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At our center we are dedicated to the development of technologies to create more sustainable urban spaces through positive energy districts.
Our approach is based on the research of urban platforms based on open specifications, including decision support systems.
These platforms allow us to efficiently integrate and manage city resources and services, promoting sustainability and improving citizens’ quality of life.
In addition, we develop urban indicator systems that help us measure and evaluate progress toward sustainability in different aspects of urban life, such as energy efficiency, mobility, air quality and the use of natural resources.
These indicators provide us with a comprehensive view of the city and allow us to identify areas for improvement and establish strategies for urban transformation.
Our work also focuses on the development of methodologies and tools for the design of urban transformation strategies in cities.
We work in collaboration with local stakeholders, such as municipal authorities and communities, to develop strategic plans that address the challenges of the energy transition in the medium and long term.
These strategies are based on sustainability, efficiency and the integration of clean technologies in urban infrastructure.
In addition, we develop new governance methods that promote citizen participation and collaboration among the different actors involved in urban planning and management.
We seek to establish transparent and efficient processes that enable informed, data-driven decision making by applying advanced machine learning and big data analytics technologies.
Our work addresses various issues related to the creation of more sustainable urban spaces.
Through our strategic plans, we help cities to properly plan the energy transition, setting medium- and long-term goals (2030, 2050) and designing concrete actions to achieve them.
This helps to reduce greenhouse gas emissions, improve energy efficiency and promote the use of clean energy in urban environments.
In addition, through capacity building strategies we encourage the maintenance of this capacity in the local environment
. Furthermore, we encourage the deployment of our solutions as urban platforms, promoting interoperability between different city infrastructures.
This enables integrated management of resources and services, facilitating informed and efficient decision-making.
We apply advanced technologies, such as machine learning and Big Data analysis, to obtain valuable information and optimize city operations.
In the field of urban mobility, we work to develop solutions that promote less environmentally harmful forms of transportation, such as the use of electric vehicles and the promotion of active mobility, such as walking and cycling.
These solutions contribute to reducing emissions of polluting gases and improving air quality in cities.
We also collaborate with municipalities in the preparation of Sustainable Energy and Climate Action Plans (PACES) and Integrated Sustainable Urban Mobility Plans (PIMUS).
These plans establish concrete measures to promote energy efficiency, renewable energy generation and sustainable mobility in municipalities.
We evaluate the effectiveness of these plans and make the necessary adjustments to achieve optimal results.
