{"help": "https://data.neolaiacampus.eu/it/api/3/action/help_show?name=datastore_search", "success": true, "result": {"include_total": true, "limit": 100, "records_format": "objects", "resource_id": "13239a79-f9c8-49c8-be66-5a3bed9d9913", "total_estimation_threshold": null, "records": [{"_id":1,"Project ID":"101016000","Project acronym":"ICU4Covid","Status":"Completed","Title":"Cyber-Physical Intensive Care Medical System for Covid-19","Project URL":"","Project URL 2":"","Description":"The European health services have well responded to the COVID-19 emerging crisis, especially if and where the intensive care unit (ICU) capacities were sufficient, were prepared and collectively cooperating, sharing knowledge and were able to protect from further spreading of the disease among the healthcare workforce and the patients. Today, only 47% of hospitals have the recommended coverage of intensive care specialists and they are unevenly distributed between centres and periphery. The Cyber-Physical System for Telemedicine and Intensive Care (CPS4TIC) enables existing or new ICU structures to transform and operate as one ICU Hub with one central ICU and connected ICUs in peripheral hospitals. CPS4TIC was used successfully in the first wave of COVID-19 to ensure efficient and effective diagnosis and treatment of COVID-19 patients, while reducing the risk of infection drastically. The CPS4TIC consists of a telemedicine cockpit, telemedicine consoles at each peripheral hospital, a connector platform and smart bedside hubs including robotic arm at the bedsides of both, the central telemonitoring clinics and the peripheral telemonitored hospitals. The ICU Hub operates telemedicine, continuous real-time telemonitoring and bedside smart care environment. The bedside smart care environment reduces the risk of infection for the health workforce significantly both for the central and the peripheral hospitals. ICU4Covid will deploy and test the CPS4TIC at large-scale, in 10 ICU Hubs in Europe, involving more than 30000 patients/year with a coverage of approximately 60 Million citizens.","Start date (d/m/y)":"2021-01-01T00:00:00","End date (d/m/y)":"2022-12-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"H2020-EU.3.1. - SOCIETAL CHALLENGES - Health, demographic change and well-being","Key Action":"SC1-PHE-CORONAVIRUS-2020-2B - Medical technologies, Digital tools and Artificial Intelligence (AI) analytics to improve surveillance and care at high Technology Readiness Levels (TRL) ","Call":"H2020-SC1-PHE-CORONAVIRUS-2020-2 ","Role of University":"participant","Total cost of project":"12 464 376,96 €","EU Contribution":"10 497 102,38 €","EU Contribution Bielefeld":"92 000,00 €"},{"_id":2,"Project ID":"824087","Project acronym":"EOSC-Life","Status":"Completed","Title":"Providing an open collaborative space for digital biology in Europe","Project URL":"https://www.eosc-life.eu","Project URL 2":"","Description":"The EU-funded EOSC-Life project brings together the 13 pan-European Life Science Research Infrastructures in ESFRI to create an open, digital and collaborative space for life science research. EOSC-Life will publish FAIR data and a catalogue of services for the management, storage and reuse of data in the European Open Science Cloud (EOSC). The project also implements interdisciplinary workflows for life scientists. Via open calls, researchers and project consortia can work with the European Life Science Research Infrastructures and their technical experts to bring their data, tools and workflows into the cloud. Finally, EOSC-Life addresses policies for human research data under GDPR with standards for data provenance and reproducibility, opening a route to set up registries for clinical trial data.","Start date (d/m/y)":"2021-01-01T00:00:00","End date (d/m/y)":"2023-02-28T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"H2020-EU.1.4. - EXCELLENT SCIENCE - Research Infrastructures","Key Action":"INFRAEOSC-04-2018 - Connecting ESFRI infrastructures through Cluster projects ","Call":"H2020-INFRAEOSC-2018-2020 ","Role of University":"participant","Total cost of project":"26 145 996,25 €","EU Contribution":"26 145 996,25 €","EU Contribution Bielefeld":"46 500,00 €"},{"_id":3,"Project ID":"101017452","Project acronym":"OpenAIRE Nexus","Status":"Completed","Title":"OpenAIRE-Nexus Scholarly Communication Services for EOSC users","Project URL":"https://www.openaire.eu/openaire-nexus-project","Project URL 2":"","Description":"In the world of open science, fair, user-friendly and open communication and information sharing are key. Therefore, in order to promote research, content and information must be easily discovered and viewed. The EU-funded OpenAIRE Nexus project is presenting a framework of services that could greatly assist in publishing research, monitoring its impact and helping promote its discovery. These services are provided by public institutions and entities, having already been used in Europe and beyond. The goal is to integrate this framework into the European Open Science Cloud (EOSC) and the open science community worldwide.","Start date (d/m/y)":"2021-01-01T00:00:00","End date (d/m/y)":"2023-06-30T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"H2020-EU.1.4. - EXCELLENT SCIENCE - Research Infrastructures","Key Action":"INFRAEOSC-07-2020 - Increasing the service offer of the EOSC Portal ","Call":"H2020-INFRAEOSC-2018-2020 ","Role of University":"participant","Total cost of project":"3 999 923,50 €","EU Contribution":"3 999 923,50 €","EU Contribution Bielefeld":"386 656,50 €"},{"_id":4,"Project ID":"101017536","Project acronym":"EOSC Future","Status":"Completed","Title":"EOSC Future","Project URL":"https://eoscfuture.eu","Project URL 2":"","Description":"The European Open Science Cloud (EOSC) will provide European researchers, innovators, companies and citizens with an open environment that will allow them to publish, find and reuse data, tools and services for research, innovation and educational objectives. The EU-funded EOSC Future project will integrate, consolidate and connect e-infrastructures, research communities and initiatives in Open Science to advance the EOSC platform of services (EOSC-Core, EOSC-Exchange, Interoperability Framework). The project aims to uncover the potential of European research by connecting the major stakeholders in the EOSC ecosystem, developing scientific use cases in collaboration with the thematic communities, engaging the broader EOSC community and increasing its visibility.","Start date (d/m/y)":"2021-04-01T00:00:00","End date (d/m/y)":"2023-09-30T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"H2020-EU.1.4. - EXCELLENT SCIENCE - Research Infrastructures","Key Action":"INFRAEOSC-03-2020 - Integration and consolidation of the existing pan-European access mechanism to public research infrastructures and commercial services through the EOSC Portal ","Call":"H2020-INFRAEOSC-2018-2020 ","Role of University":"participant","Total cost of project":"42 077 088,84 €","EU Contribution":"40 877 088,83 €","EU Contribution Bielefeld":"79 687,50 €"},{"_id":5,"Project ID":"101016442","Project acronym":"AIPlan4EU","Status":"Completed","Title":"Bringing AI Planning to the European AI On-Demand Platform","Project URL":"https://www.ai4europe.eu/ai-community/projects/aiplan4eu","Project URL 2":"","Description":"Automated planning is a decision-making technology for deciding how and when to act to achieve a desired objective. Planning has many application areas needing automated and optimal decisions, such as robotics or logistics. Despite being a mature technology, several obstacles hinder its adoption: it is hard for practitioners to identify the right technique, there are no shared industrial standards, and planning expertise is hard to acquire. The EU-funded AIPlan4EU project is a programme to make automated planning accessible for innovators and professionals throughout Europe. The project encompasses several use-cases in diverse domains, and will create a framework for automated planning integrated in the European AI On-Demand (AI4EU) Platform to suit the demands of users across Europe.","Start date (d/m/y)":"2023-04-01T00:00:00","End date (d/m/y)":"2023-10-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"H2020-EU.2.1.1. - INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Information and Communication Technologies (ICT)","Key Action":"ICT-49-2020 - Artificial Intelligence on demand platform ","Call":"H2020-ICT-2018-20 ","Role of University":"participant","Total cost of project":"5 416 193,75 €","EU Contribution":"4 999 174,25 €","EU Contribution Bielefeld":"60 000,00 €"},{"_id":6,"Project ID":"956702","Project acronym":"eProcessor","Status":"Completed","Title":"European, extendable, energy-efficient, energetic, embedded, extensible, Processor Ecosystem","Project URL":"https://eprocessor.eu","Project URL 2":"","Description":"The Barcelona Supercomputing Center (BSC) is leading the EU-funded EuroHPC eProcessor project. Its objective is to deliver the first entirely open source European full stack ecosystem based on the open source reduced instruction set computer, RISC-V Instruction Set Architecture (ISA). In eProcessor, a novel, multi-core out-of-order processor is coupled to multiple diverse accelerators that target traditional high-performance computing (HPC) workloads, as well as extending into mixed and reduced precision workloads for high-performance data analytics, artificial intelligence, machine learning, deep learning and bioinformatics application domains. The eProcessor will be extendable (open source), energy efficient (low power), extreme scale (high performance), suitable for uses in HPC and embedded applications, and easy to extend with on-chip and/or off-chip components.","Start date (d/m/y)":"2021-04-01T00:00:00","End date (d/m/y)":"2024-03-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"H2020-EU.2.1.1. - INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Information and Communication Technologies (ICT)","Key Action":"EuroHPC-01-2019 - Extreme scale computing and data driven technologies ","Call":"H2020-JTI-EuroHPC-2019-1 ","Role of University":"participant","Total cost of project":"7 999 975,00 €","EU Contribution":"3 999 987,51 €","EU Contribution Bielefeld":"129 500,00 €"},{"_id":7,"Project ID":"101088488","Project acronym":"FluCo","Status":"Transferred","Title":"Fluctuations in continuum and conservative stochastic partial differential equations","Project URL":"","Project URL 2":"","Description":"Fluctuations are ubiquitous in real world contexts and in key technological challenges, ranging from thermal fluctuations in physical systems, to algorithmic stochasticity in machine learning, to fluctuations caused by small-scale weather patterns