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Artificial Intelligence och Intelligent Systems

Automated Software language and Software engineering

Biomedical Engineering

Formal Modelling and Analysis of Embedded Systems

Heterogeneous systems - hardware software co-design

Human

Industrial Software Engineering

Model-Based Engineering of Embedded Systems

Political Science

Product and Production Development

Real-Time Systems Design

Simulation and optimisation for future industrial applications (SOFIA)

Software Testing Laboratory

Sustainable lifestyle and health from a public health perspective

Energy efficiency and reduction of emissions

CAMI - Artificially intelligent ecosystem for self-management and sustainable quality of life in AAL (Ambient Assisted Living)

CAMI builds upon and move beyond the current state of the art of technologies to support rich human-computer interaction, intelligent context management, environment perception and reactive behavior.

Concluded

Start

2015-06-01

Conclusion

2018-11-30

Main financing

Vinnova, EU

Collaboration partners

Aliviate Development ApS, CNet Svenska AB, ECLEXYS Sagl, European Citizens Open for evaluating novel Technology Opportunities for achieving Pervasive health and wellbeing in an Independent, Active, and Sustainable life, IT Centre for Science and Technology, Knowledge Society Association, Polytechnic University of Bucharest

Project manager at MDH

Senior Lecturer

Cristina Seceleanu

+4621151764

cristina.seceleanu@mdh.se

Description of the project

Older adults are people with different needs, cognitive and motor abilities, and specific health conditions. Enhancing older adult’s quality of life by improving their autonomy and self-managing abilities calls for a personalized and integrated solution that can be tailored according to both individual preferences and necessities through a personalized combination of devices and services. In this context, CAMI is offering a fully integrated AAL solution by providing services for health management, home management and wellbeing (including socialization, and mobility support). CAMI builds an artificial intelligence ecosystem, which allows seamless integration of any number of ambient and wearable sensors with a mobile robotic platform endowed with multimodal interaction (touch, voice, person detection), including a telepresence robot with manipulatory capabilities.

The services offered by CAMI ecosystem address both healthy individuals as well as those with age-related impairments. CAMI solution will reconcile the increased demand for care in the current aging society with limited resources by supporting an efficient and sustainable care system. This will allow older adults to self-manage their daily life and prolong their involvement in the society while allowing their informal caregivers to continue working whilst caring for their loved ones.

CAMI builds upon and move beyond the current state of the art of technologies to support rich human-computer interaction, intelligent context management, environment perception and reactive behavior. Through a transnational effort in five European countries, CAMI addresses the wishes and needs of its end-users taking into account cultural, social and market diversity by involving them together with relevant stakeholders throughout the project lifecycle. This approach will ensure market success and will facilitate the commercialisation of CAMI’s solution within 2-3 years after the end of the project.

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