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公开(公告)号:KR101892502B1
公开(公告)日:2018-08-29
申请号:KR1020170038446
申请日:2017-03-27
Applicant: 부경대학교 산학협력단
CPC classification number: G01W1/08 , G01P13/02 , G01W1/18 , G01W2201/00 , G06F17/10
Abstract: 본발명은 SRH 산출시스템및 이를이용한 SRH 산출방법에대한것으로서, 특히윈드프로파일러를이용하여 SRH를산출하는시스템및 방법에관한것이다. 윈드프로파일러의원시자료에서비기상전파신호를제거하고바람벡터를재산출하는바람벡터산출부와, 상기바람벡터산출부에서산출된바람벡터를기반으로 SRH(Storm Relative Helicity)를산출하는 SRH 산출부를포함하는윈드프로파일러를이용한 SRH 산출시스템과이를이용한방법을제공한다. 이에따라, 본발명은쉽고정확하게 SRH를산출할수 있는시스템과방법을제공할수 있다.
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公开(公告)号:KR1020170104100A
公开(公告)日:2017-09-14
申请号:KR1020160026638
申请日:2016-03-04
Applicant: 부경대학교 산학협력단
Abstract: 본발명은지형에따른윈드프로파일러의클러터발생을소프트웨어적으로제거하는것으로, 주방사부의대기신호가부방사부에서수신된강력한지형에코에의해묻혀버리는현상을방지하여, 윈드프로파일러의관측정확도를향상시키는윈드프로파일러의지형클러터제거시스템및 그방법을제공한다.
Abstract translation: 本发明通过防止厨房的等待信号被主舱处接收到的强烈的地形回波掩埋而消除了根据地形的风廓线仪的杂波产生, 本发明提供了一种风廓线仪地形杂波去除系统及其方法。
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公开(公告)号:KR1020170104099A
公开(公告)日:2017-09-14
申请号:KR1020160026637
申请日:2016-03-04
Applicant: 부경대학교 산학협력단
Abstract: 본발명은라디오존데의자료만을이용하지않고, 윈드프로파일러의풍향및 풍속정보를수신하여 CALMET에서바람장을생성하는것으로, 본발명은라디오존데에서기온, 습도및 기압의정보를수신하는라디오존데정보수신모듈과윈드프로파일러에서풍향및 풍속의정보를수신하는윈드프로파일러정보수신모듈및 라디오존데정보수신모듈과윈드프로파일러정보수신모듈에서수신한정보를상층기상자료로사용하여모델링을통해바람장을산출하는바람장산출모듈을포함하여, 라디오존데의정보를이용하여생성된 CALEMT의바람장보다정확도를향상시키는, 윈드프로파일러자료를이용한 CALMET의바람장생성시스템및 방법을제공한다.
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公开(公告)号:KR1020130079678A
公开(公告)日:2013-07-11
申请号:KR1020110147262
申请日:2011-12-30
Applicant: 부경대학교 산학협력단
IPC: C02F1/62 , C02F103/10
CPC classification number: C02F1/62 , C02F2103/10
Abstract: PURPOSE: A device and a method for computing the removal efficiency of heavy metals in acid mine drainage are provided to reflect quantitative information about the kinds and mass of heavy metal components in acid mine drainage which is continuously drained from an abandoned mine pit to a recovery design. CONSTITUTION: A method for computing the removal efficiency of heavy metals in acid mine drainage comprises the steps of: collecting acid mine drainage from the upstream, middle stream, and downstream of an abandoned mine drainage path, and measuring the components of water and the concentration of heavy metals by spots (S10); measuring the contents of heavy metals by collecting microbial mats from the bottom of each spot (S20); calculating the outflow mass of heavy metals in the acid mine drainage by spots (S30); analyzing differences in heavy metal outflow mass and heavy metal contents between the upstream and downstream spots (S40); and calculating the removal efficiency of heavy metals based on the result of analysis (S50). [Reference numerals] (AA) Start; (BB) End; (S10) Measure the components of water and the concentration of heavy metals in acid mine drainage; (S20) Measure the contents of heavy metals in microbial mats; (S30) Calculate the outflow mass of heavy metals in the acid mine drainage; (S40) Analyze differences in heavy metal outflow mass and heavy metal contents; (S50) Calculate the removal efficiency of heavy metals
