Browse the solutions provided by AIOTI members in the table below.
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| Name | Provider | Domains | Status | ||||||||
| UWEDAT |
AIT
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Air Pollution in Urban Regions, Indoor Environmental Quality |
Solution available
Location: Vienna, Austria |
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Description:
UWEDAT is a high-performance and high-precision sensor network solution for air, water, soil, traffic, CBRN contamination, electromagnetism, weather & industry monitoring. UWEDAT, as a robust but flexible system, is the only solution that manages the balancing act between a stationary certified “fit for purpose” solution and a modern toolbox that is also open for other industries, other measurement hardware and the integration of area data. |
Partners involved:
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| ASCAPE |
Arthur's Legal
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Active & Healthy Living and Ageing |
Ongoing Project
Location: Greece, Spain, Sweden |
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Description:
ASCAPE is a EU Horizon2020 project that uses AI and big data for the developments of solutions for cancer treatment. Throughout four pilots, data that are collected through questionnaires or wearable devices are used through the Healthcare Information System to make more accurate diagnosis, to predict the future health status of patients, and to take medical action accordingly. |
Partners involved:
ASCAPE Consortium |
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More details:
The role of ASCAPE is to support the Patient by providing actionable information to their Doctor. This way, the role of the Doctor is not replaced, but rather, is supplemented and enhanced, by the use of Artificial Intelligence and Big Data. These are delivered in an appropriate, fit-for-purpose environment, which safeguards patient data privacy, security and anonymity, and promotes a balanced relationship between Patients and Doctors. |
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| Name | Provider | Domains | Status | ||||||||
| Smart City Active Ageing |
INFN Laboratory for Technology Transfer (National Institute of Nuclear Physics-Bologna)
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Active & Healthy Living and Ageing |
Project finished
Location: Bologna |
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Description:
This experience produced a full workflow of data collection from a laser sensor connected to a mobile application, working as edge device, which subsequently transmits the data to a Cloud platform for analysing and processing data. Sensor. Cloud, 5G, IOT, Edge computing, MQTT |
Partners involved:
INFN TTLab. Unibo DEI, BiRex Pilot Plant |
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More details:
This experience analyses Edge controlled/assisted system with Multiaccess Edge Computing based approach O-RAN (Transforming the Radio Access Networks Industry Towards Open, Intelligent, Virtualized and Fully Interoperable RAN) Cloud, 5G, IOT, Edge computing, MQTT, ORAN Intelligent edge: Pervasive services, through which users can get real-time, personalized assistance and experiences Need of automatic real-time optimization of heterogeneous resources and fast configurations optimally selecting network functions and AI techniques |
Next Steps:
The processing of large amount of data could benefit from the use of MEC (multi-access edge computing) instead of uploading data to the cloud which could cause additional roundtrip delay. The low latency is a key requirement in this experience |
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| Name | Provider | Domains | Status | ||||||||
| Hazards SEES |
Kno.e.sis Center, Wright State University and Ohio State University, Hazards SEES Consortium
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Decision Support for Disaster Management and Response |
Project finished
Location: USA |
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Description:
Hazard SEES overview: infrastructure systems are a cornerstone of civilization. Damage to infrastructure from natural disasters such as an earthquake (e.g. Haiti, Japan), a hurricane (e.g. Katrina, Sandy) or a flood (e.g. Kashmir floods) can lead to significant economic loss and societal suffering. Human coordination and information exchange are at the center of damage control. This project seeks to radically reform decision support systems for managing rapidly changing disaster situations by the integrated exploitation of social, physical and hazard modeling capabilities. This effort is expected to provide a model for highly integrative and collaborative work among researchers in computer science, engineering, natural sciences and the social sciences for research, education, and training of undergraduate and graduate students including those from under-represented groups. |
Partners involved:
Kno.e.sis Center, Wright State University and Ohio State University |
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More details:
The team will design novel, multi-dimensional cross-modal aggregation and inference methods to compensate for the uneven coverage of sensing modalities across an affected region. By assimilating data from social and physical sensors and their integrated modeling and analysis, methodology to predict and help prioritize the temporally and conceptually extended consequences of damage to people, civil infrastructure (transportation, power, waterways) and their components (e.g. bridges, traffic signals) will be designed. The team will develop innovative technology to support the identification of new background knowledge and structured data to improve object extraction, location identification, correlation or integration of relevant data across multiple sources and modalities (social, physical and Web). Novel coupling of socio-linguistic and network analysis will be used to identify important persons and objects, statistical and factual knowledge about traffic and transportation networks, and their impact on hazard models (e.g. storm surge) and flood mapping. Domain-grounded mechanisms will be developed to address pervasive trustworthiness and reliability concerns. Exemplar outcomes are expected to include specific tools for first-responders as well as recovery teams to aid in the prioritization of relief and repair efforts, leveraging improved flood response, urban mapping, and dynamic storm surge models, and interdisciplinary training of students leveraging research in pedagogy, in conjunction with Ohio State University’s new undergraduate major in data analytics, and Wright State University’s Big and Smart Data graduate certificate program. |
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| Name | Provider | Domains | Status | ||||||||
| PULSE |
LifeSupporting Technologies - Universidad Politécnica de Madrid
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Air Pollution in Urban Regions |
Project finished
Location: Barcelona, Spain |
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Description:
LifeStech has successfully coordinated the PULSE project, engaging in a collaborative dialogue with a range of stakeholders across seven global cities to transform public health from a reactive to a predictive system focused on both risk and resilience. |
Partners involved:
PULSE Consortium |
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More details:
Pulsair App has been developed to foster a healthy lifestyle and to make people more aware about the air pollution in the city. The app can be connected to FitBit, Garmin and Asus health tracker devices; the citizens can provide subjective data (from app questionnaires), physiological and activity data (from the wearable sensors) and localization data. 
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| Name | Provider | Domains | Status | ||||||||
| FLOOD-serv |
SIMAVI
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IoT solutions crisis management |
Project finished
Location: Slovakia, Italy, Portugal, Spain, Romania |
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Description:
The FLOOD-serv platform is dedicated to citizens of pilot and partner cities aiming to contribute to flood risk mitigation. The FLOOD-serv Portal offers news, multimedia galleries and data-based flood reports in each of the participating cities |
Partners involved:
FLOOD-serv Consortium |
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More details:
The FLOOD-serv System is an integrated multi-component, Multilanguage system designed to serve public authorities, citizens and stakeholders in various aspects of flood risk management: management, coordination of alerts and missions, communication with and involvement of citizens, flood risk awareness raising, etc. The FLOOD-serv System is the technical output of the FLOOD-serv Project.  The FLOOD-serv Portal (developed by Siveco) acts as the overall entry point to the FLOOD-serv System and is a portal for presenting information and engaging in dialogue with citizens related to floods. |
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| Name | Provider | Domains | Status | ||||||||
| ACCRA |
TRIALOG, ACCRA Consortium
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Active & Healthy Living and Ageing |
Project finished
Location: France, Italy, Netherlands |
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Description:
The objective of the ACCRA robotic solutions is to improve or maintain the level of autonomy, to secure the daily lives and to promote the maintenance of socialisation of the elderly people with loss of autonomy. The mission of ACCRA is to enable the development of advanced ICT Robotics based solutions for extending active and healthy ageing in daily life by defining, developing and demonstrating an agile co-creation development process. See paper: Knowledge Engineering Framework for IoT Robotics Applied to Smart Healthcare and Emotional Well-Being. Amelie Gyrard, Kasia Tabeau, Laura Fiorini, Antonio Kung, Eloise Senges, Marleen De Mul, Francesco Giuliani, Delphine Lefebvre, Hiroshi Hoshino, Isabelle Fabbricotti, Daniele Sancarlo, Grazia D’Onofrio, Filippo Cavallo, Denis Guiot, Estibaliz Arzoz-Fernandez, Yasuo Okabe, Masahiko Tsukamoto. International Journal of Social Robotics 2021. Springer Nature |
Partners involved:
ACCRA Consortium |
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More details:
ACCRA produced a Methodology Handbook (for agile cocreation of robots for ageing), called LIFE. The goal of the LIFE methodology is to bring together robotics developers, engineers, stakeholders and end-users to cocreate robotics solutions that are more meaningful to end-users, in particular on specific targets such as the elderly. The originality of this methodology is that it seeks to bring together two very different entities: robotics and the elderly with a loss of autonomy. The central axis of this agile cocreation methodology is to position the elderly user at the very heart of the development of robotic solutions. 