in climate dynamics. At the same time, such complex systems are subject to an abundance of influences, and depend on a large variety of parameters and interactions. A systematic understanding of the interplay of stochasticity and complex dynamical behavior aims at unveiling universal properties, irrespectively of the many details of the concrete systems at hand. Its development relies on the derivation and analysis of universal concepts for their scaling limits, capturing not only their average behavior, but also their fluctuations.","Start date (d/m/y)":"2023-11-01T00:00:00","End date (d/m/y)":"2024-10-14T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"ERC-2022-COG - ERC CONSOLIDATOR GRANTS ","Call":"ERC-2022-COG ","Role of University":"coordinator","Total cost of project":"1 999 864,00 €","EU Contribution":"1 999 864,00 €","EU Contribution Bielefeld":"68 027,53 €"},{"_id":8,"Project ID":"2022-1-DE02-KA220-ADU-000088137","Project acronym":"IntoDeep","Status":"Completed","Title":"Into the Deep: Marine Image Analysis Hub for Citizen Scientists ","Project URL":"https://www.thedeepproject.eu","Project URL 2":"","Description":"Into The Deep brings the worlds deep ocean to your laptop: we will teach you about four distinct marine habitats and show you the impact that human behaviour has on them. Then you will learn how to use BiiGLE PARTY, a new web-based tool to make species observations in sea floor images. ","Start date (d/m/y)":"2022-11-01T00:00:00","End date (d/m/y)":"2024-10-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"ERASMUS+ ","Key Action":"KA220-ADU ","Call":"Cooperation partnerships in adult education","Role of University":"participant","Total cost of project":"not available","EU Contribution":"not available","EU Contribution Bielefeld":"46 740,00 €"},{"_id":9,"Project ID":"955778","Project acronym":"PERSEO","Status":"Completed","Title":"European Training Network on PErsonalized Robotics as SErvice Oriented applications","Project URL":"https://www.perseo.eu/project/","Project URL 2":"","Description":"The personal robotics domain is raising new challenges concerning the need for robot behaviour with a high level of personalisation with respect to each user’s needs and preferences. The aim is to have a cloud repository of robot behaviours that allows an easy personalised configuration approach. This requires the investigation of different robot capabilities to adequately understand and model the human–robot interaction and adapt the robot’s behaviour to the context. The EU-funded PERSEO project will train early-stage researchers (ESRs) from the fields of computer science, philosophy, and psychology in how robotics technology can be personalised on the physical, cognitive and social levels. This will help the ESRs understand how to address social, legal and ethical issues that arise with the uptake of personal robots.","Start date (d/m/y)":"2021-01-01T00:00:00","End date (d/m/y)":"2024-12-23T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"H2020-EU.1.3. - EXCELLENT SCIENCE - Marie Skłodowska-Curie Actions","Key Action":"MSCA-ITN-2020 - Innovative Training Networks","Call":"H2020-MSCA-ITN-2020 ","Role of University":"participant","Total cost of project":"4 067 849,97 €","EU Contribution":"4 067 849,97 €","EU Contribution Bielefeld":"226 868,00 €"},{"_id":10,"Project ID":"101060427","Project acronym":"UCoCo","Status":"Completed","Title":"Ultrafast Control of Interlayer Coupling of Two-Dimensional Layered Materials","Project URL":"","Project URL 2":"","Description":"Layered two-dimensional materials are novel quantum materials considered as the basis for future-generation electronics. The electronic and optical properties of such materials critically depend on so-called interlayer coupling – the interaction between the neighboring atomic layers within the material. What is of particular interest is that one can modulate this interlayer coupling, and thereby the material’s properties, by applying an electric field in the out-of-plane direction of the atomic layers. In this project, I focus on a typical semiconductor layered material called transition-metal dichalcogenides (TMDC). In TMDC, bandgap modulation with DC electric fields was recently achieved. However, the limitation of the modulation speed remains yet unclarified. In addition, the expected insulator-metal transition at the strong-field limit has not yet been realized because the required strong field causes a dielectric breakdown of the material.This project aims to (1) Realize ultrafast control of electronic properties of layered materials via direct ultrafast manipulation of interlayer coupling, (2) Identify the speed limitations to this controlling mechanism, and (3) Realize the insulator-metal transition in the layered material via the ultrafast control scheme. To investigate the ultrafast dynamics, I will utilize the terahertz technology, which enables us to apply a very short pulse of an electric field - a terahertz pulse - to the material and observe the change of its optical properties in an ultrafast timescale. A newly proposed micrometer-sized device, which converts an incident terahertz pulse to a strong out-of-plane electric field on TMDC, will enable ultrafast property control.The proposed scheme will be applicable for the ultrafast control of quantum phases in various layered-material systems. It is also expected to be applied as optoelectronic and all-optical ultrafast switches, which are important milestones for future ultrafast technologies.","Start date (d/m/y)":"2023-01-01T00:00:00","End date (d/m/y)":"2024-12-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON.1.2","Key Action":"HORIZON-MSCA-2021-PF-01-01 - MSCA Postdoctoral Fellowships 2021","Call":"HORIZON-MSCA-2021-PF-01","Role of University":"coordinator","Total cost of project":"not available","EU Contribution":"173 847,36 €","EU Contribution Bielefeld":"173 847,36 €"},{"_id":11,"Project ID":"101094270","Project acronym":"PALOMERA","Status":"Completed","Title":"Policy Alignment of Open access Monographs in the European Reserach Area","Project URL":"https://libereurope.eu/project/palomera/","Project URL 2":"","Description":"Academic books play an important role in scholarly production and research communication. Consequently, open access (OA) policies and strategies should utilise them to promote an open mode of operation across all disciplines. However, most OA funder policies and institutional strategies do not include academic books resulting in a slow uptake of OA for books. The EU-funded PALOMERA project will investigate the reasons preventing OA to academic books across geographies, languages, economies and disciplines within the European Research Area. The project will collect qualitative (including interviews, surveys, and use cases) and quantitative data to explain existing challenges and bottlenecks. PALOMERA will use this evidence to provide actionable recommendations and concrete resources to support and coordinate institutional policies for OA books.","Start date (d/m/y)":"2023-01-01T00:00:00","End date (d/m/y)":"2024-12-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-WIDERA-2022-ERA-01-42 - Supporting the development of aligned policies for open access books and monographs ","Call":"HORIZON-WIDERA-2022-ERA-01 ","Role of University":"participant","Total cost of project":"859 812,50 €","EU Contribution":"859 812,50 €","EU Contribution Bielefeld":"80 000,00 €"},{"_id":12,"Project ID":"956229","Project acronym":"ALPACA","Status":"Completed","Title":"ALgorithms for PAngenome Computational Analysis","Project URL":"https://alpaca-itn.eu","Project URL 2":"","Description":"Genome sequencing seeks to determine the order of As, Cs, Gs and Ts, representing the DNA nucleotides in the genome of an organism. Corresponding advances have led to steadily increasing amounts of data worldwide. Funded by the Marie Skłodowska-Curie programme, the ALPACA project will develop graph-based representations for genomes that build on combining individual variation in an evolutionarily meaningful way, thereby making it possible to process and analyse sequencing data more efficiently than traditional approaches, which are based on ordinary, sequence-type genome representations. The paradigm shift will play a critical role in personalised medicine and pathogen analysis.","Start date (d/m/y)":"2021-01-01T00:00:00","End date (d/m/y)":"2024-12-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"H2020-EU.1.3. - EXCELLENT SCIENCE - Marie Skłodowska-Curie Actions","Key Action":"MSCA-ITN-2020 - Innovative Training Networks","Call":"H2020-MSCA-ITN-2020 ","Role of University":"coordinator","Total cost of project":"3 725 035,20 €","EU Contribution":"3 725 035,20 €","EU Contribution Bielefeld":"807 976,80 €"},{"_id":13,"Project ID":"956107","Project acronym":"EPOC","Status":"Completed","Title":"Economic Policy in Complex Environments","Project URL":"https://epoc-itn.eu","Project URL 2":"","Description":"Europe is dealing with a number of big issues that are complicated due to path dependency, irreversibility, systemic risk and (local) interaction of heterogeneous agents. Climate change and the design of Europe’s desired transition to a low-carbon economy are such issues. Policies to address these challenges should be based on empirical analyses and appropriate modelling methods. The EU-funded EPOC project is an innovative training network aiming to advance and apply pioneering computationally intensive methods for decision and policy analyses in the fields of climate change and innovation. Early-stage researchers will be trained in data science, network theory, agent-based simulation and economic modelling. The academic training will include transferable skills training measures, intersectoral training measures and career development training.","Start date (d/m/y)":"2021-03-01T00:00:00","End date (d/m/y)":"2025-02-28T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"H2020-EU.1.3. - EXCELLENT SCIENCE - Marie Skłodowska-Curie Actions","Key Action":"MSCA-ITN-2020 - Innovative Training Networks","Call":"H2020-MSCA-ITN-2020 ","Role of University":"coordinator","Total cost of project":"3 982 061,52 €","EU Contribution":"3 982 061,52 €","EU Contribution Bielefeld":"939 805,20 €"},{"_id":14,"Project ID":"101022633","Project acronym":"4AirCRAFT","Status":"Completed","Title":"Air Carbon Recycling for Aviation Fuel Technology","Project URL":"https://4aircraft-project.eu","Project URL 2":"","Description":"The global aviation sector has set a course towards meeting the climate objectives of the Paris Agreement. In this context, the EU-funded 4AirCRAFT project will develop the next generation of stable and selective catalysts for the direct CO2 conversion into liquid fuels for