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面向WIGOS区域中心关于WIGOS资料质量监测系统的技术指南
本出版物是《WMO全球综合观测系统指南》(WMO,2018)第9章的附录。文中为WMO全球综合观测系统(WIGOS)区域中心(RWC)运行与WIGOS资料质量监测系统(WDQMS)提供了技术指南,特别是针对位于陆地上(位于WMO区域协会(RA)会员的领域内)的全球观测系统(GOS)地表站。
这些指导方针介绍了WDQMS的三个主要功能(监测、评估和故障管理)、要求(例如所需资源)以及实施GOS陆表台站这些功能的有效做法和程序。这包括负责区域(次区域)监测、评估和故障管理活动的RWC工作人员的日常任务以识别、评估和跟踪与地表和高空台站资料有用性、时效性和准确性有关的问题,还包括两类观测的一些推荐性能目标。
预计将来将有半自动化的WIGOS监测中心,可提供例行报告,并提供供RWC使用的区域和专题具体信息。
Published by: 世界气象组织 (WMO) ; 2018 (2018 Edition)
本出版物是《WMO全球综合观测系统指南》(WMO,2018)第9章的附录。文中为WMO全球综合观测系统(WIGOS)区域中心(RWC)运行与WIGOS资料质量监测系统(WDQMS)提供了技术指南,特别是针对位于陆地上(位于WMO区域协会(RA)会员的领域内)的全球观测系统(GOS)地表站。
这些指导方针介绍了WDQMS的三个主要功能(监测、评估和故障管理)、要求(例如所需资源)以及实施GOS陆表台站这些功能的有效做法和程序。这包括负责区域(次区域)监测、评估和故障管理活动的RWC工作人员的日常任务以识别、评估和跟踪与地表和高空台站资料有用性、时效性和准确性有关的问题,还包括两类观测的一些推荐性能目标。
预计将来将有半自动化的WIGOS监测中心,可提供例行报告,并提供供RWC使用的区域和专题具体信息。Collection(s) and Series: OMM- No. 1224
Language(s): Chinese; Other Languages: English, Spanish, Arabic, French
Format: Digital (Free)ISBN (or other code): 978-92-63-51224-6
Tags: WMO Integrated Global Observing System (WIGOS) ; Information management ; Global Observing System (GOS) ; Technical Publications
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Directives techniques pour les centres régionaux du WIGOS sur le Système de contrôle de la qualité des données du WIGOS
La présente publication est une annexe du chapitre 9 du Guide du Système mondial intégré des systèmes d’observation de l’OMM (OMM, 2018). Elle contient des directives techniques détaillées destinées à aider les centres régionaux du Système mondial intégré des systèmes d’observation de l’OMM (WIGOS) à mener les activités opérationnelles en lien avec le Système de contrôle de la qualité des données du WIGOS, s’agissant notamment des stations terrestres d’observation en surface du Système mondial d’observation (SMO) (implantées sur le territoire des Membres de l’OMM).
Cette publication déc ...
Directives techniques pour les centres régionaux du WIGOS sur le Système de contrôle de la qualité des données du WIGOS
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Published by: OMM ; 2018 (Издание 2018 г.)
La présente publication est une annexe du chapitre 9 du Guide du Système mondial intégré des systèmes d’observation de l’OMM (OMM, 2018). Elle contient des directives techniques détaillées destinées à aider les centres régionaux du Système mondial intégré des systèmes d’observation de l’OMM (WIGOS) à mener les activités opérationnelles en lien avec le Système de contrôle de la qualité des données du WIGOS, s’agissant notamment des stations terrestres d’observation en surface du Système mondial d’observation (SMO) (implantées sur le territoire des Membres de l’OMM).
Cette publication décrit les trois fonctions principales du Système de contrôle de la qualité des données du WIGOS (contrôle, évaluation et gestion des incidents), ainsi que les exigences à respecter (comme les ressources nécessaires) et les pratiques et procédures recommandées pour exercer ces fonctions avec les stations terrestres d’observation en surface du SMO. Y figurent les tâches quotidiennes du personnel des centres régionaux du WIGOS qui est responsable du contrôle, de l’évaluation et de la gestion des incidents au plan (sous-)régional afin de recenser, d’évaluer et de suivre les problèmes en rapport avec la disponibilité, les délais d’acheminement et l’exactitude des données des stations d’observation en surface et en altitude, ainsi que des objectifs de performance recommandés pour ces deux types de stations.
