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2020年9月22、23、24日
"凡尔赛门巴黎展览馆,巴黎 法国"

会议日程

展会免费参加——只需注册出席展会即可


第1天: 星期三 5 六月

Day 1
10:45 - 17:00

Moderator

Gary Lezak
Founder and CEO, Weather2020
and chief meteorologist, KSHB-TV
USA

10:45

The operational implementation of MPAS for global, convective-allowing, rapid-refresh NWP on a GPU-enabled HPC system

Todd Hutchinson
Director of numerical weather prediction
The Weather Company, IBM (co-author)
USA
Dr Peter P Neilley
天气预报科学和技术主任
IBM 下属 The Weather Company 公司
美国
The Weather Company (TWC), an IBM business, is implementing its next-generation numerical weather prediction (NWP) system, to be known as the IBM Global High-Resolution Atmospheric Forecast System, or GRAF. The system incorporates the Model for Prediction Across Scales (MPAS) and Gridpoint Statistical Interpolation (GSI) data assimilation software to build day-ahead global weather forecasts that range in resolution from 3km (40% of the world) to 15km (rest of the world). NCAR and IBM have partnered to port MPAS to GPU-accelerated Power9 systems, achieving a significant speed up over conventional CPU-only systems.

11:05

联合国的“智慧气象”项目 ——一个全球性的农业天气项目

James Block
首席气象官
DTN
美国
本演示将介绍联合国“智慧气象”项目的进展概况,该项目针对目前观测力度不足的农村地区,旨在加强这些地区农场的地面天气和土壤观测。概况包括项目描述、来自私营和公共部门的赞助商,以及未来三年内拟部署数千个气象站的计划。此外,简要介绍包括 5,000 个站点的美国数据传输网络(DTN)— 北美农业天气网(所有网络始建于 2013 年,由私人出资运营),以及站点类型和观测参数。

11:25

How the CREWS initiative is supporting developing countries to improve their early warning systems

John Harding
气候风险和早期预警系统 (CREWS) 秘书长
世界气象组织
瑞士
The Climate Risk and Early Warning Systems (CREWS) initiative aims to mobilize more than US$100m by 2020 to strengthen risk information and early warning systems and to leverage financing to protect populations exposed to extreme climate events. It targets least-developed countries and small island developing states, where the risk of loss of life from high-impact events such as floods, droughts and tropical cyclones is disproportionately high. It has been operating in 19 countries in Africa, the Caribbean and the Pacific, and is now set to expand to three more beneficiary nations.

11:55

Fraunhofer IWES 的激光雷达浮标是一种先进的近海测量系统

Alkistis Papetta
助理研究员
IWES Fraunhofer
德国
过去几年的发展表明,集成或安装在浮动平台上的多普雷测风激光雷达等浮动激光雷达系统,是测量近海风力的最佳仪器,能为近海风力项目的风资源评估提供重要输入数据。Fraunhofer IWES 已开发出相应的系统,不但可以满足风能行业的需求,还可以进行进一步扩展,提供各种高度的高质量风力测量以及大量的其他参数,以满足其他行业和用户的需求。

12:15

为巴拉圭小规模种植者提供创新型天气指数保险

Dr Clyde Fraisse
教授
佛罗里达大学
美国
本演示将介绍由美洲开发银行提供的创新型天气指数保险产品,以保护巴拉圭小规模种植者免受旱灾造成的农作物损失。该指数的设计是为了更好地反映季节中的农作物水分胁迫条件,并针对根系平均分布的土壤剖面使用简单的土壤水分平衡。每日更新信息基于由气象站网络组成的完善检测系统和来自 NOAA 及 NASA 的网格化气象数据源。该保险产品在 2017-2018 年度进行了试验测试,2018-2019 年度实现了完全商业化。

12:35

Space weather services for aviation

Jaakko Nuottokari
民航和防务主管
芬兰气象研究所
芬兰
Space weather (SWX) can affect a number of things, such as GNSS and HF and satellite communications, and can increase exposure to harmful radiation for flight crew. This impact to operations was acknowledged by ICAO in 2011 when the development of the ConOps for Space Weather was started. This process has resulted in the audit and selection of three global space weather centers by the ICAO council in November 2018 and the start of operations planned for November 7, 2019. PECASUS, a consortium of European providers led by FMI, is one of the three global centers (SWXC). This talk covers the international collaboration, phenomena and products for civil aviation users.

