date : 2020-08-25 DOI: 10.14299/ijser.2020.08.07
Amir Noabahar Sadeghi Nam
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引用次数: 0
Acquired Scientific Research on the Treatment or Valorization of Olive Oil Waste 对橄榄油废弃物的处理或增值进行了科学研究
Pub Date : 2020-08-25 DOI: 10.14299/ijser.2020.08.11
Rachid Mahmoud, Z. Majbar, K. Lahlou, M. Benabbou, Mounia Elhaji, M. Taleb, Z. Rais
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引用次数: 0
Sensor Data Acquisition And De-Noising Using FPGA 基于FPGA的传感器数据采集与降噪
Pub Date : 2020-08-25 DOI: 10.14299/ijser.2020.08.15
K. Harikrishnan
As the electronics industry and user needs are developing rapidly, the design of embedded systems should match their standards. Every equipment we encounter with our day-to-day life is getting automated, the world is getting smarter day by day. As the usage of sensors is increasing, the processor should be capable of handling an enormous amount of data. Our work will focus on designing and implementing an FPGA (Field Programmable Gate Array) based DAQ (Data Acquisition) system. Sensors and FPGA both are independent research areas, their combination is an emerging research area.
随着电子工业和用户需求的快速发展,嵌入式系统的设计必须符合其标准。我们日常生活中遇到的每一件设备都在变得自动化,世界正变得越来越智能。随着传感器使用量的增加,处理器应该能够处理大量的数据。我们的工作将集中在设计和实现一个基于FPGA(现场可编程门阵列)的DAQ(数据采集)系统。传感器和FPGA都是独立的研究领域,它们的结合是一个新兴的研究领域。
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引用次数: 0
An Overview of Recycling Status of Solar Photovoltaic Panels 太阳能光伏板回收利用现状综述
Pub Date : 2020-08-25 DOI: 10.14299/ijser.2020.08.06
Ashish Kulshresth
In Spite Of The Fact That The Amount Of Waste Photovoltaic (PV) Panels Is Estimated To Increase Exponentially In The Subsequent Decades, Little Studies On The Resource Efficiency Of Their Recycling Has Been Conducted Up Until This Point. The Article Examines The Presentation Of Various Procedures For The Recycling Of Crystalline Silicon PV Waste, In A Life Cycle Viewpoint. The Life Cycle Effects Of The Recycling Are Analyzed, Under Various Situations, To The Environmental Advantages Of Secondary Raw Materials Recuperated. Base-case recycling has a low proficiency and, in some situations, not even in accordance with authoritative targets. On the other hand, high-productive recycling can meet these objectives and permits to regain top notch materials (as silicon, glass and silver) that are for the most part lost in base-case recycling. The advantages because of the recovery of these materials balance the bigger effects of the high- efficient recycling process. Considering the full life pattern of the panel, the vitality delivered by the energy concedes the most noteworthy ecological advantages. Be that as it may, benefits due to high-productive recycling are applicable for some categories, particularly for the asset consumption indicator. The article additionally brings up that thermal treatments are commonly important to give the high proficiency in the recycling. All things considered, these treatments must be painstakingly evaluated since they can be answerable for the outflows of air contaminations (as hydrogen fluoride conceivably discharged from the ignition of halogenated plastics in the panel's back-sheet). ---------------------------------------------------------------------------------The article additionally distinguishes and surveys likely adjustments to the high-effectiveness recycling process, including the delocalization of a few treatments for the streamlining of waste transport and the presentation of pyrolysis in the thermal handling of the waste. At long last, proposals for product designers, recyclers and policymakers are talked about, so as to improve the resource proficiency of future PV panels.