Il est prévu que des centres de contrôle du WIGOS semi-automatisés fournissent des rapports réguliers et des informations régionales et thématiques aux centres régionaux du WIGOS.Collection(s) and Series: OMM- No. 1224
Language(s): French; Other Languages: English, Spanish, Arabic, Chinese
Format: Digital (Free)ISBN (or other code): 978-92-63-21224-5
Tags: WMO Integrated Global Observing System (WIGOS) ; Information management ; Global Observing System (GOS) ; Technical Publications
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Tехнические руководящие принципы для региональных центров ИГСНВ по системе мониторинга качества данных ИГСНВ
Настоящая публикация является дополнением к главе 9 Руководства по Интегрированной глобальной системе наблюдений ВМО (ВМО, 2018). В ней содержится подробное техническое руководство для региональных центров (РЦИ) Интегрированной глобальной системы наблюдений ВМО (ИГСНВ) по осуществлению оперативной деятельности, связанной с Системой мониторинга качества данных ИГСНВ (СМКДИ), в особенности в отношении наземных станций Глобальной системы наблюдений (ГСН), расположенных на суше (на территории Членов региональной ассоциации (РА) ВМО). В руководящих принципах описываются три основных функции СМКДИ ( ...
Tехнические руководящие принципы для региональных центров ИГСНВ по системе мониторинга качества данных ИГСНВ
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Published by: BMO ; 2018 (Издание 2018 г.)
Настоящая публикация является дополнением к главе 9 Руководства по Интегрированной глобальной системе наблюдений ВМО (ВМО, 2018). В ней содержится подробное техническое руководство для региональных центров (РЦИ) Интегрированной глобальной системы наблюдений ВМО (ИГСНВ) по осуществлению оперативной деятельности, связанной с Системой мониторинга качества данных ИГСНВ (СМКДИ), в особенности в отношении наземных станций Глобальной системы наблюдений (ГСН), расположенных на суше (на территории Членов региональной ассоциации (РА) ВМО). В руководящих принципах описываются три основных функции СМКДИ (мониторинг, оценка и менеджмент инцидентов), а также требования (в частности, необходимые ресурсы) и рекомендуемые практика и процедуры для выполнения этих функций для наземных станций приземного наблюдения ГСН. В них включены повседневные обязанности персонала РЦИ, отвечающего за (суб)региональный мониторинг, оценку и менеджмент инцидентов для определения, оценки и отслеживания вопросов, связанных с доступностью, своевременностью и точностью данных с приземных и аэрологических станций, а также некоторые рекомендуемые целевые показатели для обоих видов наблюдений.
Collection(s) and Series: BMO- No. 1224
Language(s): Russian; Other Languages: French, Spanish, English, Arabic, Chinese
Format: Digital (Free)ISBN (or other code): 978-92-63-41224-9
Tags: WMO Integrated Global Observing System (WIGOS) ; Information management ; Global Observing System (GOS) ; Technical Publications
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Technical Guidelines for Regional WIGOS Centres on the WIGOS Data Quality Monitoring System
This publication is an Annex to Chapter 9 of the Guide to the WMO Integrated Global Observing System (WMO, 2018). It provides detailed technical guidance for Regional WMO Integrated Global Observing System (WIGOS) Centres (RWCs) to run the operational activities related to the WIGOS Data Quality Monitoring System (WDQMS), specifically for the surface stations of the Global Observing System (GOS) located on land (on the territories of WMO Regional Association (RA) Members). These guidelines describe the three main functions of WDQMS (monitoring, evaluation and incident management), as well as t ...
Published by: WMO ; 2018 (2018 Edition)
This publication is an Annex to Chapter 9 of the Guide to the WMO Integrated Global Observing System (WMO, 2018). It provides detailed technical guidance for Regional WMO Integrated Global Observing System (WIGOS) Centres (RWCs) to run the operational activities related to the WIGOS Data Quality Monitoring System (WDQMS), specifically for the surface stations of the Global Observing System (GOS) located on land (on the territories of WMO Regional Association (RA) Members). These guidelines describe the three main functions of WDQMS (monitoring, evaluation and incident management), as well as the requirements (such as the resources needed) and the recommended practices and procedures to perform those functions for the surface land stations of GOS. They include the daily tasks for RWC staff in charge of the (sub)regional monitoring, evaluation and incident management activities for identifying, assessing and tracking issues related to data availability, timeliness and accuracy from surface and upper-air stations, and also some recommended performance targets for both types of observations.
Notes: Other versions in preparation.
Collection(s) and Series: WMO- No. 1224
Language(s): English; Other Languages: French, Spanish, Russian, Arabic, Chinese
Format: Digital (Free)ISBN (or other code): 978-92-63-11224-8
Tags: WMO Integrated Global Observing System (WIGOS) ; Information management ; Global Observing System (GOS) ; Technical Publications
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IOM Report, 130. Fourth WMO Regional Pyrheliometer Comparison of RA II, Jointly held with RA V
This report describes the intercomparison in detail: the instruments, the participants, the experimental setup, method and procedure, the data analysis technique used and the results. It is clear from the results that all of the participating instruments have been well maintained and remained stable since the previous intercomparison, which augers well for all radiation measurements within RA II and RA V. All participants were able to return home with newly derived WRR reduction factors for their instruments.