12:55 - 13:00

Break

13:00 - 14:30

WMO roundtable: Public-private dialogue

14:30

本演示还对紧凑型一体式气象观测传感器套组的测量结果进行独立交叉比对

Dr Bradley Illston
资深研究科学家
Oklahoma Mesonet
美国
多家仪器公司都生产可测量空气温度、风速和风向、湿度、压力和降水等各种气象变量的紧凑型一体式传感器套组。这些传感器套组可收集各种观测数据,而且占用空间小,功耗低。演示中对来自不同公司的四种传感器套组进行独立测试,并以全功能气象站通常使用的传感器作为参照,然后将它们的气象测量结果进行比较并得出统计结果。

15:00

Climate services for decision making in Africa, the Caribbean and the Pacific

Lisa-Anne Jepsen
气候和水部门项目官
世界气象组织
瑞士
This presentation will look at the WMO’s contribution to the EU-funded Intra-ACP Climate Services Program. The Global Framework for Climate Services (GFCS), an international initiative spearheaded by WMO, strengthens climate services. The EU-funded Intra-ACP Climate Services Program will support the implementation of GFCS in 79 African, Caribbean and Pacific countries (2019-2024). WMO, a technical partner, will work with regional and national partners to implement the climate services value chain and thus strengthen the provision and use of climate services.

15:20

Constellation of cloud characterization imagers (Pleiades)

Dr Pete Roming
主任
西南研究所
美国
One of the weather forecasting gaps is the need for cloud characterization (CC). A distributed low-Earth-orbit constellation of visible, near-infrared (NIR), short-wave-infrared (SWIR) and mid-wave-infrared (MWIR) imagers offers a rapid, cost-effective response for providing CC. Previous efforts have combined visible, NIR, SWIR and MWIR imagers into one 'exquisite' instrument, thus increasing the size, weight, power and cost (SWaP-C) while increasing instrument complexity and delivery time. Separating the imagers into three different high-performing instruments and flying them on a small-sat constellation enables weather priorities to be met, while providing accelerated responsiveness, reduced SWaP-C and resiliency.

Product updates

15:40

新型 Lufft CHM 8k 云高仪的最佳实践

Holger Wille
产品经理
Lufft
德国
Lufft CHM 8k 云高传感器于 2018 年 9 月份正式推出。作为最大测量距离为 15km 的 CHM 15k 云高仪的补充产品,CHM 8k 可用于最大测量距离为 8km 的各种应用。在本演示中,产品专家将对该产品进行介绍、区分它与其他云高仪的不同之处,并报告第一个已实现项目的有关情况。

15:55

EEC的水文气象技术 — 气象雷达和 QPE

Richard Stedronsky
战略业务开发及合作伙伴主任/气象学家
Enterprise Electronics Corporation
美国
EEC 已开发出尖端的天气雷达技术,可用于监测严重的天气事件,尤其注重定量降水估计 (QPE) 和危险警告。EEC 生产各种多普勒天气雷达,这些雷达都采用最新的双极化技术,可实现精确的水凝物粒子监测和反演。EEC 雷达系统主要用于各种水文气象应用,实现了整套 QPE 算法,包括基于衰减的 (R-A) 创新算法。最近飓风登陆美国已证明 EEC 的 R-A QPE 算法是精确的,它与适当的警报工具配合使用,有助于在严重的天气事件中保护人员和财产安全。

16:10

Introducing the SoilVUE10 – an advanced TDR soil profiler

Dr Dirk V Baker
应用科学家
Campbell Scientific Inc
美国
Understanding soil water properties is meaningful for scientific research and provides actionable data to support critical infrastructure and operations affected by climatological and weather hazards such as drought, wildfires and floods. Campbell Scientific introduces the SoilVUE10 complete soil profiler. This unique design combines industry-leading time-domain reflectometry with full waveform analysis and a novel threaded probe. Embedding the waveguides (rods) in the threads at multiple depths mitigates two major drawbacks to smooth-sided profilers – soil contact and preferential flow. Superior soil moisture data combined with fast, easy installation make the SoilVUE10 a powerful tool for researchers and observation networks.