Abstract translation: 目的:提出一种计算酸性矿井排水中重金属去除效率的装置和方法,以反映酸废矿排放中重金属组分种类和质量的定量信息,这些重金属成分从废弃矿坑不断排放至恢复 设计。 规定:计算酸性矿井排水中重金属去除效率的方法包括:从废弃矿井排水路径上游,中游和下游收集酸性矿井排水,测量水分和浓度 重金属(S10); 通过从每个点的底部收集微生物垫来测量重金属的含量(S20); 计算酸性矿井排水中重金属的出口质量(S30); 分析上游和下游地区重金属流出量和重金属含量差异(S40); 并根据分析结果计算重金属的去除效率(S50)。 (附图标记)(AA)开始; (BB)结束; (S10)测量酸性矿井排水中水的成分和重金属的浓度; (S20)测量微生物垫中重金属的含量; (S30)计算酸性矿井排水中重金属的流出量; (S40)分析重金属流出量和重金属含量差异; (S50)计算重金属的去除效率
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公开(公告)号:KR1020120101948A
公开(公告)日:2012-09-17
申请号:KR1020110020098
申请日:2011-03-07
Applicant: 부경대학교 산학협력단
IPC: G06F19/00
CPC classification number: G06F19/707
Abstract: PURPOSE: A concentration field post-processing system of a dispersion model and a method thereof are provided to reprocess the concentration field extracted from a dispersion model, thereby flexibly expressing the concentration field according to need of a user. CONSTITUTION: A topography generating unit(200) generates topography data within a domain from a dispersion model(100). A concentration field generating unit(300) generates a boundary of the concentration field in the topography data by extracting two-dimensional concentration data. A concentration extracting unit(400) extracts a concentration from the concentration field. The concentration field generating unit includes a boundary rage setting module, a concentration value extracting module, a boundary generating module. [Reference numerals] (100) Dispersion model; (200) Topography generating unit; (210) Grid file loading module; (220) Grid file header analyzing module; (230) Coordinate system converting module; (240) Topography generating module; (300) Concentration field generating unit; (310) Boundary range setting module; (320,430) Concentration value extracting module; (330) Boundary generating module; (340) Image storing module; (400) Concentration extracting unit; (410) Concentration extracting point setting module; (420) Lattice point extracting module; (440) Concentration value storing module
Abstract translation: 目的:提供一种色散模型的浓度场后处理系统及其方法,用于重新处理从分散模型提取的浓度场,从而根据用户的需要灵活地表达浓度场。 构成:地形生成单元(200)从分散模型(100)生成域内的地形数据。 浓度场产生单元(300)通过提取二维浓度数据来生成地形数据中的浓度场的边界。 浓度提取单元(400)从浓度场提取浓度。 浓度场产生单元包括边界设定模块,浓度值提取模块,边界生成模块。 (附图标记)(100)分散模型; (200)地形发生单元; (210)网格文件加载模块; (220)网格文件头分析模块; (230)坐标系转换模块; (240)地形生成模块; (300)集中场发电机组; (310)边界范围设定模块; (320,430)浓度值提取模块; (330)边界发生模块; (340)图像存储模块; (400)浓缩萃取单元; (410)浓度提取点设定模块; (420)格点提取模块; (440)浓度值存储模块
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Patent Agency Ranking
公开(公告)号:KR1020170109127A
公开(公告)日:2017-09-28
申请号:KR1020160032250
申请日:2016-03-17
Applicant: 부경대학교 산학협력단
Abstract: 본발명은 UHF 윈드프로파일러의관측품질을검사하는시스템및 방법으로, 윈드프로파일러에서관측되는자료를일관성검사및 자료수집률검사를통해각 검사의품질을평가하고, 이에따른종합적인품질을평가하는 UHF 윈드프로파일러의관측품질검사시스템및 방법을제공한다.
