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41.发明申请
公开(公告)号:WO2019183660A1
公开(公告)日:2019-10-03
申请号:PCT/AT2019/060109
申请日:2019-03-28
Applicant: UBIMET GMBH
Inventor: FASSNAUER, Michael , SPATZIERER, Manfred
IPC: G01W1/14 , B60W40/068
Abstract: Die Erfindung betrifft ein Verfahren zur Ermittlung und/oder Schätzung einer wegbezogenen Eigenschaft, die die Fortbewegung, insbesondere das Fahrverhalten auf dem Weg (1) beeinflusst, gekennzeichnet durch zumindest zwei, vorzugsweise zumindest drei, der Schritte (a) bis (d): (a) Bereitstellen von ersten Daten (d1), die mittels Sensoren (3) durch direkte oder indirekte Interaktion mit dem Weg (1) und/oder mittels in Fahrzeugen (2) und/oder in Bekleidungsstücken und/oder in Sportgeräten integrierten Sensoren (3) und/oder mittels entlang des Weges (1) angeordneten Sensoren (13) gewonnen werden, (b) Bereitstellen von zweiten Daten (d2), wobei die zweiten Daten (d2) meteorologische Daten sind, (c) Bereitstellen von dritten Daten (d3), die durch eine Straßenverwaltung (7), insbesondere durch Räum- und/oder Streufahrzeuge (6), bereitgestellt werden; (d) Bereitstellen von vierten Daten (d4), wobei die vierten Daten (d4) Informationen über den baulichen Zustand, insbesondere die Oberflächenbeschaffenheit, das Material, das Alter und/oder die Abnützung des Weges (1) umfassen; vorzugsweise zumindest durch die Schritte (a) und (b), sowie gekennzeichnet durch den Schritt: (e) Ermitteln und/oder Schätzen der wegbezogenen Eigenschaft unter Berücksichtigung von Daten, die in einem Schritt der Schritte (a) bis (d) bereitgestellt werden, vorzugsweise von den ersten Daten (d1), und von Daten, die in einem anderen Schritt der Schritte (a) bis (d) bereitgestellt werden, vorzugsweise von den zweiten Daten (d2).
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公开(公告)号:WO2019094999A1
公开(公告)日:2019-05-23
申请号:PCT/AT2018/060271
申请日:2018-11-19
Applicant: BUCHER, Peter
Inventor: BUCHER, Peter
CPC classification number: G01W1/14 , G01B5/061 , G01F23/226
Abstract: Die Erfindung betrifft eine Vorrichtung (10) zur Detektion einer kritischen Menge Neuschnee umfassend eine Antriebseinheit (1), eine mit der Antriebseinheit (1) verbundene Detektoreinheit (2) und einen an der Antriebseinheit (1) entlang eines Untersuchungswegs beweglich angeordneten Untersuchungsarm (3), - wobei in einem Aufstellungszustand der Vorrichtung (10) diese auf einer Aufstellungsebene aufgestellt ist und eine zur Aufstellungsebene parallele Untersuchungsebene durch den Untersuchungsarm (3) in einer Untersuchungsbewegung entlang des Untersuchungswegs überstreichbar ist, wobei die Untersuchungsebene normal zur Schwerkraftrichtung ausgerichtet ist oder die Untersuchungsebene zu einer zur Schwerkraftrichtung normal ausgerichteten Ebene in einem Winkel von 1° bis 30° ausgerichtet ist, - wobei die Antriebseinheit (1) dazu ausgebildet ist, den Untersuchungsarm (3) entlang des Untersuchungswegs zu bewegen, und - wobei die Detektoreinheit (2) dazu ausgebildet ist, festzustellen, ob dem Untersuchungsarm (3) in der Untersuchungsbewegung (3) ein einen Schwellenwert übersteigender Widerstand entgegenwirkt.