16:25

An advanced automated MET system

Martin Gazak
首席执行官
MicroStep-MIS
斯洛伐克
MicroStep-MIS within the SESAR research program has proposed a unique solution to mitigate the current drawbacks of automated weather observing (AWOS) systems. The system enables enhanced observation of clouds, visibility and weather phenomena, using integrated dual visible/infrared camera imagery in two ways. First, a human MET observer (even at a remote location) is responsible for the processing of images using a dedicated interface. Second, images are processed automatically using artificial intelligence algorithms. Three months of data collection and parallel reporting of METAR (by an official MET observer), AUTOMETAR from AWOS data only, and AUTOMETAR from an advanced automated MET system during validation exercises set a base for preliminary statistical evaluation providing improvement for automatic observations.

16:40

Visualizing and analyzing weather and climate data in ArcGIS

Dr Nawajish Noman
首席产品工程师
Esri
美国
The availability of weather and climate scientific data is increasing exponentially. Exploring and analyzing this data is essential for a better understanding of the impact of global climate patterns. Fortunately, ArcGIS provides functionality for reading, managing, analyzing and visualizing scientific data stored in formats widely used by the scientific community – netCDF, HDF and GRIB. The ArcGIS platform can be leveraged to unleash the full potential of these scientific data sets by providing the information to everyone, whenever and wherever they need it. This paper discusses the capabilities of ArcGIS and some of the best practices using satellite- and model-derived Earth science data.

16:55

问答环节

第2天: 星期四 6 六月

Day 2
10:15 - 17:00

Moderator

John Snow
负责人
Snow & Associates LLC
美国

10:15

在业务天气观测网络中集成多普勒激光雷达作为多功能传感器

Dr Ludovic Thobois
科学经理
Leosphere
法国
虽然能改善天气预报,但是边界层中的高空气象观测在业务观测网络中还极少使用。由于业务气象设备现在可以使用遥感技术,因此目前已建设的多个网络中都安装有激光雷达传感器,如纽约州 Mesonet 网络。在此网络中,17 个 WINDCUBE100S 激光雷达系统已运行了两年。本研究将展示选定的激光雷达配置和扫描场景,以便以预期的更新速率和精确度来提供各种结果,如风力、边界层检测以及云层/悬浮微粒层等。

10:35 - 10:45

Break

10:45 - 12:10

HMEI General Assembly

The 21st session of the HMEI General Assembly (GA-21) will he held during Meteorological Technology World Expo. The assembly is open to all attendees at the exhibition and conference. HMEI will invite the president and secretary general of the WMO to attend and will also invite the presidents of the WMO Commission for Basic Systems (CBS) and the WMO Commission for Instruments and Methods of Observation (CIMO). The exact agenda is to be confirmed.

12:10

Eumetsat’s next-generation programs

Stephan Bojinski
MTG applications and user support expert
Eumetsat
GERMANY
EUMETSAT is about to bring monitoring of the weather and climate from space into a new era with the launch of its next-generation geostationary and polar-orbiting satellites, from 2021 and 2022 respectively. These next-generation programs will be the most complex and innovative meteorological satellite constellations in existence, carrying a payload of next-generation instruments, some of which will be making their world premiere on operational satellites. This means that more and better weather and climate data can be provided to national meteorological services to be used to protect lives, property and economies.

12:40

A look at the Flash Flood Guidance System (FFGS) with global coverage

Petra Mutic
气候和水部门 FFGS 项目官
世界气象组织
瑞士
The WMO’s Flash Flood Guidance System (FFGS) with global coverage is a project designed to give trained operational forecasters from national meteorological and hydrological services access to a variety of real-time products to assess the potential threat of occurrence of flash flooding, so that warnings may be issued in a timely manner. The system gives forecasters access to several products, such as mean areal precipitation, soil moisture estimates, flash flood guidance, forecast flash flood threat, forecast mean areal precipitation, snow cover and melt, etc. The FFGS now covers 64 countries with around three billion people.

