The proposed Coordination and Support Action (CSA) has the overall objective to establish an international network of experts and stakeholders in the field of microbiome food system research, elaborating microbiomes from various environments such as terrestrial, plant, aquatic, food and human/animal and assess their applicability and impact on the food system. MICROBIOMESUPPORT will follow the approach of food system and integrate actors and experts from all stages in this circular economy of food. The food system approach is part of the FOOD 2030 concept to promote a systems approach to research and innovation (R&I). MICROBIOMESUPPORT will be one of the key drivers to implement FOOD 2030 strategies, will facilitate multi-actor engagement to align, structure and boost R&I in microbiome and will support the European Commission by coordinating the activities, meetings, workshops and results from the International Bioeconomy Forum (IBF) working group ‘Food Systems Microbiome’. The main concept behind MICROBIOMESUPPORT IS to boost the bioeconomy and the FOOD 2030 strategy, by focusing on the new avenues generated by microbiome R&I efforts. MICROBIOMESUPPORT WILL have a main impact on the coordination of commonly defined R&I agendas which will be incorporated into regional, national, European but also global funding programmes related to microbiomes in food systems. MICROBIOMESUPPORT will create a collaborative international network and integrate know-how in plant, terrestrial, animal, human and aquatic microbiome R&I as well as expertise in bioeconomy applications. MICROBIOMESUPPORT has integrated international partners form Brazil, Canada, South Africa, China, Argentina, Australia, New Zealand, India and USA in order to improve the international cooperation and coordination of common bioeconomy research programmes and set a basis for common microbiome R&I agendas.

EnTimeMent aims at a radical change in scientific research and enabling technologies for human movement qualitative analysis, entrainment and prediction, based on a novel neuro-cognitive approach of the multiple, mutually interactive time scales characterizing human behaviour. Our approach will afford the development of computational models for the automated detection, measurement, and prediction of movement qualities from behavioural signals, based on multi-layer parallel processes at non-linearly stratified temporal dimensions, and will radically transform technology for human movement analysis. EnTimeMent new innovative scientifically-grounded and time-adaptive technologies operate at multiple time scales in a multi-layered approach: motion capture and movement analysis systems will be endowed with a completely novel functionality, achieving a novel generation of time-aware multisensory motion perception and prediction systems. The proposed model and technologies will be iteratively tested and refined, by designing and performing controlled and ecological experiments, ranging from action prediction in a controlled laboratory setting, to prediction in dyadic and small group interaction. EnTimeMent scenarios include health (healing and support of everyday life of persons with chronic pain and disability), performing arts (e.g. dance), sports, and entertainment group activities, with and without living architectures. EnTimeMent will create and support community-building and exploitation with concrete initiatives, including a community of users and stakeholders, innovation hubs and SME incubators, as premises for the consolidation beyond the end of the project in a broader range of market areas.

Exploratory behaviour lies at the core of human essence. Being confronted with novel terrain, materials, tools, or artistic creations, humans instinctively explore the unknown in order to acquire information about it, to make sense of it, to act on it, and to appreciate what is in front of them. This quest for understanding involves dynamic engagement like walking, observing, handling objects, and manipulating them to witness changes in sight, touch, or sound. Active exploration is pivotal in shaping our sensory experiences of the world. Yet, the mutual relationships between perceptual experiences and the dynamic structures of the multisensorial information generated by active exploration are still not well understood. This presents a significant scientific challenge in itself and for comprehending the human mind's workings in natural settings. It also negatively impacts the development of multisensory interactive technologies and the innovative design of immersive systems, as well as the modelling of intelligent adaptive behaviour, thereby affecting nearly every facet of our life, including healthcare, education, mobility, AI, robotics and culture. EXPLORA aims to uncover the mutual interactions between perceptual impacts and active exploration systematically, quantitatively, and empirically. We propose a paradigm shift, approaching perception of materials, objects, and space as dynamic interactions with complex ecological systems. Through our innovative, cross-sectoral, multi-disciplinary, and sustainable research and training programme, we aim to catalyse this shift, creating impact through transfer between science, engineering, design, arts and industry and by connecting multiple levels of STEAM (Science, Technology, Engineering, Arts, and Mathematics) education from middle schools to doctoral education to enhance talent and knowledge circulation across the European R&I (Research and Innovation) landscape.