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公开(公告)号:KR1020170044239A
公开(公告)日:2017-04-25
申请号:KR1020150143345
申请日:2015-10-14
Applicant: 부경대학교 산학협력단
CPC classification number: Y02A90/18
Abstract: 본발명은해양레이더를이용한누적강수량산출시스템및 그산출방법에관한것이다. 좀더 구체적으로, 본발명은해양레이더가소정지점을스캐닝하고, 그스캐닝에의해아날로그신호를생성하는 (A)단계와누적강수량산출장치가상기아날로그신호를소정시간간격마다수집하고, 그아날로그신호를디지털신호로변환하는 (B)단계와누적강수량산출장치가상기 (B)단계에의해수집된디지털신호의시간적분및 장애물제거를수행하여공간해상도를지닌바이너리자료로생산하는 (C)단계및 누적강수량산출장치가상기디지털신호를기 설정된관계식에적용하여강수량을산출하고, 그산출결과를제공하는 (D)단계를포함한다. 상술한바와같은본 발명에따르면, 본발명은선박용해양레이더의이미지픽셀값에기초하여소정지점의하루중 누적강수량을산출하여강우량의공간분포를제시함으로써정확하게누적강수량을예측하여빈번하게발생하는국지성집중호우등에의한피해를미리예방할수 있는장점이있다.
Abstract translation: 本发明涉及一种沉淀累积计算系统,以及使用该船用雷达的计算方法。 更具体地,本发明提供了船用雷达扫描的预定点,并收集(A)步骤与积累沉淀计算单元是模拟信号,以产生由所述扫描以预定时间间隔的模拟信号,并将该模拟信号 (B)转换成数字信号,并且累积沉淀计算单元是由成一体的步骤中收集的数字信号的所述(B)的时间和执行由(C)工序中的去除障碍和堆叠以产生具有空间分辨率的二进制数据 沉淀计算装置是通过在数字信号的集合关系基于沉淀的应用程序计算的,和(d)包括以下步骤:提供该计算结果。 根据如上述的本发明,本发明gukjiseong基于用于频繁通过呈现降雨的空间分布和计算的预定点的天的累积沉淀准确地预测累计雨量船用海上雷达图像的像素值 造成暴雨损坏的优点是可以提前预防。
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公开(公告)号:KR1020170044238A
公开(公告)日:2017-04-25
申请号:KR1020150143344
申请日:2015-10-14
Applicant: 부경대학교 산학협력단
CPC classification number: Y02A90/18
Abstract: 본발명은적설량추정시스템및 그방법에대한것으로서, 특히해양레이더영상자료로부터적설량을추정하는시스템및 그방법에관한것이다. 본발명은해양레이더영상자료를, 해양레이더영상과기상청레이더영상간의변환함수에적용하여적설량을신뢰성있게추정할수 있는해양레이더를이용한적설량추정시스템및 그방법을제공할수 있다.
Abstract translation: 估计降雪量的系统和方法技术领域本发明涉及降雪估计系统及其方法,并且更具体地涉及用于估计来自海洋雷达图像数据的降雪量的系统和方法。 本发明可以提供一种使用海洋雷达的降雪估计系统和方法,其能够通过将海洋雷达图像数据应用于海洋雷达图像和气象站雷达图像之间的转换函数来可靠地估计降雪量。
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公开(公告)号:KR101285804B1
公开(公告)日:2013-07-12
申请号:KR1020120009556
申请日:2012-01-31
Applicant: 부경대학교 산학협력단
IPC: G06F19/00
CPC classification number: Y02A90/15 , G01W1/02 , G01W2201/00 , G06Q50/26
Abstract: PURPOSE: A horizontal field calculation system of weather observation data and a method thereof are provided to convert a transverse Mercator (TM) coordinate into a latitude longitude coordinate, express weather field contour on a map, and extract the same latitude weather variable change of constant intervals. CONSTITUTION: A weather field topography generation module (100) generates topography data of a domain by reprocessing a weather field which is extracted from a geo statistical (GS) program. A weather field generation module (200) generates a weather field by using the extracted weather field and the topography data. The weather field topography generation module includes a coordinate system conversion module (110) and a topography data generation module (120). The coordinate system conversion module converts TM coordinate information of an X axis and a Y axis for a grid in a domain which is included in a file of the GS program from a TM coordinate system to a latitude longitude coordinate system. The topography data generation module generates topography data corresponding to latitude longitude coordinate information by using topographic maps (TOPO) information. [Reference numerals] (100) Weather field topography generation module; (110) Coordinate system conversion module; (120) Topography data generation module; (200) Weather field generation module; (210) 2D weather material extraction module; (220) Weather field boundary generation module; (230) Weather field boundary storage module; (300) Weather variable extraction module; (310) Equivalent interval setting module; (320) Same latitude lattice setting module; (330) Same latitude lattice point weather variable extraction module; (340) Weather variable variation graph generation module; (350) Weather variable variation graph storage module
