UT leads ¤2.9 million project to improve 6G-based care

European doctoral network for resilient remote healthcare using intelligent sensing and communication technologies

The world is directly connected via cellular networks and Wi-Fi and will be integrated with radar technology in the coming 6G. The integrated radar and communication technologies can not only estimate human vital signs and limb activities, but also enable remote health monitoring that is essential for the timely and optimal disease management. This project is bridging the advanced wireless technologies and radio signal processing with biomedical signal analytics and health monitoring to maximize the effectiveness of personalized healthcare.

Today marks a transformative moment as the SMARTTEST proudly unveils its project in conjunction with the esteemed Maria Sklodowska-Curie Actions (MSCA) Coordinators’ Information Day organised by European Commission and European Research Executive Agency (REA).

The EU-funded MSCA doctoral network, coordinated by Yang Miao, in collaboration with Prof. André Kokkeler from the Radio Systems (RS) group at the Faculty of Electrical Engineering, Mathematics and Computer Science (EEMCS) will support eleven (11) individual research projects for doctoral students in the established European Doctoral Network for Resilient Remote Healthcare using Intelligent Sensing and Communication Technologies, called SMARTTEST.

Current healthcare systems in the EU and around the world rely primarily on individual’s abilities to self-monitor to identify symptoms and to initiate the intervention by healthcare professionals. The current healthcare system is reactive but not preventative for disease management and is burdensome to vulnerable individuals. This leads to high healthcare costs, lowered quality of living, and in some cases higher morbidity and mortality numbers. The rapidly developing integrated sensing and communication (ISAC) technologies, a feature of 6G, provide an awesome opportunity for enabling remote health monitoring in a contact-free, and thus continuous manner.

World-leading experts 

The SMARTTEST project, coordinated by Yang Miao, brings together world-leading experts from Enschede, Leuven, Milano, Roma, Utrecht, Ostrava Poruba and Padova to create a Doctoral Network with the goal of training a future generation of engineers that are capable of bridging advanced wireless technologies and radio signal processing, biomedical signal analytics and health monitoring to maximize the effectiveness of personalized healthcare. These inter-disciplinary engineers will develop a holistic view for the design and development of integrated sensing and communication devices as well as algorithms for contact-free, continuous and proactive remote health monitoring, with profound knowledge on biomedical domain and social practices.

The goal of the research programme

The goal of the research programme is to develop and validate the first ISAC-enabled proactive/preventive and contact-free remote health monitoring system by integrating human sensing, vital function monitoring and health status assessment into wireless communication networks to overarch the following scientific and societal challenges:

·       Talent shortage
·       Communication/radar sensing hardware integration
·       Electromagnetic modelling, signal/data processing and analytics
·       Proactive health monitoring
·       Sustainability, safety and regulatory compliance

Our objectives are that hardware will be integrated so that simultaneous communication and sensing are possible using one set of devices; the model-driven approach based on electromagnetics and estimation theory as well as data-driven learning (AI) based approach will be developed to process the radio signals captured from the ISAC system and to estimate human form, macro-/micro-motion parameters; tools for autonomous diagnosis of health status will be developed and validated, to turn human info to health status for early detection of complications, after-surgery recovery, and understanding links between lifestyle and chronic disease; and electromagnetic exposure and sustainability aspects of the system will be modelled in order to assess the possibility of continuous use for monitoring this in close collaboration with industry via secondments, network wide events, demonstrators and applications, and thus actually contribute to the Horizon Europe ambition.

Horizon Europe (HORIZON) 

SMARTTEST is funded by Horizon Europe (HORIZON) through the Marie Sklodowska-Curie Actions (MSCA) Training & Mobility Actions (TMA) in the form of a Doctoral Networks (DN) which will host 11 doctoral candidates across Europe and beyond. The inter/multi-disciplinary characteristics are guaranteed by the presence of six academic beneficiaries (University of Twente, KU Leuven, Politecnico di Milano, Consiglio Nazionale delle Ricerche, University Medical Center Utrecht, and Technical University of Ostrava) and one industrial beneficiary (Adant Srl). These beneficiaries are in four European countries (the Netherlands, Germany, Poland and Italy) which possess top-class expertise in radio/biomedical systems and signal processing, machine learning, signal/clinical data analytics and practices, and applications using AI.

Partners

Furthermore, the inter-sectoral characteristic is guaranteed by the support of a series of industrial, hospital and government entities: ten associated partner organisations from three European countries (The Netherlands, Belgium, and Czechia) and even partners from Canada and the United States. Having Pharrowtech BV, Televic Healthcare, Remcom Inc., University of Waterloo, Goal 3 ,Ziekenhuis groep Twente , Sentigrate (Eventegrate), Rijksinspectie Digitale Infrastructuur (State Inspectorate of Digital Infrastructure of the Netherlands), Benetronic s.r.o. ,Toegepast-Natuurwetenschappelijk Onderzoek, (Netherlands Organisation for Applied Scientific Research),Domovy na Orlici, p.o. , and Catalyze group forms a fully interrelated, integrated, and international consortium.

SMARTTEST is also a collaboration between the Radio Systems (RS) and the Biomedical Signals and Systems (BSS) groups at University of Twente’s Faculty of Electrical Engineering, Mathematics and Computer Science (EEMCS). The supervisors are Coordinator Dr. Yang Miao and Prof. Andre Kokkeler from the Radio Systems (RS) group, and Dr. Ying Wang and Prof. Peter Veltink from the Biomedical Signals and Systems (BSS) group.

Connect to SMARTTEST page to keep updated about the project and the upcoming recruitment for the eleven doctoral candidate positions and visit www.DN-SMARTTEST.eu

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