Abstract translation: 本发明是用于检查UHF风廓线的所观察到的质量的系统和方法,评估了在所述风廓线通过单向一致性检查和数据采集速率观察到的各试验材料的质量,并且相应地评估总体质量 UHF风廓线仪具有观察质量检查系统和方法。
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公开(公告)号:KR1020140093555A
公开(公告)日:2014-07-28
申请号:KR1020130006137
申请日:2013-01-18
Applicant: 부경대학교 산학협력단
Abstract: The present invention relates to a method for calculating water purification efficiency of agriculture water by a constructed wetland and, more specifically, to a method for calculating water purification efficiency of agriculture water by a constructed wetland by comparing the quality of the agriculture water with the quality of constructed wetland water via descriptive statistical analysis, calculating a correlation coefficient for each water component, and comparing and analyzing the concentration of each pollutant to calculate water quality improvement efficiency for each pollutant flowing into the agriculture water. The present invention provides the method for calculating water purification efficiency of agriculture water by a constructed wetland which comprises the steps of comparing the quality of the agriculture water with the quality of the constructed wetland water; analyzing the correlation for each component of the agriculture water and the constructed wetland water; comparing and analyzing the concentration of each pollutant in the agriculture water and the constructed wetland water; and calculating the water quality improvement efficiency of the agriculture water by the constructed wetland.
Abstract translation: 本发明涉及一种建设湿地计算农用水净化效率的方法,更具体地说,涉及一种通过将农用水的质量与质量进行比较来计算建设湿地的水净化效率的方法 通过描述性统计分析,计算每个水分的相关系数,并比较和分析每种污染物的浓度,以计算流入农业用水的每种污染物的水质改善效率。 本发明提供了一种建设湿地计算农用水净化效率的方法,包括以下步骤:将农业用水的质量与建成湿地水的质量进行比较; 分析农用水和建成湿地水各部分的相关性; 比较分析农用水和建成湿地水中各污染物的浓度; 并计算建设湿地农业用水水质提高效率。
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公开(公告)号:KR101344254B1
公开(公告)日:2013-12-23
申请号:KR1020130006139
申请日:2013-01-18
Applicant: 부경대학교 산학협력단
Abstract: The present invention relates to a method for calculating the organic matter content of sediment in the mountain wetland and, more particularly, to a method for calculating the organic matter content of sediment in the mountain wetland, which is capable of calculating the organic matter content in the wetland sediment according to the depth from the surface of the earth and the particle size of the sediment based on a vertical sequence of strata obtained by a boring investigation of the wetland sediment. The present invention provides a method for calculating the organic matter content of sediment in the mountain wetland comprising the steps of: performing a boring investigation of the wetland sediment; calculating a vertical sequence of strata of the sediment according to the investigation results; and calculating the organic matter content according to the depth of a peaty layer under the surface of the earth and the particle size of the peaty layer sediment. [Reference numerals] (AA) Start;(BB) End;(S110) Perform a boring investigation of the wetland sediment;(S120) Calculate a vertical sequence of strata;(S130) Calculate the organic matter content according to the depth of a peaty layer under the surface of the earth and the particle size of the peaty layer sediment