the aviation industry. The project will integrate three main reactions into one, allowing the production of sustainable jet fuel at low temperatures. This advanced technology will decrease greenhouse gas emissions and restrict dependence on fossil fuel-based resources. The project will integrate and exploit biocatalysts, inorganic nanocatalysts, electrocatalysts, and their controlled spatial distribution within application tuned catalyst carrier structures that are based on metal-organic frameworks and engineered inorganic scaffolds with hierarchical porosity distribution.","Start date (d/m/y)":"2021-05-01T00:00:00","End date (d/m/y)":"2025-04-30T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"H2020-EU.3.3. - SOCIETAL CHALLENGES - Secure, clean and efficient energy","Key Action":"LC-SC3-RES-25-2020 - International cooperation with Japan for Research and Innovation on advanced biofuels and alternative renewable fuels","Call":"H2020-LC-SC3-2018-2019-2020 ","Role of University":"participant","Total cost of project":"2 897 153,75 €","EU Contribution":"2 239 591,25 €","EU Contribution Bielefeld":"250 900,00 €"},{"_id":15,"Project ID":"2022-1-DE01-KA220-HED-000086909","Project acronym":"DigiLLM","Status":"Completed","Title":"Digitalization in European Education: Realizing Equity and Inclusion with Living Learning Materials ","Project URL":"https://www.uni.lu/fhse-en/research-projects/digitalization-in-european-education-realizing-equity-and-inclusion-with-living-learning-materials-digillm/","Project URL 2":"","Description":"The aim of the DigiLLM project is to establish and expand this discourse on inclusion sensitivity in the context of OER and to anchor it internationally. This is done by building a comprehensive digital ecosystem: A digital portal is currently being set up that will become the central point of contact on the topic of “inclusion and OER” and offer teachers, teacher trainees, learners and researchers a space to critically engage with digital educational materials and OER. Hereupon, first explorative reflections of different OER platforms of all project countries as well as an international literature review are made accessible. Interviews and group discussions will be used to capture teachers’ and learners’ perspectives on OER and their sensitivity to inclusion. Based on these initial explorations, a catalogue of criteria for inclusion-sensitive Open Educational Resources will be developed, which will form the basis for an in-service training module for teachers and teacher trainees. These results will be made openly available. By setting up an openly accessible, interactive rating function on the digital portal, teachers, students, pupils and parents will be able to evaluate existing OER along the newly developed criteria. In this way, a broad public is invited to enter into a critical discourse on the topic of inclusion sensitivity in OER. Teacher trainees are also particularly encouraged to use these tools and digital spaces to reflect on the connection between inclusion sensitivity and learning materials. This participatory component in turn feeds back into the academic discourse, as the assessments and reviews designed by teachers and learners become the basis for meta-reviews from a researcher’s perspective. These meta-reviews will be published in a new peer-reviewed journal, which will consolidate the discourse on inclusion sensitivity in OER at an international level.","Start date (d/m/y)":"2022-09-01T00:00:00","End date (d/m/y)":"2025-08-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"ERASMUS+","Key Action":"KA220-HED","Call":"Cooperation partnerships in higher education","Role of University":"coordinator","Total cost of project":"not available","EU Contribution":"not available","EU Contribution Bielefeld":"195 150,00 €"},{"_id":16,"Project ID":"2022-1-DE01-KA220-HED-000087983","Project acronym":"DiToM","Status":"Ongoing","Title":"Diognostic Tool in Mathematics","Project URL":"https://www.ditom.org/en/","Project URL 2":"","Description":"Aim of the DiToM project is the development of diagnostic screening tests in the areas of arithmetic and algebra. A total of five screenings provides detailed feedback on basic skills from the start of primary school to the end of secondary school. The screening test aim at the transitions 0/1, 2/3, 4/5, 6/7 and 8/9. They seek to identify those students who, due to yet insufficient precursor skills, will most likely experience considerable difficulties with their further mathematical learning and understanding as they are still lacking the necessary basic skills. The early and systematic identification essential to provide the required immediate intervention and support.","Start date (d/m/y)":"2022-12-31T00:00:00","End date (d/m/y)":"2025-12-30T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"ERASMUS+ Cooperation Partnership","Key Action":"KA220-HED","Call":"Cooperation partnerships in higher education","Role of University":"coordinator","Total cost of project":"not available","EU Contribution":"not available","EU Contribution Bielefeld":"104 970,00 €"},{"_id":17,"Project ID":"947636","Project acronym":"DECAF","Status":"Transferred","Title":"Deciphering adaptive footprints of epiC evolution on different timescales","Project URL":"","Project URL 2":"","Description":"Epigenetic modifications are chemical modifications on histones and DNA and play a central role in gene expression regulation. However, little is known about how these modifications change in the course of evolution. The EU-funded DECAF project will use DNA methylation as a model and investigate stably methylated genetic sites in the avian genome. Scientists are also interested to understand and determine the selective forces acting on DNA methylation diversity in natural populations. Results will help unveil the role of methylated sites in species differentiation and provide unprecedented information on epigenetically driven adaptation.","Start date (d/m/y)":"2021-02-01T00:00:00","End date (d/m/y)":"2023-03-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"H2020-EU.1.1. - EXCELLENT SCIENCE - European Research Council (ERC)","Key Action":"ERC-2020-STG - ERC STARTING GRANTS ","Call":"ERC-2020-STG ","Role of University":"participant","Total cost of project":"1 499 938,00 €","EU Contribution":"1 499 938,00 €","EU Contribution Bielefeld":"382,328.13 €"},{"_id":18,"Project ID":"964735","Project acronym":"EXTREME-IR","Status":"Ongoing","Title":"Extreme Optical Nonlinearities in 2D materials for Far-Infrared Photonics","Project URL":"http://extreme-ir.eu","Project URL 2":"","Description":"Generating light across the mid-infrared and terahertz regions of the spectrum has opened up a plethora of sensing applications and enabled the study of fundamental light-matter interactions. Quantum cascade lasers, which have recently moved from laboratory curiosity to industrial mainstay, have largely increased the range of practical applications. Despite their potential, they are limited in their ability to fill the far-infrared gap, namely the frequency region between 5 and 12 THz. The EXTREME-IR project aims to overcome this barrier by pioneering a radically new platform that exploits nonlinear optics in 2D materials to realise compact and coherent far-infrared sources.","Start date (d/m/y)":"2021-09-01T00:00:00","End date (d/m/y)":"2026-02-28T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"H2020-EU.1.2. - EXCELLENT SCIENCE - Future and Emerging Technologies (FET)","Key Action":"FETOPEN-01-2018-2019-2020 - FET-Open Challenging Current Thinking ","Call":"H2020-FETOPEN-2018-2020 ","Role of University":"participant","Total cost of project":"3 647 533,75 €","EU Contribution":"3 647 533,50 €","EU Contribution Bielefeld":"353 900,00 €"},{"_id":19,"Project ID":"949981","Project acronym":"FluFloRan","Status":"Ongoing","Title":"Mathematical analysis of fluid flows: the challenge of randomness","Project URL":"","Project URL 2":"","Description":"The EU-funded FluFloRan project aims to address several, long lasting, open problems in the mathematical theory of fluid flows. The project will work on finding the right solutions to nonlinear partial differentiation equations that describe flows in liquids and gases. Major attention will be dedicated to the iconic example, the Navier-Stokes system for incompressible fluids and the corresponding Millennium Problem. The project assumes that a probabilistic description is indispensable for modelling fluid flows – to capture the chaotic behaviour of deterministic systems after blow-up – and describing model uncertainties due to high sensitivity to input data or parameter reduction.","Start date (d/m/y)":"2021-03-01T00:00:00","End date (d/m/y)":"2026-02-28T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"H2020-EU.1.1. - EXCELLENT SCIENCE - European Research Council (ERC)","Key Action":"ERC-2020-STG - ERC STARTING GRANTS ","Call":"ERC-2020-STG ","Role of University":"coordinator","Total cost of project":"1 500 000,00 €","EU Contribution":"1 500 000,00 €","EU Contribution Bielefeld":"1 200 000,00 €"},{"_id":20,"Project ID":"101094652","Project acronym":"DIGNITYFIRM","Status":"Ongoing","Title":"Dignity for Irregular Migrants in EU Farm2Fork Labour Markets","Project URL":"https://www.dignityfirm.eu","Project URL 2":"","Description":"The EU agricultural sector is heavily dependent on immigrant workers; most seasonal workers are irregular. The unprotected status of these workers is problematic – they work long hours in dangerous condition for low wages. With this in mind, the EU-funded DignityFIRM project will contribute to improving conditions of irregular migrants working in farm to fork (F2F) labour markets in four EU Member States (Spain, Italy, the Netherlands and Poland) and two associated countries (Morocco and Ukraine). The project will analyse the regulatory infrastructures that govern these conditions, distinguishing influential spheres of stakeholders at EU, national and local levels, as well as at employer level. The goal is to provide innovative tools to improve regulatory infrastructures.","Start date (d/m/y)":"2023-04-01T00:00:00","End date (d/m/y)":"2026-03-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-CL2-2022-TRANSFORMATIONS-01-03 - Conditions of irregular migrants in Europe","Call":"HORIZON-CL2-2022-TRANSFORMATIONS-01","Role of University":"participant","Total cost of project":"3 000 283,75 €","EU Contribution":"3 000 283,75 €","EU Contribution Bielefeld":"143 431,25 €"},{"_id":21,"Project ID":"101046294","Project acronym":"CORENET","Status":"Ongoing","Title":"Complex chemical reaction networks for breakthrough scalable reservoir computing","Project URL":"https://corenet-horizon.eu","Project URL 2":"","Description":"The most