Abstract translation: 目的:提供天气观测数据的水平场计算系统及其方法,将横向墨卡托(TM)坐标转换为纬度经度坐标,在地图上表达天气场轮廓,并提取相同的纬度天气变化常数 间隔。 构成:天气场地貌生成模块(100)通过再处理从地理统计(GS)程序提取的气象场来生成域的地形数据。 天气场产生模块(200)通过使用提取的气象场和地形数据产生气象场。 气象场地形生成模块包括坐标系转换模块(110)和地形数据生成模块(120)。 坐标系转换模块将包括在GS程序的文件中的域中的网格的X轴和Y轴的TM坐标信息从TM坐标系转换为纬度经度坐标系。 地形数据生成模块通过使用地形图(TOPO)信息生成与纬度经度坐标信息对应的地形数据。 (附图标记)(100)气象场地形生成模块; (110)坐标系转换模块; (120)地形数据生成模块; (200)天气场生成模块; (210)2D天气材料提取模块; (220)天气场边界生成模块; (230)天气场边界储存模块; (300)天气变量提取模块; (310)等效间隔设定模块; (320)同纬度网格设定模块; (330)纬度相同的点阵天气变量提取模块; (340)天气变量变化图生成模块; (350)天气变量变化图存储模块
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公开(公告)号:KR1020120101955A
公开(公告)日:2012-09-17
申请号:KR1020110020107
申请日:2011-03-07
Applicant: 부경대학교 산학협력단
CPC classification number: B64G3/00 , B64G1/1021 , B64G2001/1042
Abstract: PURPOSE: A system and a method for matching an observation point of a geostationary orbit satellite and a polar orbit satellite are provided to minimize the errors according to the properties of a geostationary orbit satellite and a polar orbit satellite by inspecting the resolution, observation time, and satellite viewing angle about the two satellites. CONSTITUTION: A system for matching an observation point of a geostationary orbit satellite and a polar orbit satellite comprises an inspection module(100) and a match-up module(200). The inspection module inspects whether or not the observation time at a geostationary orbit satellite and a polar orbit satellite matches. The match-up module matches up the geostationary orbit satellite and the polar orbit satellite passing through the inspection of the inspection module, and stores information about latitude and longitude at the match-up point and extracted satellite data. [Reference numerals] (100) Inspection module; (110) Time consistency inspection module; (120) Satellite bogie angle inspection module; (130) Spatial consistency inspection module; (140) Spatial homogeneity inspection module; (200) Match-up module
Abstract translation: 目的:提供一种用于匹配地球同步轨道卫星和极地轨道卫星观测点的系统和方法,以便通过检查分辨率,观测时间,分辨率,地球静止轨道卫星和极地轨道卫星的性质来最小化误差, 和两颗卫星的卫星视角。 构成:用于匹配对地静止轨道卫星和极地轨道卫星的观测点的系统包括检查模块(100)和匹配模块(200)。 检查模块检查地球同步轨道卫星和极地轨道卫星的观测时间是否匹配。 匹配模块将对地静止轨道卫星和通过检查模块检查的极地轨道卫星相匹配,并在匹配点存储关于纬度和经度的信息并提取卫星数据。 (附图标记)(100)检查模块; (110)时间一致性检查模块; (120)卫星转向架角度检测模块; (130)空间一致性检查模块; (140)空间均匀性检查模块; (200)配对模块
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公开(公告)号:KR1020120032797A
公开(公告)日:2012-04-06
申请号:KR1020100094330
申请日:2010-09-29
Applicant: 부경대학교 산학협력단
IPC: G01W1/00
Abstract: PURPOSE: A system for observing the thermal environment of tidal flats in coastal wetland and a method for the same are provided to find the influence of the tidal flats to the change of microclimate and to establish database for the climate information of coastal regions. CONSTITUTION: A system for observing the thermal environment of tidal flats in coastal wetland includes an observing system(100) and a thermal environment observing server(200). The observing system observes thermal environment of air, seawater, and deposit at the tidal flats and transmits observed results to the server. The server calculates and analyzes the correlation of thermal energy and carbon dioxide flux. Based on the analysis, the change of microclimate at the tidal flats is analyzed.