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公开(公告)号:WO2018220268A1
公开(公告)日:2018-12-06
申请号:PCT/FI2018/050373
申请日:2018-05-18
Applicant: OULUN YLIOPISTO
Inventor: KAIKKONEN, Ville , MÄKYNEN, Anssi , ARSTILA, Timo , KANANEN, Timo
Abstract: The invention relates to a measurement system (100) for establishing a forecast for structural icing of a mechanical structure. The measurement comprises a digital in-line holography apparatus (1) comprising a monochromatic light source (12) and matrix detector (22) to record diffraction images (25a) due to cloud droplets (25, 26, 27). A computer (3) or the server (4) is configured to calculate sizes and number of the cloud droplets (25, 26, 27) by utilizing the recorded diffraction images (25a) and for calculating a liquid water content and median volume diameter of the cloud droplets detected in the open measurement space. The computer or server (4) combines the liquid water content and median volume diameter calculation results with meteorological measurement data, speed of the moving mechanical structure (51) and 3D -model information of the mechanical structure (51) for making a forecast about structural icing speed of the moving mechanical structure (51).
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公开(公告)号:WO2018092031A1
公开(公告)日:2018-05-24
申请号:PCT/IB2017/057126
申请日:2017-11-15
Applicant: ARTYS S.R.L. , UNIVERSITÀ DEGLI STUDI DI GENOVA
Inventor: CARIDI, Andrea , CAVIGLIA, Daniele , DELUCCHI, Alessandro , MONTECUCCO, Claudio , PASTORINO, Matteo , RANDAZZO, Andrea , SGUERSO, Domenico
IPC: G01W1/14
Abstract: Object of the invention is a system for the environmental monitoring of precipitation events, comprising a central unit and one or more remote measuring units operatively connected to the central unit, in which the measuring unit or units comprise: - at least one receiver adapted to receive a radio signal transmitted by one or more microwave transmitters and to measure the power of the electrical signal generated by the reception of the radio signal; a transmitting system to transmit to the central unit a datum associated with the measured power, a piece of information about the transmitter from which the radio signal was received and a piece of information about the measuring unit, and wherein the central unit comprises: - a receiver for receiving data transmitted by the remote measuring unit or units; - a processor unit operatively connected to the receiver to calculate, on the basis of the data transmitted by the remote measuring unit or units, the attenuation of the radio signal that crosses an observation zone from a plurality of different directions identified by each measuring unit/microwave transmitter pair and to reconstruct the spatial distribution of the precipitation events in that zone. Further object of the invention is a corresponding method for the environmental monitoring.
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公开(公告)号:WO2018016703A1
公开(公告)日:2018-01-25
申请号:PCT/KR2017/001124
申请日:2017-02-02
Applicant: 연세대학교 산학협력단
Abstract: 본 발명은 산사태 모니터링 및 예·경보를 위한 무선 센서 네트워크 계측 시스템 및 계측방법에 관한 것으로, 2차원 요소망 자동생성 알고리즘을 이용하여 계측지점을 결정하는 계측지점 결정부; 산악 지역의 상기 결정된 계측지점에 산재 되어 설치된 다수의 센서노드로 구성되고, 각 센서노드에서 산사태 계측정보를 획득하는 무선 네트워크 센서부; 상기 각 센서노드의 계측정보를 수집하고, 외부로 수집된 계측정보를 전송하는 게이트웨이; 및 상기 게이트웨이로부터 수신받은 계측정보와 결정된 계측지점을 통해 산사태 예/경보 알고리즘을 이용하여 산사태 정보를 생성하는 산사태 평가부를 포함하여 구성된다.
Abstract translation: 无线传感器网络测量系统及测量方法技术领域本发明涉及一种用于监测,预测和警告滑坡的无线传感器网络测量系统及测量方法 本发明包括:测量点确定单元,用于使用二维网格自动生成算法确定测量点; 无线网络传感器单元,其由多个传感器节点组成,所述多个传感器节点被安装成在所确定的测量点处散布在山区中,并且在每个传感器节点处获得滑坡测量信息; 网关,用于收集每个传感器节点的测量信息并将收集的测量信息发送到外部; 以及滑坡评估单元,用于通过从网关接收的测量信息和确定的测量点使用滑坡预测/报警算法来生成滑坡信息。
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Patent Agency Ranking
公开(公告)号:WO2018005185A1
公开(公告)日:2018-01-04
申请号:PCT/US2017/038475
申请日:2017-06-21
Applicant: GSE TECHNOLOGIES, LLC
Inventor: SIMULA, Glen Raymond , HOWARD, Gary Bryan
Abstract: A surface scanning apparatus attached to a movable platform such as a highway vehicle, mobile equipment or a drone that passes over a substrate, at least some of the features of which are to be sensed and characterized. The apparatus includes a variously adaptable, complete, and ready to operate packaged kit including configured sensor suites with components selected from the group consisting of a visual scanning sensor; an infra-red scanning sensor; a ground-penetrating radar unit; a laser range finder for sensing elevation of the apparatus above the substrate; a distance sensor for measuring displacement of the apparatus from a point of origin; a position sensing unit for determining a position of the apparatus; a simultaneous trigger mechanism; a structural boom assembly attached to the platform; and a processor for digitally processing measurements and signals collected by one or more of the group of components.