efficient computer in the world is chemical – the human brain. The EU-funded CORENET project seeks to mimic the brain’s processing power by making computers that use molecular information processing systems. To do this, researchers will create chemical reaction networks on microfluidic chips. These networks can convert input molecules into a pattern of product molecules based on different environmental conditions. The pattern is then monitored by a combination of mass spectrometry analysis, algorithmic cheminformatics and artificial intelligence tools. The goal is to enable future applications such as implantable devices, brain–machine interfaces and personalised medicine. ","Start date (d/m/y)":"2024-10-01T00:00:00","End date (d/m/y)":"2026-03-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-EIC-2021-PATHFINDEROPEN-01-01 - EIC Pathfinder Open 2021 ","Call":"HORIZON-EIC-2021-PATHFINDEROPEN-01 ","Role of University":"participant","Total cost of project":"2 047 125,00 €","EU Contribution":"2 047 125,00 €","EU Contribution Bielefeld":"190 084,10 €"},{"_id":22,"Project ID":"101046928","Project acronym":"DeLIVERY","Status":"Ongoing","Title":"Long-term Microphysiological Sample Imaging for Evaluation of Polypharmacy in Liver","Project URL":"","Project URL 2":"","Description":"Polypharmacy is the effects of the drug mixture combinations on the human body in cases of prescriptions to chronically sick and elderly patients. Polypharmacy is a major issue in the aging population due to unknown interactions of the prescribed multiple drugs. The EU-funded DeLIVERY project aims to develop a new technology to investigate polypharmacy effects on individual patients. DeLIVERY will create an integrated microphysiological system (MPS) culture and microscopic imaging platform for the maintaining and long-term imaging of patient-specific liver cells in their microenvironment during treatment. Using the MPS platform, healthcare providers and biomedical researchers will be able to determine the individual response of tissue samples to a combination of multiple drugs.","Start date (d/m/y)":"2022-05-01T00:00:00","End date (d/m/y)":"2026-04-30T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-EIC-2021-PATHFINDEROPEN-01-01 - EIC Pathfinder Open 2021 ","Call":"HORIZON-EIC-2021-PATHFINDEROPEN-01 ","Role of University":"coordinator","Total cost of project":"3 547 046,50 €","EU Contribution":"3 547 046,50 €","EU Contribution Bielefeld":"446 552,00 €"},{"_id":23,"Project ID":"101110862","Project acronym":"MONOWAX","Status":"Ongoing","Title":"Exploring the potential of oleaginous microalgae Monoraphidium neglectum for wax ester production","Project URL":"","Project URL 2":"","Description":"The main goal of the project is to establish WE production in M. neglectum using genetic engineering and its further enhancement via optimisation of culture conditions or/and further modification of lipid metabolism. In the first stage of the project, I will develop a vector toolkit for efficient gene expression in M. neglectum. Then, I will use the toolkit to introduce different combinations of FARs and WSs to microalgae cells. I will also investigate whether WE accumulation in M. neglectum can be modulated by stress conditions. Finally, the cultures of WE-producing transgenic microalgae be scaled up to verify their productivity and WE yield. In parallel, I will test several strategies to boost WE production by modification of carbon flux in a model green alga Chlamydomonas reinhardtii and use the most successful ones to further modify M. neglectum. The outcome of this project will be a valuable contribution to the future development of new strategies to produce WEs.","Start date (d/m/y)":"2024-09-01T00:00:00","End date (d/m/y)":"2026-08-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-MSCA-2022-PF-01-01 - MSCA Postdoctoral Fellowships 2022 ","Call":"HORIZON-MSCA-2022-PF-01 ","Role of University":"coordinator","Total cost of project":"not available","EU Contribution":"189 687,36 €","EU Contribution Bielefeld":"189 687,36 €"},{"_id":24,"Project ID":"2023-1-IS01-KA220-HED-000156584","Project acronym":"TECTU","Status":"Ongoing","Title":"Training in Embodied Critical Understanding","Project URL":"https://www.trainingect.com/tectu.html","Project URL 2":"","Description":"Training in Embodied Critical Thinking and Understanding (TECTU) is an interdisciplinary European Erasmus+ training program initiated by philosophers, cognitive scientists, environmental designers, anthropologists, and sociologists, tailored for students, researchers, and professionals from all fields. TECTU offers a fresh take and novel methodologies for students and researchers to think critically and creatively, contributing to the transformation and enrichment of the skill of critical thinking in the 21st century.","Start date (d/m/y)":"2023-09-01T00:00:00","End date (d/m/y)":"2026-08-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"ERASMUS+","Key Action":"KA220-HED","Call":"","Role of University":"participant","Total cost of project":"not available","EU Contribution":"not available","EU Contribution Bielefeld":"102 500,00 €"},{"_id":25,"Project ID":"101081957","Project acronym":"BLUETOOLS","Status":"Ongoing","Title":"Innovative Tools for Sustainable Exploration of Marine Microbiomes","Project URL":"https://www.bluetools-project.eu/the-project/","Project URL 2":"","Description":"Marine microbiomes, which represent roughly 90 % of living marine biomass, are mostly unable to be cultivated. This leads to an unexplored source of multiple materials and compounds that are useful in a variety of sectors. Unfortunately, conventional tools and methods to explore and cultivate marine microbiomes may result in ecological damage or ethical issues. Therefore, the EU-funded BLUETOOLS project offers a solution. It will develop several new methodologies and tools, utilising a combination of various fields, which will allow for the efficient, safe and sustainable utilisation of marine microbiomes to improve different aspects of our daily lives, from nutrition to agriculture, health and environmental protection.","Start date (d/m/y)":"2022-12-01T00:00:00","End date (d/m/y)":"2026-11-30T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-CL6-2022-CIRCBIO-01-07 - Marine microbiome for a healthy ocean and a sustainable blue bioeconomy","Call":"HORIZON-CL6-2022-CIRCBIO-01","Role of University":"participant","Total cost of project":"7 623 032,50 €","EU Contribution":"7 623 032,50 €","EU Contribution Bielefeld":"612 780,00 €"},{"_id":26,"Project ID":"101136310","Project acronym":"cassaFLOW","Status":"Ongoing","Title":"Cascades for Stereoselective Synthesis of Amino Acids","Project URL":"https://cassaflow.tudelft.nl/","Project URL 2":"","Description":"Non-natural amino acids are crucial for pharmaceuticals, such as the COVID-19 drug Paxlovid. However, synthesising non-natural isomers of amino acids with two chiral centres, such as isoleucine and threonine, remains challenging and is not commercially viable through current processes. The EIC-funded cassaFLOW project aims to develop a more efficient and scalable method for synthesising these amino acids. By shortening the existing synthesis process, the project plans to replace the current 8-step stereoselective synthesis with a streamlined 3-step cascade process. This new technology will convert long reaction pathways into shorter, cleaner processes, facilitating a 3-step synthesis of isoleucine. The project's outcomes will support the EU Strategic Autonomy 2013-2023 Plan and the Pharmaceutical Strategy for Europe.","Start date (d/m/y)":"2024-01-01T00:00:00","End date (d/m/y)":"2026-12-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON 3.1","Key Action":"HORIZON-EIC-2023-TRANSITIONOPEN-01 - Transition Open 2023","Call":"HORIZON-EIC-2023-TRANSITION-01 ","Role of University":"participant","Total cost of project":"2 378 694,25 €","EU Contribution":"2 378 694,25 €","EU Contribution Bielefeld":"462 380,00 €"},{"_id":27,"Project ID":"101095528","Project acronym":"FLOURISH","Status":"Ongoing","Title":"Family-focused Adolescent & Lifelong Health Promotion","Project URL":"https://www.flourish-study.org","Project URL 2":"","Description":"Everyone deserves a healthy and safe start in life. However, this is not always possible for young people due to factors such as violence, poverty and economic inequality. In Εastern Europe, risks for youth wellbeing have recently increased due to the war in Ukraine. Intervention programmes for youth and their families need to address individual and family risk factors in this context. The EU-funded FLOURISH project will evaluate, implement and adapt the Parenting for Lifelong Health programme for adolescents aged 10-14 years and their caregivers in Moldova and North Macedonia. The family programme will be combined in a service package with other programme components to strengthen adolescent skills for wellbeing. The research will also explore the needs of the Ukrainian refugees and ethnic minority families in both countries.","Start date (d/m/y)":"2023-01-01T00:00:00","End date (d/m/y)":"2026-12-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-HLTH-2022-DISEASE-07-03 - Non-communicable diseases risk reduction in adolescence and youth (Global Alliance for Chronic Diseases - GACD) ","Call":"HORIZON-HLTH-2022-DISEASE-07 ","Role of University":"participant","Total cost of project":"2 501 407,24 €","EU Contribution":"2 501 406,75 €","EU Contribution Bielefeld":"138 380,00 €"},{"_id":28,"Project ID":"101073307","Project acronym":"LEMUR","Status":"Ongoing","Title":"Learning with Multiple Representations","Project URL":"","Project URL 2":"","Description":"Funded by the Marie Skłodowska-Curie Actions programme, the LEMUR project will develop the theoretical foundations and a first set of algorithms for a novel branch of machine learning (ML) called learning with multiple representations (LMR). These LMR algorithms will allow flexible representations (simple and fair) with diverse target functions (environmental and social impact) to ensure they are in line with the Green Charter and trustworthy AI criteria by design. The project will focus on learning with weak supervision as it addresses one of the major flaws of modern ML approaches. LEMUR will provide 10 experts with highly interdisciplinary and intersectoral training to implement the third and subsequent waves of AI in Europe.","Start date (d/m/y)":"2023-01-01T00:00:00","End date (d/m/y)":"2026-12-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-MSCA-2021-DN-01-01 - MSCA Doctoral Networks 2021","Call":"HORIZON-MSCA-2021-DN-01","Role of University":"participant","Total cost of project":"not available","EU Contribution":"2 592 784,80 €","EU Contribution Bielefeld":"216 