Abstract translation: 目的:提供一个观测沿海湿地潮汐滩涂热环境的方法及其方法,以找出潮滩对小气候变化的影响,并建立沿海地区气候信息数据库。 构成:观测沿海湿地潮滩热环境的系统包括观测系统(100)和热环境观测服务器(200)。 观测系统观察潮汐空气,海水和沉积物的热环境,并将观测结果传输到服务器。 服务器计算和分析热能与二氧化碳通量的相关性。 根据分析,分析潮汐平原的气候变化情况。
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Patent Agency Ranking
公开(公告)号:KR1020120023202A
公开(公告)日:2012-03-13
申请号:KR1020100082676
申请日:2010-08-25
Applicant: 부경대학교 산학협력단
CPC classification number: G01N33/1813 , G06Q50/06
Abstract: PURPOSE: A heavy metal outflow mass measuring method by an acid mine drainage is provided to accurately measure heavy metal outflow mass dissolved in the mine water which is flown out for the specified period by using the density of the heavy metal outflow mass and the average run off ratio of the mine water which is flown out. CONSTITUTION: A heavy metal outflow mass measuring method by an acid mine drainage is as follows. A plurality of mine water samples are collected by being spatially separated from a effluent point of the acidic mine water(S1). A flow rate of a effluent point of the acidic mine water is measured(S2). Heavy metal outflow mass of the mine water flown out is measured(S3).
Abstract translation: 目的:通过酸性矿井排水的重金属流出质量测量方法,精确测量溶解在矿井水中的重金属流出物质,通过使用重金属流出物质的密度和平均流量,在特定时间内流出 排出的矿井水的比例。 构成:酸性矿井排水的重金属流出物质量测定方法如下。 通过与酸性矿井水的出口点空间分离,收集多个矿井水样品(S1)。 测量酸性矿井水的流出物的流量(S2)。 测量矿井水的重金属流出质量(S3)。
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公开(公告)号:KR1020100004144A
公开(公告)日:2010-01-13
申请号:KR1020080064166
申请日:2008-07-03
Applicant: 부경대학교 산학협력단
Abstract: PURPOSE: A method for calculating longitudinal dispersivity of heavy metal pollutant of mineral aquifer is provided to test mineral aquifer in one well and save time and money. CONSTITUTION: A method for calculating longitudinal dispersivity of heavy metal pollutant of mineral aquifer comprises: a step of injecting tracer solution to one test well in a specific injection rate; a step of injecting the place water in a same injection rate as the tracer solution; a step of pumping in a same pumping rate as the injection rate and measuring the concentration according to the time; and a step of calculating and analyzing longitudinal dispersivity, air gap flow rate, and average transfer distance. The tracer is bromide ion.
Abstract translation: 目的:提供一种计算矿物含水层重金属污染物纵向分散性的方法,以测试一口井矿物含水层,节省时间和金钱。 构成:矿物含水层重金属污染物纵向分散性计算方法包括:以特定注射速率向一个试验井注入示踪剂溶液的步骤; 以与示踪剂溶液相同的注射速率注入置水的步骤; 以与注射速率相同的泵送速率泵送并根据时间测量浓度的步骤; 以及计算和分析纵向分散性,气隙流量和平均传送距离的步骤。 示踪物是溴离子。
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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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公开(公告)号:KR1020170044237A
公开(公告)日:2017-04-25
申请号:KR1020150143343
申请日:2015-10-14
Applicant: 부경대학교 산학협력단
Abstract: 본발명은해양레이더를이용하여국지강수를추정하는시스템및 그추정방법에관한것이다. 좀더 구체적으로, 본발명은관심구역을 PPI(Plan Position Indicator) 방식으로주사하여관측하는해양레이더와, 상기해양레이더주변에설치되어해양레이더에의해생성되는하향빔을반사시켜클러터(clutter)를제거하는펜스와해양레이더로부터소정신호를입력받은뒤, AD 변환하여레이더반사도신호를생성하는 AD 컨버터및 상기 AD 컨버터로부터레이더반사도신호를전송받고, 그레이더반사도신호를기 설정된강우정보생성알고리즘에반영하여그 관심구역의강수정보를생성하여제공하는국지강수추정서버를포함한다.상술한바와같은본 발명에따르면, 본발명은관심구역의강수상태를최대 50 x 50m 의수평해상도정보를실시간으로파악할수 있으며이로써호우와같은악기상에효과적으로대처할수 있게되는장점이있다.
Abstract translation: 本发明涉及使用海上雷达估计局部降水的系统和估计系统的方法。 更具体地,本发明提供的杂波(杂波)反映了船用雷达和航海雷达所产生的下行链路波束围绕航海雷达安装用于通过PPI观察感兴趣的区域的喷射(平面位置指示器)方法 接收输入的信号从栅栏和海洋雷达,被发送到从AD转换器的雷达反射率信号,和AD转换器以产生由AD转换雷达反射信号后去除,基于降雨信息生成算法集合反映分级机反射率信号 和创建和提供感兴趣的区域的雨水信息,根据本发明如上所述的本地沉淀估计服务器,本发明可以实时确定高达50×50米的水平分辨率信息,关注区域的析出状态 这具有能够有效地应对诸如大雨的风的优点。
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