M. Omori ; M. Milner ; O. Ijima ; Yukitomo Tsutsumi ; World Meteorological Organization (WMO)
Published by: WMO ; 2018This report describes the intercomparison in detail: the instruments, the participants, the experimental setup, method and procedure, the data analysis technique used and the results. It is clear from the results that all of the participating instruments have been well maintained and remained stable since the previous intercomparison, which augers well for all radiation measurements within RA II and RA V. All participants were able to return home with newly derived WRR reduction factors for their instruments.
Collection(s) and Series: IOM Report- No. 130
Language(s): English
Format: Digital (Free)Tags: Instruments and Methods of Observation Programme (IMOP) ; Pyrheliometer ; Region V - South-West Pacific ; WMO Events' Publications
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Commission for Instruments and Methods of Observations OPAG in situ Technologies and Intercomparisons - Expert Team on Aircraft-based Observations : Final Report
The second session of the CIMO Expert Team on Aircraft-based Observations took place over 16-19 April, 2018 at the WMO headquarters in Geneva, Switzerland. This was the 2nd meeting of the team during the current inter-sessional period of CIMO ahead of the upcoming session of CIMO in October, 2018 (CIMO-17), with the first session having been held in December 2015 in conjunction with the CBS Expert Team on Aircraft-Based Observing Systems second session. The chief focus for the session was for the team to report on progress and to undertake planning to finalise activities and tasks from its wor ...
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GCOS, 217. 21st Session of the Ocean Observations Panel for Climate (the GOOS Physics and Climate Panel) (OOPC-21)
World Meteorological Organization (WMO) ; United Nations Educational, Scientific and Cultural Organization (UNESCO); Intergovernmental Oceanographic Commission (IOC); et al. - WMO, 2018
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GCOS, 218. 23rd Session of the GCOS/WCRP Atmospheric Observation Panel for Climate (AOPC-23)
World Meteorological Organization (WMO) ; United Nations Educational, Scientific and Cultural Organization (UNESCO); Intergovernmental Oceanographic Commission (IOC); et al. - WMO, 2018
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GCOS, 216. 8th Session of the GTN-H Panel
World Meteorological Organization (WMO) ; United Nations Educational, Scientific and Cultural Organization (UNESCO); Intergovernmental Oceanographic Commission (IOC); et al. - WMO, 2018
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IOM Report, 129. Report on the Second International Pyrgeometer Intercomparison (27 Sept - 15 Oct 2015, PMOD/WRC)
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IOM Report, 128. Interlaboratory Comparison in the field of Temperature, Humidity and Pressure, in the WMO Regional Association VI (MM-ILC-2015-THP)
The subject of this report is evaluation of the interlaboratory comparison in the field of measurement of temperature, humidity and pressure. The interlaboratory comparison was held within the framework of the MeteoMet 2 project, in the scope of proficiency testing scheme organized by the University of Ljubljana, Faculty of Electrical Engineering, Laboratory of Metrology and Quality (UL-FE/LMK), except pressure part. All the analysis were done in accordance with accredited procedures.
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Instrumentation and Measurement of Atmospheric Humidity
This lesson provides an overview of the science and techniques related to measuring humidity, or the amount of water vapor, in Earth's atmosphere. After beginning with a review of the units used for humidity, the learner will examine the three main types of hygrometers (material, thermodynamic, and optical) and explore instruments within each of these categories. The lesson provides information about the advantages and limitations of various humidity instruments. The effects of siting, sheltering, and ventilation on humidity measurements are also addressed. The lesson is part of the Instrument ...
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Interpreting and Communicating EPS Guidance: Iberian Heat Wave
This 45-minute lesson briefly introduces learners to the benefits of using probabilistic forecast information to assess the weather and communicate forecast uncertainties. Learners will explore a heat wave event in Spain and practice interpreting EPS forecast products effectively to determine various forecast parameters based on lead-time. Also, learners will decide how to best communicate the potential weather threats and impacts information to local end users.
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What's New in the National Blend of Models version 3.1
Intended for U.S. National Weather Service forecasters, this short video describes changes to the NWS National Blend of Models when it was updated to v3.1. These changes include: More global, mesoscale, and ensemble components; Increased spatial resolution of some components; New and improved weather elements for aviation, QPF, winter, fire, and marine weather forecasting; Significant wave height for offshore waters and the Great Lakes; Improved bias correction; MOS-like text products; Shortened NBM forecast projections delivered at 19 UTC. For an illustrated transcript, see What’s New in NBM ...
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SatFC-J: The CrIS and ATMS Sounders
This lesson introduces the capabilities of NOAA’s next-generation infrared and microwave sounders, the Cross-track Infrared Sounder (CrIS) and the Advanced Technology Microwave Sounder (ATMS). Both fly on board the Suomi NPP satellite mission and constitute the foundation for NOAA’s operational space-based sounding capability on the next-generation JPSS polar-orbiting satellites. In addition to their complementary sounding duties, CrIS and ATMS provide capabilities and improvements for a variety of environmental products essential to weather forecasting and environmental monitoring. Some of th ...
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