Proposal ID: 101004186
ICCS project ID: 63115700
Role: Partner
Acronym: Water-ForCE
Topic: LC-SPACE-24-EO-2020
Type of action: CSA
Call identifier: H2020-SPACE-2018-2020

Water-ForCE: Water scenarios For Copernicus Exploitation

Duration in months: 36
Fixed keyword 1: Earth Observation / Services and applications
Fixed keyword 2: Water resources
Free keywords: Remote sensing, inland waters, in situ networks, Copernicus services, water cycle

Unprecedented availability of free-to-access satellite data from the Copernicus programme has started to transform approaches to the assessment, monitoring and sustainable management of our aquatic environments. However, whilst the Copernicus Land Monitoring Service delivers the first generation of inland water quantity and quality products, other directly related products are fragmented across other services (e.g. EMS, C3S, CMEMS, CAMS, CIS). R&D capabilities have rapidly expanded through H2020 and ESA projects working on inland water challenges, but lack of coordination has led to a fragmented approach to evolving the service components and some confusion in a potentially broad user community. Thus, this expansion has not been matched by uptake of these products by decision makers, monitoring agencies, industry or the wider public. Water-ForCE will co-create a Roadmap for the development of the next phase of Copernicus Inland Water Services with the space sector, research community, policy, industry and third sector. The Roadmap will be benchmarked against community requirements, recommending services that should be delivered centrally by Copernicus and innovation opportunities that are better suited for business and research development. The Roadmap will also provide the strategy to ensure effective uptake of water-related services by end users, further support the implementation of relevant directives and policies and evidence policy development. This cross-disciplinary approach will align in situ and remote observation as this is essential to furthering the exploitation of operational observation platforms. A strategy to integrate in situ networks will be defined, integrating approaches to product validation and filling observation gaps and thus strengthen user confidence. Technical requirements for the future Copernicus sensors will also be specified for optimal inland water monitoring needs and future service development.

Lab URL: https://i-sense.iccs.gr
Project URL: https://remotesensing.vito.be/water-force-shaping-water-component-future-copernicus-services