Background We propose a holistic view of interrelated frailties: cognitive decline, physical frailty, depression and anxiety, social isolation and poor sleep quality, which are a major burden to older adults and social and health care systems. Early detection and intervention are crucial in sustaining active and healthy ageing (AHA) and slowing or reversing further decline. Aims and Relevance The main aim of my-AHA is to reduce frailty risk by improving physical activity and cognitive function, psychological state, social resources, nutrition, sleep and overall well-being. It will empower older citizens to better manage their own health, resulting in healthcare cost savings. my-AHA will use state-of-the-art analytical concepts to provide new ways of health monitoring and disease prevention through individualized profiling and personalized recommendations, feedback and support. Approach An ICT-based platform will detect defined risks in the frailty domains early and accurately via non-stigmatising embedded sensors and data readily available in the daily living environment of older adults. When risk is detected, my-AHA will provide targeted ICT-based interventions with a scientific evidence base of efficacy, including vetted offerings from established providers of medical and AHA support. These interventions will follow an integrated approach to motivate users to participate in exercise, cognitively stimulating games and social networking to achieve long-term behavioural change, sustained by continued end user engagement with my-AHA. Scale and Sustainability The proposed platform provides numerous incentives to engage diverse stakeholders, constituting a sustainable ecosystem with empowered end users and reliable standardised interfaces for solutions providers, which will be ready for larger scale deployment at project end. The ultimate aim is to deliver significant innovation in the area of AHA by cooperation with European health care organizations, SMEs, NGOs.

The project focuses on increasing access to wood resources through more efficient silviculture and a better understanding of the business models governing the procurement of forest operations services. The project further considers increasing efficiency in forest harvesting and collection, and the reduction of soil impact from forest operations, and puts forward ways of making this a measurable and integrated part of operational efficiency. TECH4EFFECT offers the potential to revolutionize forest operations with a state-of-the-art knowledge-based efficiency development system, providing easily accessible decision support exploiting the large amount of data available in modern industrial forest management. The ambition of TECH4EFFECT is to implement such as management tool, enhanced through 4 years of intensive R&D in close cooperation with the end-users of the Efficiency Portal in 5 participating countries. It is the project’s hope that implementation will result in such obvious benefits amongst the industrial partners that its application will become widespread within the European forest sector.

Severe hydro-meteorological phenomena are having a high impact in European territories and are of global concern. The science behind these phenomena is complex and advancement in knowledge proceeds with progress in data acquisition and forecasting useful for real-scenario interventions. The employment of nature-based solutions (NBS) to mitigate the impact of hydro-meteorological phenomena is not adequately demonstrated, still uncoordinated at the European level, therefore not reaching full potential. Actions to achieve highest NBS impact requires strategies to enhance societal acceptance, policy strengthening while demonstrating advantages for market development. The objective of OPERANDUM is to reduce hydro-meteorological risks in European territories through co-designed, co-developed, deployed, tested and demonstrated innovative green and blue/grey/hybrid NBS, and push business exploitation. It aims provision of science-evidence for the usability of NBS, best practices for their design based on participatory processes. It foresees a multiple level of stakeholders engagement from the local community up to the international level to leverage widest possible NBS acceptance to promote its diffusion as a good practice. It establishes the framework for the strengthening of NBS-based policies according to local legislation and promotes technology and innovation in NBS to create a European leadership. OPERANDUM is based on open-air laboratories (OALs), a fairly new concept that expands the Living Labs to a wider vision for natural and rural areas. In OALs novel NBS in seven European countries and three in China and Australia are implemented to address specific risks and their effectiveness, assessed through innovative monitoring systems and cutting-edge numerical modelling approaches. OPERANDUM realizes a multi-dimensional open and flexible platform enabling stakeholders and end users to improve knowledge in NBS to mitigate climate change as well as ways to promote and exploit the improved/preserved environment while increasing business opportunities.