487,08 €"},{"_id":29,"Project ID":"101073237","Project acronym":"ESSGN","Status":"Ongoing","Title":"European Social Science Genetics Network","Project URL":"https://essgn.org/","Project URL 2":"","Description":"Funded by the Marie Skłodowska-Curie Actions programme, the ESSGN project brings together an interdisciplinary group of academic experts and non-academic partners to train the next generation of social scientists in the responsible use of genetic data. The aim is to answer a key research question: to what extent do inequalities in life chances arise from genetic variation, environmental factors, and their interplay? The project will exploit Europe’s comprehensive multigenerational databases for the separation of direct genetic effects from parental genetic and socioeconomic factors that influence the rearing environment. The trainees will employ causal inference methods used in econometrics and statistics to estimate the extent to which environments cushion or exacerbate genetic differences.","Start date (d/m/y)":"2025-03-01T00:00:00","End date (d/m/y)":"2027-02-28T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON.1.2","Key Action":"HORIZON-MSCA-2021-DN-01-01 - MSCA Doctoral Networks 2021","Call":"HORIZON-MSCA-2021-DN-01","Role of University":"participant","Total cost of project":"not available","EU Contribution":"2 766 103,22 €","EU Contribution Bielefeld":"101 320,80 €"},{"_id":30,"Project ID":"KA220-HB-24-30-251930","Project acronym":"Deep Discovery! ","Status":"Ongoing","Title":"Participatory educational technology for the Ocean we want","Project URL":"https://universal-sea.org/events/event/the-deep-discovery-2025","Project URL 2":"","Description":"The Deep Discovery is an event organized by INCH (Inter-change), a non-profit organization, who is actively building communities of practice and learning in the areas of justice and of science communication. The event’s objective is to teach participants about distinct deep sea marine habitats and show the impact which human behavior has on them. They want to encourage more collaboration to protect our valuable marine ecosystems.","Start date (d/m/y)":"2024-11-01T00:00:00","End date (d/m/y)":"2027-04-30T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"ERASMUS+ ","Key Action":"KA220-SCH","Call":"Cooperation Partnership","Role of University":"participant","Total cost of project":"not available","EU Contribution":"not available","EU Contribution Bielefeld":"46 000,00 €"},{"_id":31,"Project ID":"101119689","Project acronym":"EdTech Talents","Status":"Ongoing","Title":"EdTech Talents","Project URL":"https://edtechtalents.eu","Project URL 2":"","Description":"The analysis of conservative SPDEs conjoins several contemporary fields of analysis and probability: Singular SPDEs, nonlinear PDEs, kinetic theory, supercriticality, and stochastic dynamical systems. We are, therefore, confronted with an interplay of stochasticity, irregularity, and nonlinearity, posing new challenges and going far beyond established methods.","Start date (d/m/y)":"2023-06-01T00:00:00","End date (d/m/y)":"2027-05-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-WIDERA-2022-TALENTS-03-01 - Fostering balanced brain circulation – ERA Talents ","Call":"HORIZON-WIDERA-2022-TALENTS-03 ","Role of University":"participant","Total cost of project":"2 999 585,63 €","EU Contribution":"2 999 585,63 €","EU Contribution Bielefeld":"233 937,50 €"},{"_id":32,"Project ID":"951424","Project acronym":"Water-Futures","Status":"Ongoing","Title":"Smart Water Futures: designing the next generation of urban drinking water systems","Project URL":"https://waterfutures.eu","Project URL 2":"","Description":"The world's population and cities continue to grow, requiring new well-planned water infrastructures. The EU-funded Water-Futures project will develop a new theoretical framework for allocation and development decisions concerning drinking water infrastructure systems that are socially equitable, cost-efficient, and meet the UN Agenda 2030 Sustainable Development Goals. The framework will integrate real-time monitoring and control with long-term robustness and flexibility, incorporating economic, social, ethical and environmental considerations for the sustainable transitioning of urban water systems. The project partners will include water science, systems and control theory, economics and decision science, and machine learning methodologies to create an open-source research toolbox. The results will be applied to three case studies representing different types of urban water systems.","Start date (d/m/y)":"2021-08-01T00:00:00","End date (d/m/y)":"2027-07-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"H2020-EU.1.1. - EXCELLENT SCIENCE - European Research Council (ERC)","Key Action":"ERC-2020-SyG - ERC Synergy Grant ","Call":"ERC-2020-SyG ","Role of University":"participant","Total cost of project":"9 982 320,00 €","EU Contribution":"9 982 320,00 €","EU Contribution Bielefeld":"1 925 000,00 €"},{"_id":33,"Project ID":"101082010","Project acronym":"iCULTURE","Status":"Ongoing","Title":"A digital bio-platform and co-culture bioprocess to prospect and utilize macroalgae responsibly and sustainably","Project URL":"https://iculture-project.eu","Project URL 2":"","Description":"Europe boasts over 100 megatons of seaweed, its largest biomass. Surprisingly, only 0.25 % of this resource is utilised, primarily as low-cost fertiliser. Current methods struggle to harness the potential of thousands of identified macroalgae. Nevertheless, the data collected on them is crucial for the sustainable utilisation of this resource. The EU-funded iCULTURE project aims to establish a cross-disciplinary consortium of European experts in ICT, biodiversity, and related fields to create a digital platform and toolsets for the sustainable utilisation of seaweed biomass. These toolsets will facilitate the discovery of new species, research on them, and provide specialised AI algorithms for the curation of over 80TB of currently available data.","Start date (d/m/y)":"2023-09-01T00:00:00","End date (d/m/y)":"2027-08-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-CL6-2022-CIRCBIO-02-05-two-stage - Life sciences and their convergence with digital technologies for prospecting, understanding and sustainably using biological resources","Call":"HORIZON-CL6-2022-CIRCBIO-02-two-stage","Role of University":"participant","Total cost of project":"5 999 686,25 €","EU Contribution":"5 999 686,25 €","EU Contribution Bielefeld":"668 126,25 €"},{"_id":34,"Project ID":"101119613","Project acronym":"ImAge-D","Status":"Ongoing","Title":"Imaging Ageing Endothelium at the nanoscale - Doctorates","Project URL":"https://uit.no/research/image-d","Project URL 2":"","Description":"Our understanding of endothelial cells (ECs) and their crucial role in the transfer and clearance of metabolites and pharmaceuticals to vital organs, especially how ECs change with ageing, is limited at the nanoscale. Current optical nanoscopes are slow and can only be used on isolated, typically fixed (i.e. dead) cells. Additionally, newcomers to the field must acquaint themselves with potential issues such as image reconstruction-related artefacts. The EU-funded ImAge-D project aims to remove these limitations by training 10 doctoral candidates in high-speed, high-resolution biomedical imaging tools. The project will study living ECs and their changes with ageing, focusing on physics and biomedicine concepts/skills in super-resolution imaging, analytical image reconstruction and optical micro-manipulation.","Start date (d/m/y)":"2023-10-01T00:00:00","End date (d/m/y)":"2027-09-30T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON.1.2","Key Action":"HORIZON-MSCA-2022-DN-01-01 - MSCA Doctoral Networks 2022","Call":"HORIZON-MSCA-2022-DN-01","Role of University":"participant","Total cost of project":"not available","EU Contribution":"2 734 279,20 €","EU Contribution Bielefeld":"260 539,20 €"},{"_id":35,"Project ID":"101040439","Project acronym":"REASONS F1RST","Status":"Ongoing","Title":"The Structure of Normativity","Project URL":"https://thestructureofnormativity.net","Project URL 2":"","Description":"Some of the core fields of philosophy – including moral philosophy, value theory, and epistemology – are, at their heart, concerned with normative questions: questions about what is good or bad, right or wrong, justified or unjustified. These questions concern the content of judgements that human beings are constantly making and that structure our way of thinking, feeling, and acting. But while there is wide agreement in contemporary philosophy that normative judgements form a unified and important category of human thought, philosophers still struggle to understand what normativity actually is. One highly attractive hypothesis is that normativity can be analysed in terms of reasons – i.e. in terms of the factors that count in favour of or against actions or attitudes. But the systematic exploration of this Reasons-First Approach is still lacking. REASONS F1RST aims to undertake this much-needed investigation. Fostering multidisciplinary conversations, the project will explore the Reasons-First Approach on a large scale. It seeks to address recent challenges to the Reasons-First Approach and to show that it prevails over alternative approaches to understanding normativity. REASONS F1RST thus pursues a twofold objective: (i) to assess the merits and demerits of the Reasons-First Approach compared to alternative proposals and (ii) to work out in detail how different normative phenomena – including values, obligations and rights, the justification of beliefs, as well as appropriateness norms for emotions – can be explained in terms of reasons. Building on the work of a multidisciplinary research team, REASONS F1RST aims at nothing less than a fundamental understanding of one of the most important concepts of contemporary philosophy.","Start date (d/m/y)":"2022-10-01T00:00:00","End date (d/m/y)":"2027-09-30T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"ERC-2021-STG - ERC STARTING GRANTS ","Call":"ERC-2021-STG ","Role of University":"coordinator","Total cost of project":"1 499 477,50 €","EU Contribution":"1 499 477,50 €","EU Contribution Bielefeld":"1 449 115,00 €"},{"_id":36,"Project ID":"101186829","Project acronym":"CancerScan","Status":"Ongoing","Title":"Smart pathology slide scanner for diagnosis and patient-specific treatment recommendation in oncology","Project URL":"https://www.cancerscanproject.eu","Project URL 2":"","Description":"Our long-term vision is to develop a smart digital pathology slide scanner that can (semi)automatically generate a patient-specific tumour digital twin and simulate various drug treatments on such twin. The digital twin will be generated by combining slide-level multi-omics profiling of patients’ biopsies with other standard clinical data and will be hardware-embedded within a slide scanner.","Start date (d/m/y)":"2025-05-01T00:00:00","End date (d/m/y)":"2027-10-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-EIC-2024-PATHFINDEROPEN-01-01 - EIC Pathfinder Open ","Call":"HORIZON-EIC-2024-PATHFINDEROPEN-01 ","Role of University":"participant","Total cost of project":"2 980 916,25 €","EU Contribution":"2 980 916,25 €","EU Contribution Bielefeld":"400 092,50 €"},{"_id":37,"Project ID":"2024-1-FR01-Ka220-HED-000255853","Project acronym":"LexiECO","Status":"Ongoing","Title":"Europe. Concepts. Online lexicon. Bridging semantic gaps - LexiECO","Project URL":"https://euroclio.eu/projects/lexieco/","Project URL 2":"","Description":"We are constantly confronted with concepts whose meanings differ across time, space and language. In many cases – such as border, fascism or genocide – these variations are not merely semantic: they shape our beliefs, inform our actions and influence how we interpret the world. Words matter. Their meanings are never fixed, and understanding their uses, misuses and transformations in context is crucial. lexi.eco seeks to highlight and clarify the changing and contested meanings of key socio-political concepts across different national, linguistic and historical settings. It thereby aims to foster intercultural dialogue and promote mutual understanding, contributing to a transnational public sphere.  ","Start date (d/m/y)":"2024-11-01T00:00:00","End date (d/m/y)":"2027-10-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"ERASMUS+ ","Key Action":"KA220-HED","Call":"Cooperation Partnership","Role of University":"participant","Total cost of project":"not available","EU Contribution":"not available","EU Contribution Bielefeld":"45 514,00 €"},{"_id":38,"Project ID":"101189899","Project acronym":"CAPE","Status":"Ongoing","Title":"European Open Compute Architecture for Powerful Edge","Project URL":"https://cape-project.eu","Project URL 2":"","Description":"The European open compute architecture for powerful edge (CAPE) reshapes edge-cloud computing by developing edge micro data centres as a new unit of computing. Using a CXL-composable open hardware platform, it supports heterogeneous computing, using a COM-HPC form factor. Backed by a robust European ecosystem, this ensures broad adoption and fosters Europe's digital sovereignty. Through a cloud-agnostic Infrastructure from code overlay, CAPE abstracts complexity across diverse infrastructures, enabling seamless edge-to-cloud deployment. It supports on-premise, off-premise, public and private clouds with minimal overhead. CAPE’s approach is validated in three use cases–managing intelligent electric microgrids, edge AI and satellite communications–each evaluating RISC-V and CXL solutions, comparing them against legacy hardware in local clouds and data centres.","Start date (d/m/y)":"2024-12-01T00:00:00","End date (d/m/y)":"2027-11-30T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-CL4-2024-DIGITAL-EMERGING-01-21 - Open Source for Cloud/Edge to support European Digital Autonomy (RIA)","Call":"HORIZON-CL4-2024-DIGITAL-EMERGING-01-CNECT ","Role of University":"coordinator","Total cost of project":"5 996 250,00 €","EU Contribution":"5 996 250,00 €","EU Contribution Bielefeld":"657 875,00 €"},{"_id":39,"Project ID":"2024-1-DE01-KA220-HED-000255289","Project acronym":"CaLSAM","Status":"Ongoing","Title":"Content-and-language-sensitive Approach to Multilingualism in School ","Project URL":"n.a.","Project URL 2":"","Description":"Content-and-language-sensitive Approach to Multilingualism in School ","Start date (d/m/y)":"2024-12-31T00:00:00","End date (d/m/y)":"2027-12-30T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"ERASMUS+ ","Key Action":"KA220-HED","Call":"Cooperation Partnerships in Higher Education","Role of University":"coordinator","Total cost of project":"not available","EU Contribution":"not available","EU Contribution Bielefeld":"118 080,00 €"},{"_id":40,"Project ID":"101120727","Project acronym":"PRIMI","Status":"Ongoing","Title":"Performance in Robots Interaction via Mental Imagery","Project URL":"https://primi-project.eu","Project URL 2":"","Description":"The next-generation personal robots will possess cognitive and motor intelligence that can enhance human interaction. However, the current AI and robotics paradigms require additional resources to achieve performance and reasoning abilities similar to those of humans. The EU-funded PRIMI project integrates research from neurophysiology, psychology and machine intelligence to formulate models for higher-order cognitive capabilities. The aim is to usher in a new era of autonomous technologies that exhibit enhanced precision, speed and safety in real-time learning and adaptation processes. PRIMI envisions a transformative impact on AI and robotics, accomplished by the development of socially interactive autonomous robots. To validate this vision, prototypes of neuromorphic humanoid robots will undergo clinical pilot studies focusing on stroke rehabilitation.","Start date (d/m/y)":"2023-11-01T00:00:00","End date (d/m/y)":"2027-12-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-CL4-2022-DIGITAL-EMERGING-02-06 - Pushing the limit of physical intelligence and performance (RIA) ","Call":"HORIZON-CL4-2022-DIGITAL-EMERGING-02 ","Role of University":"participant","Total cost of project":"4 973 683,75 €","EU Contribution":"4 973 683,75 €","EU Contribution Bielefeld":"949 537,50 €"},{"_id":41,"Project ID":"101132327","Project acronym":"CIDAPE","Status":"Ongoing","Title":"Climate, Inequality, and Democratic Action: The Force of Political Emotions","Project URL":"https://cidape.eu","Project URL 2":"","Description":"Evidence suggests that emotions play a fundamental role in political participation and communication. It is therefore crucial to comprehend and appropriately address citizens’ emotional needs and reactions to climate policies to achieve coordinated democratic action. The EU-funded CIDAPE project will research the interplay between citizen engagement, climate change and inequalities. By investigating the role of emotions in shaping rational argumentation and engagement, the project aims to gain insights into how people comprehend, and actively respond to, climate change challenges. CIDAPE reveals political action mechanisms and puts forth tools, policy instruments and guides. It underscores the climate crisis as a unique opportunity to foster solidarity and achieve depolarisation in the public debate, emphasising the importance of public trust, robust institutions and policies that resonate with citizens.","Start date (d/m/y)":"2024-01-01T00:00:00","End date (d/m/y)":"2027-12-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-CL2-2023-DEMOCRACY-01-04 - The emotional politics of democracies","Call":"HORIZON-CL2-2023-DEMOCRACY-01 ","Role of University":"participant","Total cost of project":"2 999 967,50 €","EU Contribution":"2 999 967,50 €","EU Contribution Bielefeld":"320 452,50 €"},{"_id":42,"Project ID":"101119865","Project acronym":"MolCal","Status":"Ongoing","Title":"Molecule-based magneto/electro/mechano-Calorics","Project URL":"https://molcal.eu","Project URL 2":"","Description":"MolCal will contribute to establishing a critical mass of researchers in promising exploratory topics on caloric materials and energy conversion technologies for solid-state cooling and heating applications at near-ambient and very-low temperatures. Temperature control systems are responsible for approximately half of the EU energy consumption expenditure. This figure alone amply justifies the need to dedicate great efforts to the search for alternative refrigeration and heat pump methods. Research on caloric materials has never been as active as it is now, due to the prospect of new-generation refrigerators and heat pumps that are energy efficient and environmentally friendly, on the one hand, and the policies on low-energy consumption and global warming refrigerants, on the other. MolCal presents an approach never tried before in similar collaborative research training programmes. We will consider caloric materials that fall under the umbrella of molecule-based materials and can respond to different sources of the driving stimulus, be it magnetic, electric, and/or mechanical. Since there is no clear-cut consensus on which type of caloric material holds the most promise, this multi-front approach will be an advantage because it will permit transfer of methods already developed from the magnetocaloric subfield into the others, which are increasingly in the spotlight because of their enormous potentiality. Furthermore, MolCal will develop devices based on low-cost barocaloric materials and, due to the molecular characteristics, will progress towards challenging applications by exploring the limits of the smallest size of magnetic refrigerators. Academic and non-academic leaders, from top research institutions in Europe and outside, will expose the doctoral researchers to integrative, multidisciplinary, and multisectoral training in chemistry, materials science, physics, device development, and relevant transversal skills.","Start date (d/m/y)":"2024-01-01T00:00:00","End date (d/m/y)":"2027-12-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-MSCA-2022-DN-01-01 - MSCA Doctoral Networks 2022 ","Call":"HORIZON-MSCA-2022-DN-01 ","Role of University":"participant","Total cost of project":"not available","EU Contribution":"2 038 780,80 €","EU Contribution Bielefeld":"260 539,20 €"},{"_id":43,"Project ID":"101057604","Project acronym":"Re-MEND","Status":"Ongoing","Title":"Building resilience against mental illness during endocrine-sensitive life stages","Project URL":"https://www.helsinki.fi/en/projects/re-mend","Project URL 2":"","Description":"Biological criteria accounting for differences among individuals must complement mental illness symptom-based diagnoses to support mental health. Improving early detection and prevention measures is also critical. The EU-funded Re-MEND project focuses on four critical life stages in which changes in endocrine signalling, including sex hormones, influence an individual’s susceptibility to mental illness: early life, puberty, the peripartum period, and transition into old age. The project will integrate data from extensive population-based longitudinal cohort studies to unveil risk and protective factors as well as biological patterns influencing mental states across these life stages. Moreover, it will combine epidemiological with experimental studies, and use advanced biostatistics, machine learning and AI for data integration and novel biomarker and drug