Linked Projects
Here you can find VitiGEOSS’ related projects:
ENVISION project has the objective to fulfil the need for continuous and systematic monitoring of agricultural land, shifting the focus from fragmented monitoring limited to specific fields and dates to territory-wide and all-year-round monitoring. The project is using heterogeneous types of available data and state-of-the-art technologies and methodologies for providing a fully automated and scalable toolbox of services, built-in close interaction with its future customers. ENVISION project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 869366.
The AgROBOfood project develops a network, formed by universities, research centres and innovative companies with the objective of create innovation ecosystems at local and regional level in the field of robotics applied to agri-food sector. AgROBOfood network is oriented to foster the sharing of information facilities and best practices for an effective adoption of tech robotic concepts in the agri-food sector and demonstrating their applicability under practical circumstances, in order to increase the sector’s productivity and sustainability.
e-shape, the EU-funded H2020 flagship project, promotes and upscales EO solutions in Europe and beyond supporting the sustainable delivery of EO-based benefits. e-shape is a unique initiative that brings together decades of public investment in Earth Observation and in cloud capabilities into services for the decision-makers, the citizens, the industry and the researchers.
NOVATERRA stands for ‘Integrated Novel Strategies for Reducing the Use and Impact of Pesticides, Towards Sustainable Mediterranean Vineyards and Olive Groves’. The EU-funded project (2020-2024) is developing and testing a pool of novel, integrated and sustainable strategies to eliminate or significantly reduce the use and negative impacts of contentious Plant Protection Products (also known as pesticides) in Mediterranean olive groves and vineyards. The project also liaises with a wide range of stakeholders (policymakers, experts, associations of olive oil and wine producers, auxiliary industries, and citizens) through the Stakeholders Network which provides specific consulting advice and contributes to the project dissemination and exploitation activities.
SnapEarth is a EU H2020-funded project that aims to facilitate access to Earth Observation data from the general public thanks to EO data labelling and indexation innovations and access from the Qwant search engine. The SnapEarth project aims to bring out new values through large-scale earth observation data services and to anticipate future priorities by leveraging artificial intelligence and cloud computing technologies and tools.
The IoECrops project improves the productivity, efficiency and resilience of large-scale crop production by supporting agricultural management through the use of technologies based on the Internet of Things (IoT). Over the course of the project, sensors were installed and tractors, seed drills and bale harvesters were connected to the Internet along with the irrigation and fertilization systems used in different fields, in order to improve the productivity of large-scale crop production.
S2S4E is a three-year project funded by the European Union H2020 Framework Programme for Research and Innovation. The project is creating an operational climate service that enables renewable energy producers and providers, electricity network managers and policy makers to design better-informed strategies at sub-seasonal to seasonal timescales.
AURORAL focuses on increasing connectivity and delivering a digital environment of smart objects interoperable services platforms able to trigger dynamic rural ecosystems of innovation chains, applications and services. AURORAL digital environment is demonstrated by cost-efficient and flexible cross-domain applications through large-scale pilots in seven European regions. It builds on an open, API-based, interoperable and federated Internet of Things (IoT) architecture and includes a reference implementation supporting flexible integration of heterogeneous services, bridging the interoperability gap of the smart object platforms and creating markets for services in rural areas.
i-GRAPE aims at developing a new generation of analytical methods for stand-alone, on-the-field control of the grape maturation phase and vine hydric stress, based on highly integrated photonic components and modules (wafer and wafer/package level micro-spectrometers). The i-GRAPE approach complies, through the development of innovative integrated photonic components and modules, with the needs of a low-cost, reliable, sensitive, stable and high throughput analysis that interconnected with communications and signal processing electronics, can bring the process control of grape maturation into the hands of the winemaker.
GLOMICAVE is a European project developing a new digital to phenotype platform, relying on Big Data Analytics and Artificial Intelligence and using large-scale publicly available and experimental omic datasets. The project has the objective to address the need to build systems that allow the use of primary data analytical processes and support large-scale omic experiments, thus maximising the utility of omic data at a massive level and understanding of biological systems as a whole.