13:00 - 14:30

WMO roundtable: Public-private dialogue

14:30

欧洲气象航空器派生数据中心 (EMADDC) 的发展

Jan Sondij
航空气象学高级顾问
皇家气象研究所(KNMI)
荷兰
本演示将介绍 SESAR 部署项目 EMADDC 的发展情况。ADS-B 和 Mode-S 等 ATC 监视技术潜力巨大,能获取或派生大量风向、风速和温度观测结果,其数量在欧洲前所未有。截至 2019 年,EMADDC v1.0 投入运行,每 15 分钟处理一次欧洲航行安全组织 (EUROCONTROL) 马斯特里赫特高空控制中心 (MUAC) 的监视数据。输出结果用于各种目的。本演示将重点介绍 EMADDC 的最新发展及其成果的应用情况。其中包括一种很有发展潜力的新方法,可用于单架飞机的修正、地域扩展,并有可能实现从批处理向近乎实时处理的过渡。

14:50

R3M: ocean monitoring network initiative in the Macaronesia region

Dr Carlos Barrera
海洋运载器主管
加那利群岛海洋平台 - PLOCAN
西班牙
Despite the fact that ocean monitoring has been significantly improved during the last two decades with new platforms, sensors and telemetry systems, there are still many unsolved gaps regarding coverage, data quality and sustainability becoming relevant in regions like Macaronesia, which is made up of archipelagos that are situated far away from each other. A multidisciplinary group of companies and institutions is aiming to consolidate a regional initiative under the name of R3M (Macaronesian Marine Monitoring Network), as a reference framework to gather, manage and display the information provided by all existing in situ observing platforms (fixed and mobile) in the area, according to the needs of specific end users and the general public.

15:10

New sensing methods within the TWIGA project

Nick van de Giesen
教授
代尔夫特理工大学
荷兰
The TWIGA project is funded under the EU H2020 program and connects 10 European and eight African partners. The main goal of TWIGA is to develop new geoservices for Africa, based on innovative in situ observations of water, weather and climate. A wide range of new services has been proposed, from relatively simple spray advice to complex services surrounding seed germination insurance. The types of sensors vary from simple existing sensors being ‘hacked’ for new applications, to microscintillometers for field-scale sensible heat flux measurements. The aim is to strengthen the in situ component of the Global Earth Observation System of Systems (GEOSS).

15:30

Modernization of hydromet services: the case of a least-developed country

Yvette Ramos
International consultant to the WMO and project manager for NIRAS in a World Bank project
Consultant
DENMARK
A national meteorology and hydrology service (NMHS) should have the capacity to deliver cost-effective and user-driven services and products that are sustainable and can be operated and maintained in the long term, and not disrupted by external shocks such as weather events, blackouts, and so on. NMHS’s objectives are, in general, to mitigate the effects of natural disasters; promote safety, comfort, efficiency and regularity of air, land, sea and inland water transportation; facilitate sustainable development of natural resources; and ensure data is available to stakeholders for the robust and well-engineered design of diverse water-related infrastructure. These so-called ‘strategic objectives’ are nice on paper, but what is there behind them? Based on experience in promoting modernized management tools in LDCs from Africa and Southeast Asia, this presentation will highlight key challenges in delivering hydromet services, and explore opportunities for developers.

15:50

Swisens Poleno 生物气溶胶监控器首个产品系列的实际结果

Erny Niederberger
首席执行官
Swisens AG
瑞士
花粉过敏是最普遍的非传染性疾病之一,欧洲有大约四分之一人口对各种大气生物气溶胶过敏。目前,花粉数据总是会延迟几天。我们需要实时数据来获取更好的花粉信息,实现更好的预报和预防。经过优化的首个 Swisens Poleno 产品系列可解决此需求。它是针对各种花粉种类和孢子等其他生物气溶胶的自动实时测量和识别设备。该设备已经过优化,可进行长期监控。本演示将展示 Swisens Poleno 在现场的表现以及对其他气溶胶颗粒类型的测量能力。

16:10

开发 GNSS 反射信号遥感技术的应用和挑战

Randy Rose
任务和航天器主任系统工程师
西南研究所
美国
小型卫星和建模技术的近期发展使一种低成本高效益、可应用于水文气象的新型地球遥感技术成为可能。使用小型卫星星群实现的 GNSS 反射信号遥感技术,可以在整个大气条件动态范围内对浪、风、冰、土壤湿度和湿地数据进行遥感测量,并达到前所未有的瞬时分辨率和空间覆盖率。本文对 GNSS 反射信号遥感技术的各种应用、仪器调节要求的技术内涵、这种遥感技术的各种独特的应用挑战,以及已开发的相关解决方案进行了概述。

