The Universal Accessibility Suite represents a groundbreaking initiative that aims to revolutionize the accessibility and inclusivity of smart buildings and smart cities. By leveraging advanced technologies and innovative solutions like AI, BIM and GIS, AccesS aims to create barrier-free environments, facilitate smooth mobility, and enable equal access to essential services and facilities. AccesS aspires to deliver innovations supporting accessible and inclusive design by providing advanced analytics for life-cycle assessments, optimizing energy, environmental, and user comfort aspects, incorporating simulation-based testing and compliance with accessibility guidelines for designing user-friendly and safe products and built environments. The project aims also to explore the relationship between comfort and energy consumption to promote sustainable practices and incorporates virtual user models and simulation environments. Furthermore, AccesS aspires to deliver innovations supporting inclusive, adaptive and sustainable operation of the built environment in order to optimize building operations in an adaptive manner depending on the needs of its users and addresses e-mobility and micro-mobility to facilitate accessible and inclusive transportation options. A particularly important aspect is the development of an Accessibility Assessment Scheme to define clear and measurable criteria, guidelines, and performance indicators for assessing accessibility. The demonstrators have been grouped under 6 case studies, focused on 3 different types of buildings/ uses (cultural heritage buildings, people care facilities, public services buildings) and in 5 different locations in 5 European Smart Cities (Bulgaria, Italy, Spain, Netherlands and Switzerland) in order to maximize impact and address numerous real-life situations. 22 partners from 9 European countries will collaborate and provide their expertise and resources within the 36 months of AccesS lifetime.

The modern manufacturing landscape is undergoing a transformative twin transition, integrating green and digital technologies to bolster value chain resilience and explore re-shoring options. Amidst this paradigm shift, concerns about job displacement by machines, particularly through the rise of Artificial Intelligence (AI) and Machine Learning (ML), have become more pronounced. This proposal delves into the challenges posed by the pursuit of excellence in the Industry 5.0 framework, focusing on the potential impact of digital technologies on job nature and the ensuing need for human-technology complementarity. The potential for AI to exacerbate social disparities and inequalities, especially for vulnerable groups, is also a significant concern. Additionally, the manufacturing sector faces labor shortages, impacting innovation capacity and economic competitiveness. The mission of SKillAIbility is to address these challenges, emphasizing the need for a human-centric approach to assess digital technologies and enhance workers' employability. The proposal also outlines the short, medium, and long-term contributions of SKillAIbility towards a resilient, inclusive, digital transition in the manufacturing industry. This initiative provides tools and methodologies to understand and respond to the impacts of emerging digital technology advancements on human tasks, skills, training, and policymaking. SKillAIbility's holistic impact spans various societal, industrial, academic, and regulatory dimensions, affecting citizens, people with disabilities, workers, trade unions, industry players, research institutions, and governmental bodies. Through upskilling and reskilling initiatives, SKillAIbility aims to empower citizens and workers, mitigate the risk of task automatization, and increase employability within the advanced manufacturing sector. Furthermore, the proposal contributes to the manufacturing industry's growth by filling skills gaps, increasing performance and pro

Nowadays any communication barrier is detrimental to society. This project will research and develop the SignON communication service that uses machine translation to translate between Sign and spoken languages. This service will facilitate the exchange of information among deaf and hard of hearing, and hearing individuals. In this user-centric and community-driven project we will tightly collaborate with European deaf and hard of hearing communities to (re)define use-cases, co-design and co-develop the SignON service and application, assess the quality and validate their acceptance. Our ultimate objective is the fair, unbiased and inclusive spread of information and digital content in European society. Our project will develop a free, open application and framework for conversion between video (capturing and understanding Sign language), audio and text and translation between Sign and spoken languages. To facilitate these tasks we propose a common representation for mapping of video, audio and text into a unified space, that will be used for translating into the target modality and language. To ensure wide uptake, improved sign language detection and synthesis, as well as multilingual speech processing on mobile devices for everyone, we will deploy the SignON service as a smart phone application running on standard modern devices. We envisage the application as a light-weight interface. The SignON framework, however, will be distributed on the cloud where the computationally intensive tasks will be executed.The project will be driven by a focused set of use-cases tailored towards the deaf communities. We target the Irish, British, Dutch, Flemish and Spanish Sign and English, Irish, Dutch, Spanish spoken languages. However, SignON will incorporate sophisticated machine learning capabilities that will allow (i) learning new Sign, written and spoken languages; (ii) style-, domain- and user-adaptation and (iii) automatic error correction, based on user feedback

The NEXES Research and Innovation Action aims to research, test and validate the promising integration of IP-based communication technologies and interoperability into the next generation emergency services, so that they attain increased effectiveness and performance. Empowered by smartphones with cameras, messaging and internet-based applications connecting to social media, citizens expect emergency services to use the same technologies. However, this is not the case. NEXES innovates the approach to the dynamics between emergency services and citizens, allowing (i) the use of total conversation capabilities in emergencies, including social media, to the benefit of citizens, including those with disability or special needs (ii) the exploitation of improved location information to rapidly and effectively identify and locate the caller and the incident site and (iii) the leverage of Internet-enabled connectivity to enhance interoperability and shared awareness among emergency services, to the benefit of a more secure society. The NEXES Consortium gathers world-class European entities, well experienced in the research and development of innovative solutions for communications and emergency products and solutions. The NEXES Team presents extensive background knowledge and in-house solutions to adapt, test and validate in NEXES’s open Testing Regime and Validation Framework, ensuring solid results are achieved to produce relevant Recommendations and contributions to Europe’s standardisation effort on emergency services. To leverage related dissemination and market exploitation activities, the NEXES System, Apps and its operational benefits are demonstrated in three realistic pilots to end-users and stakeholders. In fact, end-users’ involvement, directly ensured by NEXES Partners and indirectly by invited Advisors, is a key contributor to guarantee NEXES’s operational validity as a reference implementation system for next generation emergency services.