Project overview

    HERoS is a Horizon 2020  project funded under the ‘SC1-PHE-CORONAVIRUS-2020 – Advancing knowledge for the clinical and public health response to the 2019-nCoV epidemic’ call. As a social sciences research project, HERoS addresses the need to understand the social dynamics of the outbreak and the related public health response. The work will be conducted between April 2020 and 2023.

    The overall objective of HERoS is to improve the effectiveness and efficiency of the response to the Covid-19 outbreak by generating actionable knowledge four areas: governance, models in epidemics, medical supply chains, online misinformation.


    HERoS seeks to understand and model different co-ordination structures and governance arrangements. The objective is to identify bottlenecks; develop procedures for efficient information sharing across countries and hierarchical levels; and to propose policies for improved crisis governance, focusing on responders to public health emergencies. 


    Epidemiological and behavioural modelling

    HERoS models the impact of local policies and human behaviour on the spread of the disease. The aim is to guide public decisionmaking in conditions of deep uncertainty.

    Medical supply chain management

    HERoS  evaluates the impact of cascading effects across global supply chains and provides recommendations to improve management of medical supply chains.

    Online misinformation

    HERoS studies the co-spead of online misinformation and fact-checks with the aim of developing a new method to retrieve actionable information from social media in order to detect rumours and misinformation early. 


    This project will innovate social science research in epidemic outbreaks and combines  methodological and process innovation which connects multiscale epidemics modelling, policy-making, governance, information sciences and supply chain management. Through integration with the humanitarian planning and decision-making processes, HERoS contribute to more efficient and effective policies and governance structures. HERoS makes use of collective intelligence approaches to support self-organisation of decision-makers at different levels to improve the epidemics response locally on the ground in real-time while contributing to more efficient information management, netcentric governance and logistics.

    The HERoS Consortium

    The consortium brings together the resources of 11 participating organisations from six European countries  – Finland, the Netherlands, the United Kingdom, Poland, France, Italy – and the United States, each excelling in their respective field and with significant research experience. Expertise areas include: humanitarian logistics and supply chain management (Hanken), epidemiological modelling and policy design (TU Delft), crisis governance (Vrije Universiteit Amsterdam), machine learning and information sciences (Open University), public health services (Nordic Healthcare), space research and geoinformation (Crisis Information Centre), UAV development (SQUADRON), health emergency responders (Polish Center for International Aid, Italian Red Cross, Project HOPE) and project management (ARTTIC).

    WEBINAR: Results from the Rapid Response Phase

    WEBINAR: Results from the Rapid Response Phase

    The HERoS project - which aims to improve the effectiveness and efficiency of the response to the COVID-19 outbreak - completed its Rapid Response Phase in September 2020. To share the results of this initial period, the consortium organises a free webinar open to all...

    The HERoS Consortium Kick Off Conference

    The HERoS Consortium Kick Off Conference

    The HERoS consortium held its kick off conference call on 14 April 2020. Partners are looking forward to a fruitful collaboration and to bringing this initiative to a success.

    The HERoS Project

    The HERoS Project

    The HERoS project officially started its activities on 1 April 2020. Active for 3 years, HERoS will develop open data sets, models, methodologies and open source software that will support decision-makers in the response.

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    This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 101003606.