Longinos/Longinas: Towards Smart, Unified Working and Living Environments for the 70 to 90+ (original) (raw)
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Supporting Active and Healthy Aging with Advanced Robotics Integrated in Smart Environment
IGI Global eBooks, 2017
The technological advances in the robotic and ICT fields represent an effective solution to address specific societal problems to support ageing and independent life. One of the key factors for these technologies is the integration of service robotics for optimising social services and improving quality of life of the elderly population. This chapter aims to underline the barriers of the state of the art, furthermore the authors present their concrete experiences to overcome these barriers gained at the RoboTown Living Lab of Scuola Superiore Sant'Anna within past and current projects. They analyse and discuss the results in order to give recommendations based on their experiences. Furthermore, this work highlights the trend of development from standalone solutions to cloud computing architecture, describing the future research directions.
Agile Co-Creation for Robots and Aging (ACCRA) Project: new technological solutions for older people
European Geriatric Medicine
Introduction Worldwide population is getting older. The older persons want to stay independent and wish to increase their engagement in social activities to tackle loneliness, depression, and isolation. Starting from these assumptions, we developed the ACCRA project (Agile Co-Creation for Robots and Aging) with the aim to enable the development of advanced ICT Robotics-based solutions for extending active and healthy aging in daily life by defining, developing and demonstrating an agile co-creation development process. Methods ACCRA robotics solutions will be designed and developed to be tested in three different domains: mobility, daily life, socialization support in four countries (i.e., France, Netherlands, Italy, and Japan). The proposed approach identifies four different phases: (1) needs analysis, (2) agile co-creation, (3) experimentation, and (4) sustainability analysis. Currently, the first two phases were almost completed. For the needs phase, we have used the following recruitment criteria: (1) for mobility: age ≥ 60 years, the and presence of mobility issues assessed by Older Mobility Scale (EMS) with a score > 13; (2) for daily life: age ≥ 60 years, and the presence of difficulties engaging in housework assessed by Autonomie Gérontologie Groupes Iso-Ressources (AGGIR) with a GIR score ≥ 4; (3) for socialization support: age ≥ 60 years, and the absence or mild level of cognitive impairment assessed by Mini Mental State Examination (MMSE) with a score ≥ 24. Results The needs analysis and first co-creation sessions focus attention on the experience of older in the four countries. Preliminary results showed how, in all the pilot sites, many expectations were raised from older, formal and informal caregivers about the application of the technology into their life. Minor concerns existed about privacy, real efficacy and modularity in a real-world environment. Overall, a good attitude was recorded towards the use of technologies to support life and promote independent living. Moreover, the older engaged in our studies showed a great interest to be actively involved in the developing phase of something built based on their needs. Conclusions The availability of new solutions to increase independence and quality of life in a sustainable manner appears to be mandatory in the actual society considering the actual socioeconomic situation over the industrial countries.
International Journal of Social Robotics, 2016
It is a general truth that increase of age is associated with a level of mental and physical decline but unfortunately the former are often accompanied by social exclusion leading to marginalization and eventually further acceleration of the aging process. A new approach in alleviating the social exclusion of older people involves the use of assistive robots. As robots rapidly invade everyday life, the need of new software paradigms in order to address the user's unique needs becomes critical. In this paper we present a novel architectural design, the RAPP [a software platform to deliver smart, user empowering robotic applications (RApps)] framework that attempts to address this issue. The proposed framework has been designed in a cloud-based approach, integrating robotic devices and their respective applications. We aim to facilitate seamless development of RApps compatible with a wide range of supported robots and available to the public through a unified online store.
2012
The Future Emerging Technologies (FET) Flagship Candi-date ”Robot Companions for Citizens” (RCC) proposes a transformat iveinitiative, addressing a cross-domain grand scientific and technologicalchallenge, to develop a new class of machines and embodied informationtechnologies, called Robot Companions for Citizens (RCCs) that can assist European society to achieve sustainable welfare. The central premiseof RCC is that to solve many important problems in the real world onehas to be physically instantiated and capable of action; information aloneis not sufficient. An important theme is that this new generation of safeand human-friendly robots could assist in extending the active indepen-dent lives of older citizens and help compensate for the demographicshift in the age of EU citizens. In this paper we summarise some of themain conclusions of the Flagship pilot in relation to developing robottechnologies that can empower older European citizens.
