PANTHEON will design and develop a Community based Digital Ecosystem for Disaster Resilience utilising Smart City Digital Twin (SCDT) technology and leveraging new and emerging technologies and innovations to improve risk assessment, reduce vulnerability, and building community disaster resilience. The aim is to enhance the operational capabilities of CBDRM (community based DRM) teams, by: a community based smart city digital twin environment with components used for simulations, training and evaluation of the behaviour of sub-systems, threats and human factor; an early Detection and Situational awareness environment enabling authorities and FR and SR (first and second) even in complex, remote and demanding locations; an integrated intelligent subsystem, by the utilization collaborative sensing from earth observations and swarms of UAVs optimized to autonomously perform UAV-assisted operations throughout all disaster phases. PANTHEON platform and technologies will be combined with IoT infrastructure, multi-source data (satellite and in situ data, social networks, historical data) to create a tool for assessment of risks, vulnerability and capacity assessment; disseminate and inform decision makers and the public for risks during disasters; engage citizens and stakeholders in the disaster resilience building and share knowledge and best practices; identify vulnerabilities and implement policies, strategies and plans to eliminate future disaster costs; enhance collaboration among people at the local level; promote the conduct of comprehensive surveys on multi-hazard disaster risks and the development of regional disaster risk assessments and maps, including climate change scenarios; promote and enhance, through international cooperation, including technology transfer, access to and the sharing and use of non-sensitive data and information; SCDT will enable collective community behavior into the assessments of exposure to urban multi-hazards across time and space.

COBALT proposes the introduction of a Common Certification Model (CCM) for European industries, leveraging existing standards and composing a unified cybersecurity namespace for ICT processes. The proposal will uphold the paradigm of Digital Twinning (DT) via the creation of Digital Threads and extend it in a vertical agnostic approach across different industries, including Quantum computing (involving FHG’s Quantum Computer) and I4.0. The COBALT DT will explore technology disruption mainly focusing on AI and High-Performance Computing (HPC) via the analysis and certification of Quantum Processing Oracles (a Quantum Computer exposure operation that is used as input to another algorithm), and how different enablers of these paradigms can be certified in a vertical agnostic manner. Quantum is destined to play a pivotal role in Europe’s AI and Computing sovereignty, thus protecting such infrastructure and its relevant processes (Quantum Oracles), should be of top priority. Along with common information models, COBALT acknowledges the importance of trusted information exchange a critical feature for an effective certification process across different industries, especially regarding cybersecurity. Therefore, COBALT will focus on the integration of International Data Spaces (IDS) primitives as a basis for the data sharing platform across different stakeholders. IDS currently proposes different models and procedures to share information and data across different spaces in a trusted manner between two parties, this can facilitate the process to build a trusted end-to-end certification framework across different industry stakeholders. Finally, COBALT aims to build a decentralized solution to further accelerate technology adoption and harmonization for the different use cases to be adopted. For the proposed CCM to function as a long term and sustainable European solution for certification, it needs to adapt and flex according to different environment conditions.

AGRARIAN will focus on the design of an open and highly dynamic environment (TRL 5-7) with respect to the tools, reuse, composability and orchestration so as to enable tailored open-source digital solutions that will enhance sustainability performance and competitiveness of the agricultural sector. AGRARIAN will leverage mature and sophisticated technologies addressing the requirements of different workloads through a new programming environment and tools for the automated refactoring of existing and/or new applications and data management frameworks enabling them to operate in edge-based deployments as well as new edge-native programming abstractions and middleware. Based on widely accepted open source technologies and adoption of container-based technologies and orchestrators, AGRARIAN platform aims to offer: Smart connectivity for secure access to any of the relevant network infrastructure options; Ability to dynamically meet latency, configuration and other requirements of each of the different network technologies; Integration of edge and cloud for a transparent infrastructure to organize and deploy software components on demand; Uniform management of distributed digital infrastructure for different edge types, cloud components and services; Dynamic deployment and provisioning of services and applications that are time- and location-dependent; Management of data to maintain data security and optimize data processing; Optimisation of operations in terms of energy consumption by enabling new tools and apps for field operations and resource use; The proposed AGRARIAN environment will enable the development of new tools and apps for the agriculture by improving operational effectiveness and efficiency through real- time data processing. A strong ADSS (Agricultural Decision Support System) tool will be developed taking into consideration all specificities of farmers in rural communities enabling end users and stakeholders and maximize their benefit.