Atos announced it has been entrusted by the European Space Agency (ESA) to launch an Open Competition to expand DestinE ecosystem. DestinE is a flagship initiative led by the European Commission and implemented by the ESA, the European Centre for Medium-Range Weather Forecasts (ECMWF) and the European Organisation for the Exploitation of Meteorological Satellites (EUMETSAT) to create a highly accurate digital twin of the Earth. DestinE?s ecosystem is designed to assist policymakers, researchers or innovators simulate, monitor and better understand natural phenomena and human activity, offering new ways to engage with and understand our world better to shape a sustainable future.
As a result of this first Open Competition, 12 innovative Service Providers have been selected to deliver Advanced Applications & Services (AAS) on DestinE Platform. Some of these services are now fully operational, offering unprecedented opportunities for exploration and understanding. CALIFE (?Quality of Life?), developed by Murmuration, is designed to make satellite Earth Observation insights accessible to everyone, from the general public to local authorities.
It provides personalized, easy-to-understand reports on environmental and health conditions at a hyper-local scale. CALIFE offers: free service for municipalities, premium quality-of-life reports for citizens, custom projections for decision-makers. By raising awareness, supporting local policies, and fostering resilience to climate change, CALIFE creates a virtuous cycle toward healthier, more sustainable communities.
Harvic, developed by GeoVille, is designed to provide stakeholders in the potato industry with a clear and reliable view of crop development throughout the season, as well as accurate predictions for harvest time in terms of quantity and quality. By combining satellite information, weather data, and field observations, HARVIC transforms complex datasets into simple, actionable insights. This innovative service helps users to: understand crop conditions and monitor their evolution, anticipate yield and quality, reducing uncertainty, identify potential risks early, enabling proactive measures.
HARVIC supports better planning for harvest and logistics, complementing traditional field checks and expertise. Built around real operational needs, it integrates seamlessly into existing workflows, enhancing foresight and decision-making confidence. By saving time, optimizing resources, and promoting more sustainable farming practices, HARVIC not only empowers the potato industry to thrive in a rapidly changing agricultural landscape but also contributes to a deeper, data-driven understanding of agricultural dynamics in a rapidly changing environment.
Hi-Rest LST is designed to deliver precise thermal insights at a resolution of 30 meters. By leveraging advanced machine learning and data fusion techniques, the service combines the coarser Sentinel-3 data (1km spatial resolution) with the high-resolution land surface temperature product from Landsat-8. Hi-Rest LST offers: detailed visualization of land surface temperature layers and time series for user-defined locations, customizable areas of interest and datasets tailored to specific needs, monitoring tools for user-triggered pipeline runs, ensuring seamless access to service results. By providing enhanced land surface temperature estimations, Hi-Rest LST supports applications where precision is critical, such as urban resilience planning and infrastructure monitoring.
This service empowers end-users to make informed decisions and drive sustainable solutions for a changing world. COMEO (?Compression Of Models & Earth Observations?), developed by VisioTerra, is designed to optimize the use of Earth observation and modelling data through lossy compression algorithms. Targeting data from Sentinel-1 and Sentinel-2 satellites as well as Earth modelling data like C3S ERA5, COMEO offers an innovative solution for efficiently managing data volumes. COMEO offers: advanced compression algorithms allowing size reduction ranging from ×10 to ×250, demonstration tool: Illustrating the impact of lossy compression on data quality for better understanding of trade-offs, mapping tool: Presenting a synthesis of Sentinel-1 IW data over the Mediterranean Sea, covering the entire Sentinel-1 mission time range.
By providing effective compression solutions, COMEO enables users to maximize data usage while preserving relevance for critical applications such as environmental monitoring and climate model analysis. This service is essential for those looking to leverage Earth data while optimizing available resources. The Desert Locust Monitoring Service (DLMS), developed by Sistema, is at the forefront of efforts to mitigate the devastating impacts of desert locusts, which are recognized as the world’s most destructive migratory pests.
These pests pose significant threats to the economy, quality of life, and the environment, with their impacts exacerbated by climate change. Key Features of the Desert Locust Monitoring Service: AI-driven detection: utilizes cutting-edge AI algorithms to analyze diverse climate data sources, including satellite imagery, model data, and in situ observations, to identify breeding conditions conducive to locust proliferation, predictive modeling: offers robust predictions of locust swarm movements, enabling proactive measures to prevent upsurges and mitigate potential damage, geographical scope: focuses on a vast region extending from Africa to Asia, where locust activity is most prevalent. By leveraging these innovative technologies, the Desert Locust Monitoring Service plays a crucial role in safeguarding agricultural resources and ecosystems, ensuring that stakeholders can respond swiftly and effectively to locust threats.
A new wave of innovative services will become operational, each designed to address critical challenges across diverse sectors. These will include: CityNexus Pro by Solenix: a pro version of the CityNexus service already operational in the DestinE Platform with an advanced urban digital twin application assessing the impacts of climate changes in road networks and urban design; CONOPS by EDGE in Earth Observation Sciences: a predictive model using satellite and census data to simulate mosquito populations and estimate disease risks; CC-PLAN by CGIItalia: a service providing localized data on Urban Heat Islands and Flight Climatic Analysis dynamics using DestinE datasets and providing mitigation strategy modeling, and dynamic visualizations; AQWALYTICS by Magellium: a scalable solution monitoring the quality of European water bodies by combining satellite data with real-time data from in-situ stations; Eki?Learning by Ekitia: an ethical data service for the DestinE Platform that includes easy-to-follow e-learning modules on data use and AI, plus a self-assessment tool to help users check the ethical maturity of their services.