Research projects 38

  • Head of research Anu Kantele
  • Language n/a

Antibiotics have made it possible for people to live longer, healthier lives. Antimicrobial resistance, however, is an increasing problem, especially in low-resource settings. This project will employ a range of methods from microbiology, clinical medicine and sociology to produce new knowledge about how AMR genes spread especially in poor West African regions, in areas where local capacity to address AMR is lagging behind, and identify ways to curb the spread of AMR. This knowledge can be utilized in national and international health policy and medical research.

Team

Isidore Bonkoungou, Victorien Dougnon, Kaisa Haukka, Bourema Kouriba, Salla Sariola, Marko Virta

Emerging technologies such as affordable smart phones with 4G access, broadband internet, and interactive interfaces employing gestures or speech, are revolutionizing the ways we access information, learn new skills and interact with the world around us. However, developing world communities - who stand to benefit from such technologies - were, until recently, largely neglected. Interactive technologies provide a means to address learning challenges such as functional illiteracy and information access barriers, and can improve learning and education, health and wellbeing, and agricultural practices.

Team

Markku Turunen, Jaakko Hakulinen, Mikko Ruohonen, Sumita Sharma, Pekka Kallioniemi, Juhani Linna

Building on the successes and outcomes of the previous FinCEAL and FinCEAL Plus projects, the FinCEAL Plus Continuation project aimed to provide strategic support to enhance the cooperation between research and science policy communities in Finland, Europe, Africa, Asia, and Latin America and the Caribbean. The specific objectives of the project were to: 1. Strengthen Finnish participation in the EU STI policy dialogues with the target regions; 2. Support Finnish participation in joint research projects with partners from the target regions; 3. Enable Finnish expertise and know-how to be better known in the target regions; and 4. Gather and disseminate information on Finnish cooperation towards the regions within Finland as well as new cooperation possibilities with the target regions.

Team

Eva Kagiri, Kajsa Ekroos, Jarkko Mutanen, Melissa Plath

FinCEAL Plus started in January 2015 as an expansion and continuation of the FinCEAL Project (2012-2014), both funded by the Ministry of Education and Culture. The aims of the FinCEAL Plus project were to: 1. Increase and consolidate the Finnish bi-regional cooperation towards Africa, Asia, and the LAC region, with special emphasis on supporting Finnish researchers’ involvement in European bi-regional networks; 2. Support and consolidate the participation of Finnish experts in EU-Africa, EU-CELAC and EU- Asia bi-regional research and science policy dialogues; 3. Increase the knowledge about and visibility of Finnish cooperation towards the target regions within Finland; 4. Expand the awareness of Finnish expertise in the regions; and 5. Expand and consolidate the Finnish research communities’ awareness of cooperation possibilities with the EU, Africa, Asia and LAC region. 6. Throughout all the project activities, strengthening the Finnish universities’ global responsibility and making it more systematic and measurable.

Team

Eva Kagiri, Kajsa Ekroos, Jarkko Mutanen, Melissa Plath

The two-year FinCEAL pilot project aimed to enhance cooperation between research and science policy communities in Finland, Europe, Africa, and Latin America and the Caribbean by networking the Finnish research community and by supporting their participation in bi-regional research projects and science policy processes. FinCEAL was an initiative funded by the Finnish Ministry of Education and Culture and implemented by UniPID, the Finnish University Partnership for International Development. FinCEAL activities were focused on the following thematic areas, derived from the European Union's bi-regional science, technology and innovation policy processes: Africa – Food Security, Information Society, Health, Climate Change and Renewable Energy; LAC – ICT for Societal Challenges, Bioeconomy, Biodiversity and Climate Change, Renewable Energy and Health.

Team

Eva Kagiri, Kajsa Ekroos, Melissa Plath

  • 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

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

Mining consists of a long chain of actions starting from exploring suitable mineral deposits, building up the mine infrastructure and finally initiating and conducting the production. Every step has own environmental concerns. Besides the environmentally adverse effects, mine production may affect nearby population and pollute the working environment. The main categories of particles in mines are mineral dust, combustion products of explosives and diesel engine emissions. Both mineral dust and diesel engine emissions have serious health concerns. This project focuses on different issues in mining environments, which help in making the future mines more sustainable and environmentally sound.

Team

Jorma Keskinen, Topi Rönkkö, Panu Karjalainen, Sampo Saari, D.Sc. (Tech.), Antti Rostedt, Jenni Alanen Ernesto Gramsch Hilkka Timonen

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