![]() īrenden, R.K., Hallaj, W., Subramanian, G., Katoch, S.: Wind energy roadmap. Ĭalvillo, C.F., Sánchez-Miralles, A., Villar, J.: Energy management and planning in smart cities. In: Camarinha-Matos, L.M., Boucher, X., Afsarmanesh, H. Méndez, J.I., Ponce, P., Peffer, T., Meier, A., Molina, A.: A gamified HMI as a response for implementing a smart-sustainable university campus. In: 2021 IEEE European Technology and Engineering Management Summit (E-TEMS). Mendez, J.I., Ponce, P., Medina, A., Peffer, T., Meier, A., Molina, A.: A smooth and accepted transition to the future of cities based on the standard ISO 37120, Artificial Intelligence, and gamification constructors. (eds.) Multimedia for Accessible Human Computer Interfaces, pp. Méndez, J.I., et al.: Human–machine interfaces for socially connected devices: From smart households to smart cities. In: 2021 IEEE European Technology and Engineering Management Summit (E-TEMS), pp. Ponce, P., Mendez, J.I., Medina, A., Mata, O., Meier, A., Peffer, T., Molina, A.: Smart cities using social cyber-physical systems driven by education. (eds.): Smart Cities: Issues and Challenges. The City of Copenhagen: The CPH 2025 Climate Plan | Urban Development. Shorris, A.: The Plan for a Strong and Just City, p. Thellufsen, J.Z., et al.: Smart energy cities in a 100% renewable energy context. IEA-ETSAP, IRENA: Renewable Energy Integration in Power Grids (2015)īarbière, C.: 700 cities promise renewable energy transition by 2050. Additionally, a gamified platform was deployed to teach the Campus community the differences between these grids and how each picogrid had different consumption. ![]() The building considers three groups: specialized laboratories, computer rooms, and classrooms. Besides, a solar photovoltaic array was analyzed to understand the energy consumption and its interaction with the Campus microgrid. Therefore, this paper presents a microgrid, nanogrid, and picogrid integration using a building facility at Tecnologico de Monterrey, Mexico City Campus. ![]() In addition, the internet of things (IoT) applications provide advanced monitoring and control in the smart grid in case of an outage or disturbances. Thus, smart grids require including new distributed entities that have not existed previously, such as picogrids, nanogrids, and microgrids. Furthermore, research suggests including social interaction between the inhabitants and the smart grid through interfaces with game elements that motivate and educate individuals about the smart grid. Integrating renewable energy into the electric power system is also challenging due to the intermittency and security of supply a solution to this challenge is a decentralized system, which integrates renewable energies, reduces fossil fuel usage, and increases eco-efficiency. Energy plays a leading role in smart cities, as most of our everyday activities and environment are related to energy sources. Deploying a smart city is becoming a trend toward achieving sustainability and enabling a better lifestyle for its inhabitants. ![]()
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