速報APP / 教育 / URBAN-PREX flood visualisation

URBAN-PREX flood visualisation

價格:免費

更新日期:2019-05-09

檔案大小:53M

目前版本:0.1

版本需求:Android 4.1 以上版本

官方網站:http://www.arhns.uns.ac.rs/cdd/

Email:cdd@uns.ac.rs

聯絡地址:隱私權政策

URBAN-PREX flood visualisation(圖1)-速報App

The URBAN-PREX project is co-financed by the European Union through the Interreg-IPA CBC Hungary-Serbia Programme with 638,171.39 €, and total amount of the project is 750,789.99 €.

URBAN-PREX flood visualisation(圖2)-速報App

Climate change is expected to increase the frequency and intensity of precipitation and pluvial flood occurrences in urban areas of Central Europe. Thus, the proposed project presents an outstanding opportunity to develop and implement an innovative monitoring, forecasting and online public early warning system for extreme precipitation and pluvial floods in urban areas of the Hungarian-Serbian Cross-border region. Through the project, two dense monitoring precipitation networks will be installed in the most-populous cities of the Programme area: Novi Sad (Serbia) and Szeged (Hungary). Continuous data recording, transmission and processing, as well as real time display of the processed data in a spatial (i.e. map) form will be useful for citizens (i.e. individual adaptation) and public institutions (e.g. traffic and water management, city government) of the Cross-border region. Real-time precipitation forecasting model for the whole programme area supplemented with the forecast of pluvial flood occurrences in Novi Sad and Szeged will be developed through the project based on the measured data from the networks and the remotely sensed data. Measured data will be used to fine-tune the remotely sensed data thus enabling the development of more precise forecast model for the Programme area. Measured and forecasted data will be freely available for everyone in real-time on the project website, project social pages and mobile android application giving an early warning to the citizens and public authorities in order to protect them and prepare their effective response to these extreme weather and water situations.