16:30

Enhanced precipitation and visibility measurements by combined forward scatterer and disdrometer

Tommi Linna
Product manager
Vaisala Oy
FINLAND
Conventional sensors miss the lightest precipitation events or fail in identification too often. Traditional forward scatterers suffer from limited sensitivity, and disdrometers suffer from limited precipitation identification. This introduces safety risk in weather-critical operations. By utilizing light sheets, a high sampling rate and powerful processors, we take detection and identification performance to the next level. The new sensor detects 100% of precipitation. Particle-by-particle analysis enables superior precipitation type assessment. Significant identification enhancement of drizzle, freezing rain, hail and ice pellets improves safety and efficiency. It is big leap toward AUTO-METAR. All-in-one visibility; precipitation identification, intensity, and accumulation; and disdrometer features provide significant cost-saving potential.

16:50

问答环节

第3天: 星期五 7 六月

Day 3
10:15 - 15:30

Moderator

Mark Harvey
CEO
Resurgence
UK

10:15

为北极运输提供改进的测绘服务

Betty Bonnardel
首席执行官
AB5 Consulting
英国
本演示将探讨一种新技术,该技术通过连接的移动测深站提供北极地区水道测绘增值服务。该技术采用数据收集传感器之间的接口并传送到岸上设施,以借助大星群卫星传输大量数据。用户终端可以放置在便携式测深浮标上、放置在测量船或飞机上;此外,可以在大块浮冰上安装带有 GPS 接收器的无人用户终端。北极测深设备可根据具体需求定制,例如政府组织、紧急救援服务机构、海洋运输公司和邮轮公司,以及本地用户的需求。

10:35

构建未来的 NWP 系统

William Cottay
云服务总监
Penguin Computing
美国
由于现代天气预报人员现在可以获取千万亿字节的数据,因此可以为全球系统创建更加精确的模型。但是,如果没有高性能计算 (HPC),数值天气预报 (NWP) 将不复存在,开发可靠和可运行的 NWP 系统仍然面临许多障碍。以往,需要付出高昂的资金成本才能拥有 HPC 设备,而且在运营和管理上也存在诸多挑战,因此 HPC 对于许多私人和公共预报机构来说是一种遥不可及的奢望。然而今天,新的解决方案可以帮助我们解决深层次技术问题(从数据集成到后期处理)以及组织限制。

10:55

LEO-based satellite-IoT services: next-gen connectivity for the meteorological world

Hub Urlings
创新和 ESA 项目经理
Hiber
荷兰
During the conference in Amsterdam in 2018, the European Space Agency’s presentation gave an overview of current and new satellite-IoT (sat-IoT) connectivity providers. Emphasis then was on the launch of a number of LEO-based systems at the end of 2018. In 2019, however, these systems will be operational, and this presentation will provide an overview of the running services these systems provide alongside existing sat-IoT operators. The presentation will consist of an overview of the satellite-IoT operators, a focus on the new space LEO sat-IoT players, and a meteo use case via LEO sat-IoT.

11:15

Vision-based visibility measurement during the night

Harald Ganster
主要研究员
Joanneum Research Forschungsgesellschaft mbH
奥地利
Visibility measurement based on camera images has already been established, with high performance during daytime proved by ongoing evaluations in ATM scenarios and synoptic meteorological applications. The present proposal addresses night-time scenarios, which pose challenges for a camera-based measurement system, such as light sensitivity of the sensor or availability of representative landmarks. The VisIvis system automatically detects the most suitable areas for visibility estimation within the camera-covered range, automatically tunes its detection parameters, and derives representative visibility measures to report in customized or standard formats (e.g. METAR). Performance during the night will be presented, together with examples from different scenarios.