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| Name | Provider | Domains | Status | ||||||||
| TwinERGY |
Ideas for Change
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Twin Transition |
Onging Project
Location: Barcelona |
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Description:
H2020 project whose objective is to test how digital twin technology can help a more active participation of energy consumers and help them become prosumers. To do so, a suite of innovative tools to predict citizens’ consumption patterns and their comfort preferences are developed, analysing the flexibility potential that individuals, buildings and communities can provide to the electrical grid thus maximising their aggregated value. |
Partners involved:
Consortium of 18 partners |
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More details:
- Sustainable futures: encouraging the implementation of Demand Response Solutions that allow consumers to lower or adjust their consumption to foster global energy savings. - Place local communities at the center of energy markets: a shift in the market is possible by enabling the energy trading flexibility by energy citizens. - Transform roles in the industry: new business models for local energy communities and retailers to overcome major market entry barriers for prosumers. - Deliver an open and interoperable energy solution: connecting smart grids, energy management systems and smart home devices to enable more sustainable, effective and efficient energy use. - Provide a worldwide alternative for the energy system: the adoption of the TwinERGY solution will be promoted to maximise the project outcomes. 
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Next Steps:
Action is taking place in four pilot sites: Bristol (United Kingdom), Benetutti (Italy), Steinheim (Germany) and Athens (Greece). Each demonstration stands up for providing emergent technologies such as smart contracts, smart plugs and intelligent and personalised Demand Response programmes which are used by participants and installed in their homes. |
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| Name | Provider | Domains | Status | ||||||||
| Smart Waste |
Ubiwhere
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Municipal and Agricultural Waste Management |
Solution available
Location: Portugal |
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Description:
With Ubiwhere’s Smart Waste Management System, it is simpler to manage the urban waste collection in cities. Through the placement of sensors with low energy consumption and high durability in the traditional trash bins, it is possible to keep tight control on the state of the container, its location and security, thus increasing the effectiveness and efficiency of the waste management teams. |
Partners involved:
EDM Tech |
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More details:
Smart Waste main features are the following:
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Next Steps:
Deploy more smart containers for SMART PAYT in Portuguese cities. |
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| Name | Provider | Domains | Status | ||||||||
| Urban Platform |
Ubiwhere
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Air Pollution in Urban Regions, Collecting Data, IoT solutions crisis management |
Solution available
Location: Portugal, Spain, Finland, Belgium, |
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Description:
Ubiwhere’s flagship product for Smart Cities, an interoperable cloud platform for sustainability and to improve quality of life in smart communities. |
Partners involved:
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More details:
The Urban Platform was created by Ubiwhere to address cities’ daily challenges and truly prepared them for the future. Easy, intuitive and comprehensive, it offers a global and integrated view of the city to Municipalities, authorities and service providers, displaying information on its several verticals, from mobility and energy to air quality and sustainability. With the new service of atmospheric monitoring, Urban Platform offers cities valuable indicators for more efficient management of services (on the scope of Mobility, for instance), with direct impact over air quality, so they can be aligned with the European and international metrics for sustainable development (such as the UN’s Sustainable Development Goals) and focus on improving the quality of life of its citizens through a clean and safe air. 
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Next Steps:
Open-source contributions, AI developments, new deployments and improvements. |
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| Name | Provider | Domains | Status | ||||||||
| RESPOND-A project |
Vicomtech, RESPOND-A Consortium
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Increasing crisis reaction and crisis preparedness |
Ongoing project
Location: Spain |
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Description:
RESPOND-A is a EU Horizon2020 project that introduces a unique five-tier project architectural structure for best associating modern telecommunications technology with novel practices for First Responders of saving lives, while safeguarding themselves, more effectively and efficiently. The introduced architecture includes Perception, Network, Processing, Comprehension, and User Interface layers, which can be flexibly elaborated to support multiple levels and types of customization, so as, the intended technologies and practices can adapt to any European Environment Agency (EEA)-type disaster scenario. The interrelation of the architectural layers is illustrated below. |
Partners involved:
RESPOND-A Consortium |
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More details:
The products and services that are being developed within the RESPOND-A Consortium are categorized into: a) Augmented and Virtual Reality, b) Sensors, Wearables and Mobile devices, c) Mission Critical Systems, C2 and Communications and d) Robots and Unmanned Vehicles.  In particular, Vicomtech has developed: A) an augmented reality application for dynamic and user-centered First Responders, risks and Points of Interest geolocation representation; B) a Command and Control application providing a Common Operational Picture of information coming from heterogeneous IoT sources through a 3D terrain visualisation. |
Next Steps:
Integrations, improvements and Validations in pilot scenarios. |
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