Research projects 48

  • Head of research Kai Savolainen
  • Language n/a

NANOSOLUTIONS seeks to identify and elaborate the characteristics of engineered nanomaterials (ENM) that determine their biological hazard potential. It will help develop a safety classification model for ENM based on an understanding of their interactions with living organisms, benefiting industry and enabling innovation.The NANOSOLUTIONS project was created to develop a safety classification for engineered nanomaterials (ENM) based on an understanding of their interactions with living organisms at molecular, cellular and organism levels. The human body uses natural nanomaterials, such as proteins and other molecules, to control the body�s many systems and processes.

Team

Dario Greco, Harri Alenius, Riitta Lahesmaa, Roland Grafström, Kai Savolainen

I4Future - Imaging for the Future: Novel Imaging and Characterization Methods in Bio, Medical and Environmental Research and Technology Innovations is a Marie Sklodowska-Curie action co-funded international, interdisciplinary and inter-sectoral doctoral programme. The programme brings together complementary and supplementary expertise of internationally accredited researchers with the aim of training young researchers in an interdisciplinary manner in highly relevant sosioeconomic research areas using state-of-the-art techniques. The programme network consists of 17 University of Oulu research groups, 10 international partner universities, 11 private companies and 4 multidisciplinary public sector organisations.

Team

Marko Huttula, Matti Alatalo, Erkki Thuneberg, Nonne Prisle

VitalSens is a joint research project with the main goal of designing a smart, cost effective and scale-able personalized biomedical remote monitoring health platform. Printable wireless electronic sensors for continuous ECG monitoring are designed. Further, the ECG recordings are stored in a cloud storage. We then proceed by developing a computational engine which processes the physiological measurements and provide automated event detection for cardiovascular diseases (CVDs). The primary focus is to create an intelligent processing system which is adaptive to the patient ECG recording.

Team

Sampo Nurmentaus, Metropolia UAS, Moncef Gabbouj, TUT, Tapio Seppänen, OU, Niku Oksala, UTA.

Novel materials and fabrication methods for body-centric passive wireless sensors (NOSE), is a project that is coordinated at the Tampere University of Technology, by the wireless identification and sensing systems research group (WISE). In this research project, embroidery of conductive yarns and 3D direct write dispensing of novel conductive materials; graphene, copper, and stretchable silver inks, as well as protective coatings, are used to fabricate flexible and reliable antennas and interconnections embedded into textile materials.

Team

Johanna Virkki, Leena Ukkonen, Han He, H Lam, Xiochen Chen

COST Action FP1405 - ActInPak is an international project implemented mainly to identify and focus on the key technical, social, economic and legislative factors relevant for a successful deployment of renewable fibre-based functional packaging solutions. The main objective of ActInPak is to develop a knowledge-based network on sustainable, active and intelligent fibre-based packaging in order to overcome current technological, industrial, and social limitations that hinder the wide deployment of existing and newly developed solutions in market applications.

Team

Johanna Lahti, Mika Vähä-Nissi FATIMA BOUCHAMA, JULIEN BRAS, SANNE TIEKSTRA, SELCUK YILDIRIM, GREG GANCZEWSKI, DAVID RAVNJAK, TADEJA MUCK, MARCO GIACINTI, JOHANNES BERGMAIR, VICTORIA HEINRICH, DIANA GREGOR SVETEC

The overall objective of the SuFoRUn project is to develop new models, methods and decision systems that may effectively integrate currently fragmented multidisciplinary knowledge to support forest management and policy development in a context of global change. The European and the American experiences with the development/application of models and tools to support forest management and develop innovative forest policies provide a solid base for continuous improvement of its efficiency and effectiveness in a context of global change (e.g. changes in forest policies, changes in forest owner structures, changes in climatic conditions).

Team

Heli Peltola, Timo Pukkala, Dr Jordi Garcia-Gonzalo ( Centre Tecnologic Forestal de Catalunya CTFC).

  • Head of research Lindström, Kristina
  • Language n/a

The overall aim of the project is to improve productivity, livelihoods, nutrition and household wellbeing in Ghana and Uganda, while counteracting environmental degradation and mineral depletion caused by monocultures. The study will address both the individual farm level and the rural community level. Introducing the use of biofertilizers through a participatory process can highlight the potential of location-based resources, and empower the community more widely.

Team

Sumelius John (Project manager, Lindström Kristina (Principal investigator), Benjamin Ahiabor, John Baptist Tumuhairwe, Åsa Frostegård, Aserse Aregu (Participant), Vihinen Hilkka (Project manager), Sell Mila (Project manager), Sipiläinen Timo (Participant), Bäckman, Stefan, (Participant) Rosengren, Linda (Other)

The Strengthening Problem-Based Education in East African Universities project (PBL East Africa) is a joint initiative of Nairobi University (Kenya), Makerere University (Uganda), Dar es Salaam University (Tanzania), and Aalto University (Finland). PBL East Africa aims to establish best practices in problem-based learning (PBL) for innovation, engaging several disciplines, empowering students and developing an approach to critically address societal challenges in facilitated real-world situations.

Team

Riina Subra, Amelia Buriyo, Venny Nakazibwe, Tonny K. Omwansa

SCALA is a project implemented by a cooperation of Finnish companies and Brazilian players towards the following end goals: 1. Develop scarce innovation skills and research into emerging markets 2. Study mobile learning in the Brazilian context 3. Pilot and develop the contents of mobile learning in basic education, university and vocational training in Brazil 4. create a market strategy for mobile learning products on the scalable market in Brazil including buyer profiles and purchase and decision processes.

Team

Annica Isacsson

The Main goal of the SmartCom consortium is to develop, test and implement a concept of Smart Community for urban Africa together with the Namibian counterparts. The Project supports the development of Smart Community concept that is a societally and environmentally sustainable approach to urban development in Africa. SmartCom goes beyond the concept development and aims to provide tools, policy design and network to foster the emergence of business and innovation ecosystem between Finland and Namibia. The concept and policy design can be scaled-up to other countries later on.

Team

Mika Kautonen, Mika Raunio, Mika Nieminen, Veikko Ikonen, Virpi Oksman