Cities in the 21st century play a major role in the sustainability and climate impact reduction challenges set by the European agenda. As the population of cities grows and their environmental impact becomes more evident, the European strategy aims to reduce greenhouse gas emissions—the main cause of climate change. Measures to reduce the impact of climate change include reducing energy consumption, improving mobility, harnessing resources and renewable energies, integrating nature-based solutions and efficiently managing infrastructure. The monitoring and control of all this activity is essential for its proper functioning. In this context, Information and Communication Technology (ICT) plays a key role in the digitisation, monitoring, and managing of these different verticals. Urban data platforms support cities on extracting Key Performance Indicators (KPI) in their efforts to make better decisions. Cities must be transformed by applying efficient urban planning measures and taking into account not only technological aspects, but also by applying a holistic vision in building solutions where citizens are at the centre. In addition, standardisation of platforms where applications are integrated as one is necessary. This requires interoperability between different verticals. This article presents the information platform developed for the city of Vitoria-Gasteiz in Spain. The platform is based on the UNE 178104 standard to provide a holistic architecture that integrates information from the different urban planning measures implemented in the city. The platform was constructed in the context of the SmartEnCity project following the urban transformation strategy established by the city. The article presents the value-added solutions implemented in the platform. These solutions have been developed by applying co-creation techniques in which stakeholders have been involved throughout the process. The platform proposes a step forward towards standardization, harmonises the integration of data from multiple vertical, provides interoperability between services, and simplifies scalability and replicability due to its microservice architecture.
Abstract. Idea Management Systems (IMS) manage the innovation lifecycle from the moment of invention until ideas are implemented in the market. During the lifecycle the IMS supports collaboration, allows idea enrichment with comments, contextual data, or connected to other relevant ideas. Semantic technologies can improve the knowledge management capabilities of IMSs allowing relevant information to be easily linked to ideas.Many Enterprises concerned with sustainability encourage employee's participation as a means to boost creative innovation within their Sustainability Initiatives. However little work has examined the role of an IMS within Sustainability. In this paper we analyse the impact of a semantic-enabled IMS within a sustainability innovation process. In particular, how ideas can be enriched with contextual Linked Open Data (LOD), especially Life-Cycle Assessment (LCA) data, to improve the understanding, implication and value of the idea from the sustainability perspective.
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