Abstract translation: 表面扫描装置附着到诸如公路车辆,移动设备或无人驾驶飞机之类的可移动平台上,所述表面扫描装置穿过基板,其至少一些特征将被感测和表征。 该设备包括各种适应性完整并且准备好操作的套装套件,包括配置的传感器套件,其具有选自以下组件的组件:视觉扫描传感器; 一个红外扫描传感器; 探地雷达装置; 激光测距仪,用于感测所述设备在所述基板上方的升高; 距离传感器,用于测量设备从原点的位移; 位置感测单元,用于确定设备的位置; 同时触发机制; 连接到平台的结构性悬臂组件; 以及用于数字处理由一组组件中的一个或多个收集的测量和信号的处理器。
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公开(公告)号:WO2018001568A2
公开(公告)日:2018-01-04
申请号:PCT/EP2017/025111
申请日:2017-05-05
Applicant: GILL INSTRUMENTS LIMITED
Inventor: BACON, Robin
CPC classification number: G01N21/538 , G01N15/1459 , G01N21/532 , G01N2015/0046 , G01N2015/1075 , G01N2021/4711 , G01W1/14
Abstract: A precipitation sensor comprising a first electromagnetic radiation source and an electromagnetic radiation detector. The said first electromagnetic radiation source is oriented to direct electromagnetic radiation towards the electromagnetic radiation detector via a precipitation free-fall detection region when the sensor is in use. The precipitation sensor further comprises at least one further electromagnetic radiation source oriented to direct electromagnetic radiation towards the said precipitation free-fall detection region along a direction which is at a given scattering angle to the direction of light from the said first electromagnetic radiation source. Also, a precipitation sensor comprising at least two electromagnetic radiation sources oriented to direct electromagnetic radiation towards respective precipitation free-fall detection regions located one above the other when the sensor is in use, and at least two respective electromagnetic radiation detectors each located to receive such radiation which was emitted by the associated electromagnetic radiation source and which entered the associated precipitation free-fall detection region when the sensor is in use.
Abstract translation: 包括第一电磁辐射源和电磁辐射检测器的降水传感器。 当传感器在使用中时,所述第一电磁辐射源被定向为经由沉淀物自由落下检测区域将电磁辐射引导向电磁辐射检测器。 所述降水传感器进一步包括至少一个另外的电磁辐射源,所述另外的电磁辐射源被定向为沿着与来自所述第一电磁辐射源的光的方向成给定散射角的方向朝向所述降水自由落下检测区域引导电磁辐射。 此外,包括至少两个电磁辐射源的沉淀传感器和至少两个相应的电磁辐射检测器,所述至少两个电磁辐射源定向成将电磁辐射引导朝向位于彼此之上的各自的沉淀物自由落下检测区域, 由相关的电磁辐射源发射并且在传感器使用时进入相关的降水自由落体探测区域的辐射。
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公开(公告)号:WO2017116102A1
公开(公告)日:2017-07-06
申请号:PCT/KR2016/015279
申请日:2016-12-26
Applicant: 엘지이노텍 주식회사
Inventor: 이선화
Abstract: 실시 예에 따른 센서는, 기판; 상기 기판 위에 배치되는 감지 전극; 및 상기 기판 위에 배치되어 상기 감지 전극을 매립하며, 내부에 복수의 탄소 미세 코일을 포함하는 반응층을 포함하며, 상기 복수의 탄소 미세 코일은, 상기 반응층 내에 서로 동일한 방향성을 가지며 규칙적으로 분산된다. 즉, 상기 복수의 탄소 미세 코일의 각각의 배열 방향 및 배열 각도는 동일하다. 또한, 상기 반응층은, 배향막과, 상기 배향막 내에 분산되는 상기 복수의 탄소 미세 코일과, 상기 배향막 위에 배치되어, 상기 복수의 탄소 미세 코일이 분산된 상기 배향막의 표면을 덮는 보호층을 포함한다.