Robotics for Successful Ageing
2018
The main idea of the ongoing research is to use robotics to create new opportunities to help older people to remain alone in their apartments which can beachieved by using robots as an interacting ...
Proceedings of the 12th ACM International Conference on PErvasive Technologies Related to Assistive Environments, 2019
Along with population ageing comes the increasingly intensified phenomenon of a shrinking and ageing workforce. Novel solutions are needed so as to help ageing workers maintain workability and productivity, along with a balance between work and personal life, which supports them into good quality of life, active and healthy ageing. In this line, the "Ageing@work" project, initiated by the European Union, develops a novel ICTbased, personalized system to support ageing workers (aged 50+) into designing fit for purpose work environments and managing flexibly their evolving needs. On top of personalized, dynamically adapted worker and workplace models, computational intelligence will assess user specificities and needs i.r.t. work conditions, both in terms of ergonomics, health and safety issues and task assignments. Recommendations will then be provided both to the worker and company, under strict privacy restrictions, on how the working conditions must adapt. The worker models will be populated by unobtrusive worker sensing, both at work, at home and on the move. To foster workability and productivity, personalized, intuitive, age-friendly productivity, co-design enhancement tools will be developed, including ones for AR/VRbased context-awareness and telepresence, lifelong learning and knowledge sharing. On top of these, a novel Ambient Virtual Coach (AVC) will encompass an empathic mirroring avatar for subtle notifications provision, an adaptive Visual Analyticsbased personal dashboard, and a reward-based motivation system targeting positive and balanced worker behavior at work and personal life, towards a novel paradigm of ambient support into workability and well-being. The integrated system will be developed by user-centered design and will be evaluated at two pilot sites, related to core Industry 4.0 processes of mining and machines production. CCS CONCEPTS Applied computing → Life and medical sciences → Health care information systems; Human-centered computing → Collaborative and social computing → Collaborative and social computing systems and tools;
2nd International Multidisciplinary Scientific Conference on Social Sciences and Arts SGEM2015, 2015
In the wake of fast aging of populations the question is asked about the acceptance of robots by elderly individuals and their role in elderly's everyday life. The project ENRICHME-Enabling Robot and assisted living environment for Independent Care and Health Monitoring of the Elderly (which receives funding from the European Union H2020 Programme; Grant Agreement No: 643691C) employs a mobile service robot for long-term human monitoring and interaction, in order to optimise the independence of elderly individuals. For this reason, it is important to explore and assess the impact of such a system on the final users' life (elderly, caregivers, social reference group). Thus, the aim of the study was to develop a tool to collect opinions about the robotrelated requirements and check its usefulness. In this paper, we present the first results of the Users' Needs, Requirements and Abilities Questionnaire (UNRAQ). The tool was developed based on the literature review and ENRICHME researcher's expertise. Data collected by means of a creativity box-a part of the UNRAQ enabling the participants to express freely their ideas, worries, and critical opinions are presented. During the interviews pictures of the prototype of the robot were shown to the participants so as to provide them with a more realistic view of the robot concept. Data were collected in the countries involved in the ENRICHME project: France,
Smart Environments and Social Robots for Age-Friendly Integrated Care Services
International Journal of Environmental Research and Public Health
The world is facing major societal challenges because of an aging population that is putting increasing pressure on the sustainability of care. While demand for care and social services is steadily increasing, the supply is constrained by the decreasing workforce. The development of smart, physical, social and age-friendly environments is identified by World Health Organization (WHO) as a key intervention point for enabling older adults, enabling them to remain as much possible in their residences, delay institutionalization, and ultimately, improve quality of life. In this study, we survey smart environments, machine learning and robot assistive technologies that can offer support for the independent living of older adults and provide age-friendly care services. We describe two examples of integrated care services that are using assistive technologies in innovative ways to assess and deliver of timely interventions for polypharmacy management and for social and cognitive activity s...
Development of a robot partner system to support the elderly based on sensor data
2020 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE), 2020
In recent years, the number of elderlies living alone has been increasing year by year due to the declining birthrate and aging problem, which has become a major problem especially in developed countries. There is a great demand for health support systems and monitoring systems using sensors to support the elderly in such situations. In this paper, we propose a robot partner system that can communicate based on sensor data in such a situation.