尽管在接下来的几十年里,废弃光伏板的数量预计将呈指数级增长,但到目前为止,对其回收利用的资源效率的研究还很少。本文从生命周期的角度考察了晶体硅光伏废料回收的各种程序。分析了不同情况下二次原料回收的全生命周期效应对二次原料回收的环境优势的影响。基本情况回收的熟练程度较低,在某些情况下,甚至不符合权威目标。另一方面,高生产率的回收可以满足这些目标,并允许重新获得在基本情况下回收中大部分损失的顶级材料(如硅,玻璃和银)。由于这些材料的回收优势平衡了高效回收过程的更大影响。考虑到面板的全寿命模式,能量所传递的生命力是最值得注意的生态优势。尽管如此,高生产率回收带来的好处适用于某些类别,特别是资产消耗指标。此外,本文还提出了热处理对于提高回收效率的重要性。考虑到所有因素,这些处理方法必须经过艰苦的评估,因为它们可能是空气污染物流出的原因(可以想象,从面板背板的卤化塑料点燃中排放的氟化氢)。---------------------------------------------------------------------------------文章还区分和调查了对高效回收过程的可能调整,包括为简化废物运输而进行的一些处理的局部化,以及在废物的热处理中出现热解。最后,对产品设计师、回收商和政策制定者提出了建议,以提高未来光伏板的资源熟练度。
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引用次数: 0
ASSESSMENT OF SELECTED METALS IN SOIL FROM AUTOMOBILE WORKSHOP IN EKITI-NORTH SENATORIAL DISTRICT, EKITI STATE, NIGERIA 尼日利亚埃基蒂州埃基蒂北部参议院区汽车车间土壤中选定金属的评估
Pub Date : 2020-08-25 DOI: 10.14299/ijser.2020.08.13
Ajayi O. Omoyemi, Oladeji M. Samson, Oyewumi O. Tolulope, O. Esther, A. S. Olayinka
Anthropogenic actions have often been reported as the causes of increasing background concentration of heavy metal in soil. With the measurement of soil parameters, we can specifically judge the geo-accumulation and transmission tendencies of these metals into the human food chain. Investigating Soil sample collected from automechanic workshops in Ekiti North Senatorial District of Nigeria; the concentration of heavy metal in the soil as well estimating degree of contamination (DOC), pollution load index (PLI) and geo-accumulation index (Igeo) were determined. However in most of the study sites the variation in heavy metal concentration was Fe > Pb > Cu > Co except in DEK, TUN has the highest concentration of Fe, Pb, Cu (411.38mg/kg),74.80mg/kg,21.13mg/kg) respectively and Co is highest in YEE(13.89mg/kg).The DOC is highest in TUN(2.43), with (1.62, 1.67, 1.36, 2.13) reported for KLE, YEE, DEK and YEK respectively which are < 8, implying a low contamination. Also, 0.42 is reported in TUN as the highest value of PLI and (0.29, 0.30, 0.25 and 0.31) were reported for KLE,YEE,DEK and YEK respectively which are < 1 hence no pollution of the study site. The observed geo-accumulation index values for all the study location are negative illustrating that the concentrations of metals in the sites are still at background concentration. More generally, result shows a relative degree of safety, and for future purposes automechanic workshops should be located away from farmland and other food production centres.
人为活动经常被报道为土壤中重金属本底浓度增加的原因。通过土壤参数的测量,我们可以具体判断这些金属在人类食物链中的地理积累和传递趋势。调查从尼日利亚Ekiti北参议院区汽车机械车间收集的土壤样本;测定了土壤重金属浓度、污染程度估算值(DOC)、污染负荷指数(PLI)和土壤累积指数(Igeo)。除DEK、TUN地区Fe、Pb、Cu浓度最高(分别为411.38mg/kg、74.80mg/kg、21.13mg/kg), YEE地区Co浓度最高(13.89mg/kg)外,其余地区重金属浓度变化均为Fe > Pb > Cu > Co。TUN的DOC最高(2.43),KLE、YEE、DEK和YEK的DOC分别为(1.62、1.67、1.36、2.13),均< 8,表明污染程度较低。此外,据报道,TUN的PLI值最高为0.42,KLE、YEE、DEK和YEK的PLI值分别为0.29、0.30、0.25和0.31,均< 1,因此对研究地点没有污染。所有研究地点观测到的地质堆积指数值均为负值,说明这些地点的金属浓度仍处于背景浓度。总的来说,结果显示了相对的安全程度,为了将来的目的,汽车机械车间应该远离农田和其他食品生产中心。
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引用次数: 0
Determination and comparisons of Heavy Metals in Moringa Stenopetala Leaf, Seed and Root: using Atomic Absorption Spectroscopy 原子吸收光谱法测定辣木叶、籽、根中重金属含量及比较
Pub Date : 2020-08-25 DOI: 10.14299/IJSER.2020.08.16
Tsegaye Bojago, A. Dola, G. Worku
This study is aimed to determine and compare the concentration level of heavy metals (Cu, Fe, Pb and Cr) using Atomic Absorption Spectroscopy (AAS) of samples of fresh leaf, seed and root of Moringa stenopetala from Arbaminch area and Konso districts .
本研究采用原子吸收光谱法(AAS)测定并比较了Arbaminch地区和Konso地区辣木鲜叶、种子和根样品中重金属(Cu、Fe、Pb和Cr)的含量。
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引用次数: 1
Career Plateau Phase and Intention to Quit Behaviour of Employees – A view point 职业平台期与员工离职意向——一个观点
Pub Date : 2020-08-25 DOI: 10.14299/ijser.2020.08.09
Dhanashree Tharkude
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引用次数: 0
Green building designing innovation in India – A Literature Review 印度绿色建筑设计创新——文献综述
Pub Date : 2020-08-25 DOI: 10.14299/ijser.2020.08.05
Asha Kulshresth
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引用次数: 0
ANALYSIS OF DISEASED LEAF IMAGES USING DIGITAL IMAGE PROCESSING TECHNIQUES AND SVM CLASSIFIER AND DISEASE SEVERITY MEASUREMENTS USING FUZZY LOGIC 利用数字图像处理技术和支持向量机分类器对患病叶片图像进行分析,利用模糊逻辑对病害严重程度进行测量
Pub Date : 2020-08-25 DOI: 10.14299/ijser.2020.08.12
A. Mukherjee
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引用次数: 2
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International journal of scientific and engineering research
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