Data Avaliability

Strengthening observational infrastructure

Facilitating cross-border data exchange

Establishing cloud-based data repositories

Integrating open datasets (e.g., NASA, Copernicus) into national workflows

The RIMES region is prone to hydro-meteorological and geologic hazards which severely undermine the livelihoods of people and the overall growth trajectory of the countries. Generating accurate and actionable early warning information is heavily dependent on monitoring and observation data and provides a foundation for effectively managing and reducing disaster and climate risks.

Availability of data from dense observation networks is key to generating high-resolution forecasts. However, the Least Developed Countries (LDC) and Small Island Developing States (SIDS) in the region, although disproportionately affected by climate impacts, have significant gaps in observation systems and lack adequate resources and appropriate institutional mechanisms to address the gaps.

RIMES assists National Meteorological and Hydrological Services (NMHSs) in low-capacity countries to enhance data availability by establishing and upgrading observation and monitoring systems. RIMES provides expertise and support for the operation of national stations of regional importance to ensure sustained data flow that is assimilated into modeling systems for improving forecast accuracy.

Furthermore, to promote data access among agencies for robust climate prediction and effective early warning response, RIMES assists NMHSs through data platforms for reliable integration, sharing, and management. RIMES works closely with regional as well as global centers like European Center for Medium-Range Weather Forecasts (ECMWF), World Meteorological Centers (WMCs), and WMO Regional Meteorological Centers (RSMCs).

Seismic Data Sharing

Seismic data from stations set up in member states share data with the regional and global networks. To enable seismic data sharing into the regional networks (RIMES/IRIS), a dataless SEED volume that contains the station’s metadata, and the national center’s SEEDLink server’s public IP address are shared to the regional networks. Restrictions for IP addresses […]

Oceanic Data Sharing

Sea level station data have been integrated into national networks via cellular telemetry to transmit data via mobile wireless modem to the nearest telecommunications tower and shared globally through GTS to the GLOSS network. RIMES has also deployed buoy stations that transmit information on meteorological data such as water temperature, wave height, period, direction, etc. […]

Developing Mechanisms for Data Sharing

The Least Developed Countries and Small Island Developing States in the region, although disproportionately affected by climate impacts, have significant gaps in observation systems and lack resources and institutional mechanisms to address the gap. Non-GTS (Global Telecommunication System) data are shared by RIMES member states through regional data sharing mechanisms to ensure the availability of […]

Oceanic Data System

Sea level station data has been integrated into national networks via cellular telemetry and shared globally through GTS to the GLOSS network.

Seismic Data System

Most seismic data have been integrated into national networks by data transmission via cellular telemetry to the Apollo server located at the national data center, except for RM-SZP which uses satellite telemetry. The Apollo server is a platform for consolidating continuous real-time data seismic waveform, state-of-health data, and log files using Nanometrics Protocol (NP) or […]

Integrating Diverse Data System

RIMES assists NMHSs in designing and deploying data integration systems for unifying diverse data acquisition platforms. These platforms are integrated with web-based portals for data storage, exchange, dissemination, and archiving.