Abstract translation: 根据一个实施例的传感器包括:衬底; 感测电极,设置于基板上; 以及一反应层,设置于该基板上并嵌设该感应电极,该反应层包括多个碳微线圈,其中该多个碳微线圈以相同的方向性规则地分散于该反应层中 。 也就是说,多个碳微线圈中的每一个的布置方向和布置角度是相同的。 反应层包括配向膜,多个碳微线圈分散在配向膜中,保护层设置在配向膜上并覆盖配向膜的表面,其中分散有多个碳微线圈。
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公开(公告)号:WO2017104882A1
公开(公告)日:2017-06-22
申请号:PCT/KR2015/013996
申请日:2015-12-21
Applicant: 부경대학교 산학협력단
Abstract: 본 발명은 고해상도 강수량자료 복원시스템 및 그 방법에 대한 것으로서, 특히, 재분석 자료를 고해상도강수량진단모형(Quantitative Precipitation Model, QPM)의 초기자료로 입력하여 도출된 강수량 정보와 레이더 에코 강수량 정보 및 위성 강수량 정보에 각각 가중치를 두어 최종 복원 강수량을 연산하는 고해상도 강수량자료 복원시스템 및 그 방법에 관한 것이다. 본 발명은 재분석 자료를 고해상도강수량진단모형의 초기자료로 이용하여 원하는 지역의 0.1 ~ 1.0 km 강수 자료 오류를 감소시킬 수 있다. 또한, 본 발명은 재분석 자료를 고해상도강수량진단모형의 초기자료로 입력하여 도출된 강수량 정보와 레이더 에코 강수량 정보 및 위성 강수량 정보에 각각 가중치를 두어 최종 복원 강수량을 연산함으로써, 과거 강수량을 정확하게 복원할 수 있다.
Abstract translation:
本发明是一种高分辨率降水数据恢复系统,并作为该方法,特别地,通过输入重新分析数据作为高分辨率沉淀诊断模型的初始数据(定量降水模型,QPM)沉淀的信息和衍生 本发明涉及用于通过分别对雷达回波降雨信息和卫星降雨信息进行加权来计算最终恢复降水量的高分辨率降水数据恢复系统及其方法。 通过使用再分析数据作为高分辨率降水诊断模型的初始数据,本发明可以降低所需区域中0.1-1.0km的降水数据误差。 另外,本发明通过将相应的权重,以沉淀信息和雷达回波通过计算最终恢复沉淀进入再分析数据作为高分辨率沉淀诊断模型的初始数据而获得的沉淀信息和卫星沉淀的信息,可以准确地恢复过去沉淀
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公开(公告)号:WO2017099335A1
公开(公告)日:2017-06-15
申请号:PCT/KR2016/010019
申请日:2016-09-07
Applicant: 두산중공업 주식회사
IPC: F03D1/00 , F03D17/00 , F03D7/02 , G01W1/02 , G01P5/00 , G01W1/14 , G01C13/00 , G01K13/00 , G08B21/18 , G08B21/02
CPC classification number: G06Q10/063116 , F03D1/003 , F03D17/00 , F03D80/50 , F05B2230/80 , F05B2260/8211 , G01W1/02 , G01W1/10 , G06Q10/20 , Y02E10/72 , Y02P70/523 , Y04S10/54 , Y04S10/60
Abstract: 본 발명은 기상정보를 기반으로 한 풍력설비의 정비방법 및 정비시스템에 관한 것으로, 본 발명에 따르면 기상정보를 바탕으로 풍력설비의 정비시기를 효율적으로 산출할 수 있는 효과가 있다.
Abstract translation:
本发明涉及一种基于气象信息,它可以通过一个风电厂的维持期间来有效地计算,基于在根据本发明的气象信息用于风力发电设备的维护方法和维护系统 它有效。
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