11:35

GCOS: toward a global land surface climate fiducial reference measurements network

Tim Oakley
全球气候观测系统 (GCOS) 秘书处
世界气象组织
瑞士
Caterina Tassone
全球气候观测系统 (GCOS) 秘书处
世界气象组织
瑞士
By implementing and maintaining a stable and metrologically well-characterized global climate reference network, future generations will have access to a set of long-term observations of essential climate variables that will enable them to make more rigorous assessments of climate change and variability, and provide the strong evidence basis that is essential to inform adaptation decisions, and to monitor and quantify the effectiveness of internationally agreed mitigation steps. The Global Climate Observing System’s (GCOS) Atmospheric Observations Panel on Climate agreed on the creation of a dedicated task team to scope a potential GCOS global surface reference network (TT-GSRN). The GSRN will provide the reference element of a tiered network that includes other existing surface observing networks in the WMO system, and it will follow WMO Observing Network Design Principles. The adoption of common terminology and measurement procedures will benefit the ongoing discussions within GCOS and within CIMO for the improvement and revision of best-practice guidelines.

11:55

世界气象组织的百年观测站认证

Peer Hechler
气候和水部门数据管理应用处科学官员
世界气象组织
瑞士
世界气象组织实施百年观测站认证机制,以便强调长期稳定观测对于气象应用和研究的非凡重要性。至今为止,全球已有 150 多个观测站得到认证,更多观测站将来有望得到认证。借助观测站认证机制,世界气象组织各成员国有机会公开庆祝长期观测的重要性,从而鼓励决策和政策制定者进一步保护这些站点。气象仪器及其从历史到未来的演变在长期观测中发挥了重要作用。本演示将从一名气象学家的视角来重点阐述仪器相关的认定标准,从而鼓励制定适当的仪器标准作为长期观测的基础。

12:15

A cloud-based science gateway for enabling open and reproducible science

Dr Mohan Ramamurthy
主任
UCAR/Unidata
美国
Unidata, a cyber-infrastructure facility, has been deploying data infrastructure and data-proximate scientific workflows and analysis tools using cloud computing technologies for accessing, analyzing and visualizing geoscience data. Specifically, Unidata has developed techniques that combine access to well-documented data sets with easy-to-use tools, using workflow technologies. In addition to fostering the adoption of virtual machines through Docker containers and Jupyter notebooks, computational and analytic methods are enabled via Software as a Service and Data as a Service techniques with the deployment of the cloud IDV, AWIPS servers, and the THREDDS data server in the cloud to enable open and reproducible science.

12:45

How rain and hail influence the performance and structural integrity of wind turbine blades

Hans Verhoef
Project manager, wind energy
ECN part of TNO
NETHERLANDS
Leading edge erosion (LEE) is a phenomenon that is detrimental to the aerodynamic performance and structural integrity of wind turbine blades. In fact, the increase in surface roughness due to the erosion of the leading edge of blades has a significant detrimental effect on the performance of wind turbines. Recent studies show that reduction in the annual energy production (AEP) resulting from eroded blades can vary from 5% to 25% depending on the severity of the damage. This presentation will focus on local precipitation conditions with respect to degradation due to the leading edge erosion of the wind turbine blades.

13:05

Using small, unmanned research aircraft for atmospheric-turbulence wind-energy research

Jens Bange
大学教授
蒂宾根大学
德国
Small, unmanned aircraft systems (UAS) are very appropriate instruments for atmospheric measurements. They are very flexible during operation, very mobile, and can be operated in remote areas. UAS are very suitable measurement systems with regard to atmospheric turbulence and the turbulent transportation of energy, momentum, gases and particles. This presentation will discuss the pros and cons of small UAS. Due to the requirements of turbulent wind measurements, the presentation will focus on fixed-wing aircraft, and will discuss an exemplary research UAS with an emphasis on turbulent wind vector measurement. Finally, results obtained in boundary-layer meteorology and wind-energy research will be shown.

13:25

Data services to assess and mitigate lightning risk

Dominique Lapeyre de Chavardès
总裁
Météorage
法国
Being the only real real-time weather information, lightning became essential to NMSs for nowcasting, especially with the ‘lightning jump’ characterization of severe thunderstorms. But almost all sectors are lightning risk dependent, both for human safety and for the safety of properties. By sharing the cost between economic actors, data services efficiently mitigate the lightning risk, creating a win-win situation. As lightning detection networks use remote sensing equipment, their field validation requires specific attention. Depending on their requirements for critical operations, each end user will establish their own SLA based on criteria such as IC/CG classification, availability, timeliness or location accuracy.