Abstract translation: 本发明涉及一种计算山区湿地沉积物有机质含量的方法,更具体地说涉及一种计算山区湿地中沉积物有机质含量的方法,该方法能够计算出山体湿地中的有机质含量 根据地表深度的湿地沉积物和基于通过对湿地沉积物进行无聊调查获得的垂直层序列的沉积物的粒径。 本发明提供了一种计算山区湿地沉积物有机质含量的方法,包括:对湿地沉积物进行无聊调查; 根据调查结果计算沉积物层次的垂直顺序; 并根据土壤表面下泥炭层的深度和泥炭层沉积物的粒径计算有机物含量。 (参考号)(AA)开始;(BB)结束;(S110)对湿地沉积物进行无聊调查;(S120)计算地层的垂直顺序;(S130)根据深度计算有机物含量 土壤表层下的泥炭层和泥炭层沉积物的粒径
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公开(公告)号:KR101191862B1
公开(公告)日:2012-10-16
申请号:KR1020100094330
申请日:2010-09-29
Applicant: 부경대학교 산학협력단
IPC: G01W1/00
Abstract: 본 발명은 갯벌 조간대의 열 환경 관측시스템 및 그 방법에 관한 것이다. 좀 더 구체적으로 본 발명은 해안 갯벌의 조간대에 설치되어 그 갯벌 조간대의 대기, 해수 및 퇴적물의 열환경을 정량적으로 관측한 뒤 그 관측결과를 열 환경 관측 서버에 전송하는 관측 시스템 및 상기 관측 시스템으로부터 전송받은 관측결과를 기 설정된 수학식에 대입하여 열 에너지 수지 및 이산화탄소 플럭스 수지를 산출하고, 갯벌의 조수에 따른 열 에너지 수지 및 이산화탄소 플럭스 수지의 상관성을 분석하며, 그 분석결과를 토대로 갯벌 조간대에서 열과 이산화탄소 플럭스에 의한 미기후 변화를 분석하는 열 환경 관측 서버를 포함한다. 상술한 바와 같은 본 발명에 따르면, 본 발명은 미기후 변화에 영향성을 규명할 수 있고, 연안지역의 초단기예보의 기술향상에 기여할 수 있으며, 연안지역의 기상예보 관측시스템 구축 시 기본자료로 활용될 수 있는 장점이 있다.
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公开(公告)号:KR1020120101953A
公开(公告)日:2012-09-17
申请号:KR1020110020104
申请日:2011-03-07
Applicant: 부경대학교 산학협력단
IPC: G01J5/60
Abstract: PURPOSE: A system and a method for testing luminance temperature are provided to test the luminance temperature by a statistical analysis of the luminance temperature and the match-up luminance temperature of a geostationary satellite. CONSTITUTION: A system for testing luminance temperature comprises a radiative transfer model(100), a luminance temperature extraction model(200), a transform function output model(300), and a module for correcting errors of a spectral response function(400). The luminance temperature extraction model outputs the luminance temperature of a geostationary satellite and a polar-orbiting satellite. The transform function output model uses the radiative transfer model, thereby outputting a transform function for correcting errors of a spectral response function between the geostationary satellite and the polar-orbiting satellite. The module for correcting errors of a spectral response function tests the luminance temperature of the geostationary satellite output by applying the transform function and the luminance temperature of the geostationary satellite extracted from the luminance temperature extraction module through a statistical inspection of a standard error and an average distribution. [Reference numerals] (100) Radiative transfer model; (200) Luminance temperature extraction model; (300) Transform function output model; (400) Module for correcting errors of a spectral response function
Abstract translation: 目的:提供一种用于测试亮度温度的系统和方法,以通过对地静止卫星的亮度温度和匹配亮度温度的统计分析来测试亮度温度。 构成:用于测试亮度温度的系统包括辐射传递模型(100),亮度温度提取模型(200),变换函数输出模型(300)和用于校正光谱响应函数(400)的误差的模块。 亮度温度提取模型输出对地静止卫星和极轨卫星的亮度温度。 变换函数输出模型使用辐射传递模型,从而输出用于校正地球静止卫星和极轨道卫星之间的频谱响应函数误差的变换函数。 用于校正光谱响应函数误差的模块通过应用从亮度温度提取模块提取的对地静止卫星的变换函数和亮度温度通过标准误差和平均值的统计检验来测试对地静止卫星输出的亮度温度 分配。 (附图标记)(100)辐射传递模型; (200)亮度温度提取模型; (300)变换函数输出模型; (400)用于校正光谱响应函数误差的模块
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