target discoveries.","Start date (d/m/y)":"2023-01-01T00:00:00","End date (d/m/y)":"2027-12-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-HLTH-2021-STAYHLTH-01-02 -","Call":"HORIZON-HLTH-2021-STAYHLTH-01 ","Role of University":"participant","Total cost of project":"10 868 225,26 €","EU Contribution":"10 868 221,25 €","EU Contribution Bielefeld":"549 340,00 €"},{"_id":44,"Project ID":"101124794","Project acronym":"NEOLAiA","Status":"Ongoing","Title":"Transforming Regions for an Inclusive Europe","Project URL":"https://neolaiacampus.eu","Project URL 2":"","Description":"Transforming Regions for an Inclusive Europe","Start date (d/m/y)":"2024-01-01T00:00:00","End date (d/m/y)":"2027-12-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"ERASMUS+ (Europäische Hochschule)","Key Action":"EUR-UNIV","Call":"ERASMUS-EDU-2023","Role of University":"participant","Total cost of project":"not available","EU Contribution":"not available","EU Contribution Bielefeld":"1 711 273,00 €"},{"_id":45,"Project ID":"101131118","Project acronym":"Infra4NextGen","Status":"Ongoing","Title":"Providing research infrastructure services to support Next Generation EU","Project URL":"https://infra4nextgen.com","Project URL 2":"","Description":"This four-year project will harness outputs from key social science RIs in Europe and other reliable sources to support the aims of the ‘Next Generation EU’ programme and to inform EU youth policy. Virtual access will be provided to the outputs through special installations (portals) developed during the project. The core of the proposal is a set of existing research ‘services’, which will be re-purposed and customised to focus directly on the five themes: Make it Green; Make it Digital; Make it Healthy; Make it Strong; and Make it Equal.","Start date (d/m/y)":"2024-03-01T00:00:00","End date (d/m/y)":"2028-02-29T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-INFRA-2023-SERV-01-01 - Research infrastructure services to enable R&I addressing main challenges and EU priorities ","Call":"HORIZON-INFRA-2023-SERV-01 ","Role of University":"participant","Total cost of project":"9 751 830,00 €","EU Contribution":"9 751 830,00 €","EU Contribution Bielefeld":"179 630,00 €"},{"_id":46,"Project ID":"101195817","Project acronym":"GATE","Status":"Ongoing","Title":"GreenComp Assessement for Transformative Education","Project URL":"https://gate-project.eu","Project URL 2":"","Description":"GATE GreenComp Assessment for Transformative Education is a 3 year Erasmus+ Policy Experimentation project involving eight partners from six European countries.","Start date (d/m/y)":"2025-03-01T00:00:00","End date (d/m/y)":"2028-02-29T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"ERASMUS+ ","Key Action":"ERASMUS-EDU-2024-POL-EXP-SCHOOL","Call":"Policy Experimentation - School Education","Role of University":"participant","Total cost of project":"not available","EU Contribution":"not available","EU Contribution Bielefeld":"114 929,00 €"},{"_id":47,"Project ID":"101196790","Project acronym":"IDEATE","Status":"Ongoing","Title":"Inclusive Digital Education and Teacher Empowerment Academy","Project URL":"https://www.uni-bielefeld.de/fakultaeten/erziehungswissenschaft/forschung/projekte/ideate/","Project URL 2":"","Description":"Die IDEATE-Initiative fördert europäische Partnerschaften zur Entwicklung von Teacher Academies mit internationaler Ausrichtung. Durch internationale Zusammenarbeit, innovative Lehrpläne und digitale Tools stärkt das Projekt die Ausbildung und Weiterbildung von Lehrkräften. Der Fokus liegt auf inklusiver Bildung, der Unterstützung neurodivergenter Schüler*innen und der Förderung digitaler Kompetenzen.","Start date (d/m/y)":"2025-04-01T00:00:00","End date (d/m/y)":"2028-03-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"ERASMUS+ ","Key Action":"ERASMUS-EDU-2024-PEX-TEACH-ACA","Call":"Teacher Academy","Role of University":"participant","Total cost of project":"not available","EU Contribution":"not available","EU Contribution Bielefeld":"249 091,72 €"},{"_id":48,"Project ID":"101157341","Project acronym":"BioProtect","Status":"Ongoing","Title":"Advancing Area-Based Management Tools to Accelerate the Protection and Restoration of Marine Biodiversity Across the European Sea Basins","Project URL":"https://www.aircentre.org/projects/bioprotect-advancing-area-based-management-tools-to-accelerate-the-protection-and-restoration-of-marine-biodiversity-across-the-european-sea-basins/","Project URL 2":"","Description":"Human activities and climate change are causing ecosystem degradation and biodiversity loss. Previous approaches, which focused on sector-based management in isolation and single spatial scales, have failed to halt biodiversity loss. The EU-funded BioProtect project aims to develop innovative ecosystem-based solutions for protecting and restoring biodiversity in European seas. It will use the ABM-DSF framework to engage stakeholders, monitor biodiversity changes, map human pressures, prioritise areas for protection and restoration, and measure ecological and socio-economic impacts. The project will demonstrate these solutions in five sites ranging from the Arctic to the Atlantic. It will consider ‘what-if’ scenarios, including climate change, protection strategies, and their impacts. The consortium possesses expertise in both the Atlantic and Arctic basins.","Start date (d/m/y)":"2024-05-01T00:00:00","End date (d/m/y)":"2028-04-30T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-MISS-2023-OCEAN-01-03","Call":"HORIZON-MISS-2023-OCEAN-01 ","Role of University":"participant","Total cost of project":"8 474 085,00 €","EU Contribution":"8 021 357,00 €","EU Contribution Bielefeld":"256 031,25 €"},{"_id":49,"Project ID":"101134447","Project acronym":"ENFORCE","Status":"Ongoing","Title":"Empower citizeNs to join Forces with public authORities in proteCting the Environment","Project URL":"https://www.ecsa.ngo/cases/enforce/","Project URL 2":"","Description":"The EU-funded ENFORCE project aims to promote sustainable practices and ensure environmental regulatory compliance within and between organisations. The project will use living lab and citizen science methodologies to develop innovative tools for environmental compliance. This involves bridging the gap between data reporting, monitoring and policy enforcement needs, incorporating innovative data collection, analysis and stakeholder engagement. The project will establish a pan-European collaboration hub introducing the concept of data readiness level (DRL) to assess data for legal purposes. Moreover, it will leverage geospatial intelligence and AI to advance environmental governance practices in line with the Green Deal Data Space initiative. ENFORCE will test and evaluate these tools at 8 pilot sites across 7 countries while also promoting a capacity-building programme and policy recommendation activities.","Start date (d/m/y)":"2024-09-01T00:00:00","End date (d/m/y)":"2028-08-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-CL6-2023-GOVERNANCE-01-12 - Empowering citizens to monitor, report and act in partnership with relevant public authorities to protect their environment in the context of environmental compliance assurance ","Call":"HORIZON-CL6-2023-GOVERNANCE-01 ","Role of University":"participant","Total cost of project":"6 365 498,75 €","EU Contribution":"6 365 498,75 €","EU Contribution Bielefeld":"349 562,50 €"},{"_id":50,"Project ID":"KA220-NW-25-36-358844","Project acronym":"TeToM ","Status":"Ongoing","Title":"Teacher Training Tool in Mathematics for Support Activities","Project URL":"","Project URL 2":"","Description":"","Start date (d/m/y)":"2025-10-01T00:00:00","End date (d/m/y)":"2028-09-30T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"ERASMUS+","Key Action":"KA220-SCH","Call":"Cooperation Partnership","Role of University":"coordinator","Total cost of project":"not available","EU Contribution":"not available","EU Contribution Bielefeld":"85 196,78 €"},{"_id":51,"Project ID":"101172946","Project acronym":"SUN-PERFORM","Status":"Ongoing","Title":"Synthetic biology United with Nanotechnology – A Biohybrid Approach to Improve Light-harvesting and CO2 Fixation for High Performance Sustainable Solar Fuel Production","Project URL":"https://sunperform.eu","Project URL 2":"","Description":"Current solar fuel technologies, essential for a sustainable energy future, face significant challenges: low efficiency, slow production, and high costs. These hurdles are particularly problematic for sectors like aviation and maritime, where electrification is difficult. The EU-funded SUN-PERFORM project seeks to overcome these barriers with a bio-hybrid approach, combining nanotechnology and synthetic biology. By developing advanced nanocrystal light-harvesting systems and engineered microalgal solar cells, SUN-PERFORM aims to quadruple current solar-to-fuel conversion efficiencies. The project will pilot these innovations in Europe and Africa, ensuring they are sustainable, economically viable, and socially acceptable. SUN-PERFORM’s success could position Europe as a global leader in solar fuel technology, benefiting diverse stakeholders worldwide.","Start date (d/m/y)":"2024-11-01T00:00:00","End date (d/m/y)":"2028-10-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"HORIZON-CL5-2024-D3-01-04 - Improvement of light harvesting and carbon fixation with synthetic biology and/or bio-inspired//biomimetic pathways for renewable direct solar fuels production ","Call":"HORIZON-CL5-2024-D3-01 ","Role of University":"participant","Total cost of project":"4 022 148,75 €","EU Contribution":"4 022 148,75 €","EU Contribution Bielefeld":"606 887,50 €"},{"_id":52,"Project ID":"101182968","Project acronym":"Peace and Mobilities","Status":"Ongoing","Title":"Positive Peace and Mobilities: Europe and Latin America","Project URL":"https://peaceandmobilities.org/","Project URL 2":"","Description":"The research program seeks to provide a conceptualization of peace´s vision which provides new understandings for the conceptualization for peace beyond the absence of violence. These visions of peace are produced by people on the move. We did not found research available about this topic. We will fill a gap in the current research both peace-conflict studies and migrations studies about the role of people on move in construction of peace. Moreover, we want to track and analyze violence suffered by people on the move both on the way to their destiny and in societies which are not normally categorized as violent or conflictive. This is to des-sedentarize peace and violence studies in order to understand the way in which peace and violence are also mobilized.","Start date (d/m/y)":"2025-01-01T00:00:00","End date (d/m/y)":"2028-12-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON.1.2","Key Action":"HORIZON-MSCA-2023-SE-01-01 - MSCA Staff Exchanges 2023","Call":"HORIZON-MSCA-2023-SE-01","Role of University":"coordinator","Total cost of project":"not available","EU Contribution":"1 656 000,00 €","EU Contribution Bielefeld":"441 600,00 €"},{"_id":53,"Project ID":"101075919","Project acronym":"LSS_BeyondAverage","Status":"Ongoing","Title":"Probing cosmic large-scale structure beyond the average","Project URL":"","Project URL 2":"","Description":"The universe’s grand tapestry conceals enigmas defying the standard model of physics. With the launch of the Euclid galaxy survey satellite, accompanied by the inauguration of the Rubin Observatory, a pivotal challenge is emerging: to delve deeper into the cosmic large-scale structure beyond mere averages. The ERC-funded LSS_BeyondAverage project will pioneer a transformative approach, employing cutting-edge theoretical models and intricate galaxy survey data spanning a third of the sky. By exploring novel clustering statistics and utilising a groundbreaking particle-wave duality-inspired technique, it promises unparalleled insights into dark matter, neutrinos, gravity, and the fundamental fabric of our universe. By moving beyond standard two-point analyses, the project pushes the boundaries of our understanding of the universe.","Start date (d/m/y)":"2024-03-01T00:00:00","End date (d/m/y)":"2029-02-28T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"ERC-2022-STG - ERC STARTING GRANTS ","Call":"ERC-2022-STG ","Role of University":"coordinator","Total cost of project":"1 496 955,00 €","EU Contribution":"1 496 955,00 €","EU Contribution Bielefeld":"1 496 955,00 €"},{"_id":54,"Project ID":"101115657","Project acronym":"GYNVEPI","Status":"Ongoing","Title":"Toward an epidemiology of gynaecological violence","Project URL":"https://www.uni-bielefeld.de/fakultaeten/gesundheitswissenschaften/ag/ag3/projekte/gynvepi.xml","Project URL 2":"","Description":"Gynaecological violence (GV) encompasses sub-optimal experiences of care perceived as abusive or dehumanising. While research on obstetric violence is gaining traction, GV, also considered a structural and gendered form of violence, remains under-investigated. To fill this gap, the ERC-funded GYNVEPI project seeks to assess the extent of GV in Germany and how GV relates to the health of patients. It aims to establish a definition, framework and validated instrument for studying GV through mixed methods. GYNVEPI will contribute new insights into GV and its health impacts, endeavouring to challenge harmful gender norms among both researchers and participants. Moreover, its methodological approach is designed to be applicable to future studies across Europe.","Start date (d/m/y)":"2024-03-01T00:00:00","End date (d/m/y)":"2029-02-28T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"ERC-2023-STG - ERC STARTING GRANTS ","Call":"ERC-2023-STG ","Role of University":"coordinator","Total cost of project":"1 384 403,00 €","EU Contribution":"1 384 403,00 €","EU Contribution Bielefeld":"1 384 403,00 €"},{"_id":55,"Project ID":"101124992","Project acronym":"INTERSECT","Status":"Ongoing","Title":"Migration trajectories, natural experiments and effects of small-area contexts on health: a privacy-preserving linkage study of routine and primray data among resettlement refugees","Project URL":"https://intersect-study.de","Project URL 2":"","Description":"Methodological challenges and selection effects have hindered the study of migration health effects. Migration allows the study of human health across different contexts, but establishing prospective cohorts from pre- to post-migration settings is resource-intensive and prone to bias. The ERC-funded INTERSECT project aims to investigate the impact of various social, economic, and policy environments on human mobility and health at a small-area level using refugee health and their mobility as an example. The project reconstructs the migration trajectory of resettlement refugees bound for Germany using innovative data science methods and mandatory dispersal as a natural experiment to minimise selective migration. It integrates primary health data from resettlement refugees with administrative and contextual data to understand health and mortality differences among refugees.","Start date (d/m/y)":"2024-07-01T00:00:00","End date (d/m/y)":"2029-06-30T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"ERC-2023-COG - ERC CONSOLIDATOR GRANTS ","Call":"ERC-2023-COG ","Role of University":"coordinator","Total cost of project":"1 999 990,00 €","EU Contribution":"1 999 990,00 €","EU Contribution Bielefeld":"1 237 026,00 €"},{"_id":56,"Project ID":"101125503","Project acronym":"COMFAM","Status":"Ongoing","Title":"Consequences of Long Commuting for the Health of All Family Members","Project URL":"","Project URL 2":"","Description":"Commuting to work by car or public transportation is inevitable for many. However, long commutes negatively impact partnership stability and family size. A thorough investigation is needed to understand what commuting means for the health of all family members. The ERC-funded COMFAM project aims to investigate the impact of long commutes on commuters’, their partners’ and their children's health and well-being. Moreover, it will examine changes in commuting during and after the COVID-19 pandemic and analyse whether the health effects of long commutes differ across population subgroups. COMFAM will utilise data from Nordic registers, and surveys from Germany, the United Kingdom and the United States. The findings are expected to have significant implications for public health, social well-being, and the economy.","Start date (d/m/y)":"2024-12-01T00:00:00","End date (d/m/y)":"2029-11-30T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"ERC-2023-COG - ERC CONSOLIDATOR GRANTS","Call":"ERC-2023-COG ","Role of University":"coordinator","Total cost of project":"2 193 224,00 €","EU Contribution":"2 193 224,00 €","EU Contribution Bielefeld":"2 136 575,00 €"},{"_id":57,"Project ID":"101170965","Project acronym":"FAIRGAP","Status":"Ongoing","Title":"Wage Negotiations and Gender Pay Gaps: Exploring the Role of Fairness Attitudes in Europe","Project URL":"https://cordis.europa.eu/project/id/101170965","Project URL 2":"","Description":"In the EU, addressing the gender pay gap, defined as the difference in earnings between men and women, is a significant policy challenge. Despite concerted efforts, this disparity persists, exhibiting noticeable differences across member states. Recent changes in the European labor market, such as the reduced role of unions and the shift towards individual pay negotiations, may amplify these disparities. Individual pay negotiations increase the responsibility of employees in determining their pay. Men typically achieve more favorable outcomes than women in these individual pay negotiations. Thus, the increasing prevalence of individual pay negotiations in Europe may lead to the widening of the gender pay gap. A vital aspect of this research is the focus on fairness norms in pay negotiations and their impact on the gender pay gap. Prior research reveals that perceptions of pay fairness are often subconsciously skewed against women. This project explores under what conditions pay fairness attitudes develop a gender bias and how they subsequently influence the outcomes of pay negotiations. To investigate this, I will conduct unique surveys across selected European countries, examining the origins of gender-biased fairness attitudes and their effect on negotiation behaviors and the gender pay gap. These surveys will incorporate experimental elements to assess causal relationships. By integrating these empirical studies within a unified theoretical framework, the project seeks to offer a comprehensive understanding of gender biases in pay negotiations and their broader implications for the labor market. In sum, this project tackles a vital gap in our knowledge regarding the gender pay gap, focusing on the influence of fairness norms in wage negotiations. It represents a critical advancement in labor market research and holds the potential to guide future policies aimed at reducing gender inequalities in the workplace.","Start date (d/m/y)":"2025-09-01T00:00:00","End date (d/m/y)":"2030-08-31T00:00:00","Organisation name":"Universität Bielefeld","Organisation name ENG":"Bielefeld University","Organisation ID":999854370,"Vat Number organisation":"DE811307718","Organisation country":"Germany","Geographical coordinates Organisation":"2052-08-13T00:00:00","Organization URL":"https://www.uni-bielefeld.de/","Programme":"HORIZON EUROPE (2021-2027)","Key Action":"ERC-2024-COG - ERC CONSOLIDATOR GRANTS","Call":"ERC-2024-COG","Role of University":"coordinator","Total cost of project":"1,999,955.00 €","EU Contribution":"1,999,955.00 €","EU Contribution Bielefeld":"1,999,955.00 €"},{"_id":58,"Project ID":null,"Project acronym":null,"Status":null,"Title":null,"Project URL":null,"Project URL 2":null,"Description":null,"Start date (d/m/y)":null,"End date (d/m/y)":null,"Organisation name":null,"Organisation name ENG":null,"Organisation ID":null,"Vat Number organisation":null,"Organisation country":null,"Geographical coordinates Organisation":null,"Organization URL":null,"Programme":null,"Key Action":null,"Call":null,"Role of University":null,"Total cost of project":null,"EU Contribution":null,"EU Contribution Bielefeld":null}], "fields": [{"id": "_id", "type": "int"}, {"id": "Project ID", "type": "text"}, {"id": "Project acronym", "type": "text"}, {"id": "Status", "type": "text"}, {"id": "Title", "type": "text"}, {"id": "Project URL", "type": "text"}, {"id": "Project URL 2", "type": "text"}, {"id": "Description", "type": "text"}, {"id": "Start date (d/m/y)", "type": "timestamp"}, {"id": "End date (d/m/y)", "type": "timestamp"}, {"id": "Organisation name", "type": "text"}, {"id": "Organisation name ENG", "type": "text"}, {"id": "Organisation ID", "type": "numeric"}, {"id": "Vat Number organisation", "type": "text"}, {"id": "Organisation country", "type": "text"}, {"id": "Geographical coordinates Organisation", "type": "timestamp"}, {"id": "Organization URL", "type": "text"}, {"id": "Programme", "type": "text"}, {"id": "Key Action", "type": "text"}, {"id": "Call", "type": "text"}, {"id": "Role of University", "type": "text"}, {"id": "Total cost of project", "type": "text"}, {"id": "EU Contribution", "type": "text"}, {"id": "EU Contribution Bielefeld", "type": "text"}], "_links": {"start": "/api/3/action/datastore_search?resource_id=13239a79-f9c8-49c8-be66-5a3bed9d9913", "next": "/api/3/action/datastore_search?resource_id=13239a79-f9c8-49c8-be66-5a3bed9d9913&offset=100"}, "total": 58, "total_was_estimated": false}}