13:45

满足最不发达国家的水文气象需求

John Snow
负责人
Snow & Associates LLC
美国
水文气象观测有助于获得对于许多决策至关重要的可信环境数据。撒哈拉以南非洲地区已作出巨大努力来提高水文气象服务。许多这些努力却未能吸取以前的经验。本演示意在传播联合国开发计划署非洲弹性发展气候信息行动计划中所遇到的成功和失败经验。本计划的目的是,使撒哈拉以南非洲地区 11 个最不发达国家能够提高自身获得可靠的水文气象决策支持信息的能力。

14:05

连接式移动天气传感器网络计划 MeteoTracker

Juri Iurato
首席执行官
Iotopon Srl
意大利
Timoteo Galia
创始人兼首席技术官
Iotopon Srl公司
意大利
MeteoTracker 计划旨在构建连接式移动天气传感器网络,利用车辆作为移动气象站。关键组成部分包括:一台紧凑轻巧的可携带多传感器设备,配备正在申请专利的辐射误差修正系统,用于精确测量温度;一个移动应用程序;一个软件基础架构,用于将实时数据上传到云端;一个 Web 应用程序,用于数据分析、处理和可视化。该计划由欧洲 PO FESR 2014-2020 项目资助,目前处于高级工作模型阶段。

14:25

WIGOS Station Identifiers (WSI): critical components of the WMO Integrated Global Observing System

Luís Nunes
Scientific officer, WIGOS Project Office, observing and information systems department
WMO
SWITZERLAND
The WMO’s Integrated Global Observing System (WIGOS) is set to become operational from 2020. It is a framework for integrating all data from observing systems, addressing the observing needs of the weather, climate, water and environmental services of WMO members. The main WIGOS technical systems, namely the Observing Systems Capability Analysis and Review (OSCAR) tool and the WIGOS Data Quality Monitoring System (WDQMS) have been developed and will continue to progress. The OSCAR/Surface database is the global repository of WIGOS metadata for all surface-based observations; it is where all the observing stations are registered using the WIGOS Station Identifiers (WSI). Previously, all observing stations were registered using five-digit WMO identifiers. However, many countries have now run out of numbers within their allowable ranges. The new WIGOS Station IDs (WSIs) were created with a structure of four blocks, using digits and alphanumeric characters that will allow essentially an unlimited number of stations to be registered in WIGOS. The implementation of WSIs is mandatory for members and a critical step they have to take to become WIGOS operational. This presentation will address how members need to carefully plan and implement the transition process from the traditional five-digit WMO IDs to the new IDs.

14:45

缓解加勒比地区气象影响中的创新

Damien Prescod
仪器仪表专家
加勒比气象与水文研究所
巴巴多斯
随着质量管理框架不断发展成为 NMHS 运营不可分割的组成部分,水文气象记录设备及传感器的维护和校准将成为 CIMH 及其附属成员机构的重点关注领域。为此,通过支持国家和地区早期预警观测网络的持续扩展,以及确保观测设备得到良好管理、维护和校准,CIMH 继续在地区发挥宝贵作用。培训、校准和意识计划的开展非常有助于缓解水文气象的影响。

15:05

Pilot projects for aeronautical meteorology in the Russian Federation

Artem Korchagin
飞行安全部门专家
Aviamettelecom of Roshydromet
俄罗斯
This presentation will look at the Aviation Nowcasting System (ANS) at Pulkovo Airport, which is a pilot project that is being undertaken as part of the WMO’s Aviation Research Demonstration Project, and the SIGMET coordination project. The ANS project is focused on aviation weather nowcasting, which includes respective uncertainty/confidence estimation over the Terminal Control Area for the next 0-6 hours. The system at Pulkovo generates four-hour forecasts to assist meteorologists when issuing forecasts. The near-future plan is to implement this system into ATC for decision making support. SIGMET messages contain information on different weather conditions that may affect flight safety. In accordance with ICAO requirements, states with common borders have to agree on the proposed content, horizontal location, vertical depth, boundaries and speed of movement of any SIGMETs affecting, or expected to affect, each state's FIR regions of responsibility. Since 2016, the Russian Federation has actively taken part in the given process at international level. The coordination process provides an opportunity for the each state to exchange the best practices of SIGMET content.

15:25

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2020年9月22、23、24日

METEOROLOGICAL TECHNOLOGY INTERNATIONAL

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