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Ítem A comprehensive review of smart energy management systems for photovoltaic power generation utilizing the internet of things(KeAi chinese roots global impact, 2025-04-25) Rao, Challa Krishna; Sahoo, Sarat Kumar; Yanine, FernandoRenewable energy represents the most reliable and widely recognized solution for meeting the escalating global energy demands. The optimization of solar energy generation necessitates a strong focus on predictive maintenance and advanced deployment methodologies. To enhance solar power utilization, Internet of Things enabled solar monitoring systems have been proposed for real-time data acquisition and analytics, facilitating performance forecasting and ensuring consistent power output. A critical challenge in demand-side energy management lies in optimizing the integration of renewable resources while maintaining cost efficiency and minimizing energy losses. Therefore, strategic planning for the integration of renewable energy sources is imperative. Intelligent energy management systems play a pivotal role in optimizing energy distribution, particularly in scenarios with high grid dependency. Cloud computing infrastructures address the complexities and scalability challenges posed by expanding smart grids, enabling real-time data processing and adaptive energy control mechanisms. This study explores the practical implementation of energy management system in industrial settings and research domains, both of which serve as key stakeholders in advancing smart energy solutions. A comprehensive review of internet of things applications in photovoltaic power generation highlights key research objectives and technological developments in the field. The evolving landscape of internet of things driven innovations presents numerous research opportunities, including the formulation of performance evaluation metrics and the development of novel optimization techniques. Additionally, the growing emphasis on energy management within intelligent architectural frameworks underscores the necessity for deeper investigations into adaptive control strategies and system interoperability. This ongoing research is essential for driving advancements in internet of things enabled energy solutions and enhancing the efficiency of smart grid ecosystems.Ítem A review of IoT-based smart energy solutions for photovoltaic systems(Springer Nature, 2025-08-11) Rao, Challa Krishna; Sahoo, Sarat Kumar; Yanine, FernandoHarnessing renewable energy stands out as the most reliable and widely accepted method to address the surging global energy needs. In particular, advancing solar energy systems requires focused efforts in operational upkeep and practical deployment. To optimize solar output, Internet of Things enabled monitoring frameworks have been introduced, enabling data collection and analysis for performance evaluation and consistent energy delivery. A core obstacle in managing energy from the consumer side lies in leveraging green power sources efficiently while keeping expenses in check and avoiding excessive energy usage. As a result, thoughtful planning is essential when integrating alternative energy technologies. Smart energy systems critically optimize consumption amid growing grid reliance. Cloud computing resolves challenges and unlocks opportunities in modern power networks. This work examines energy coordination tools' dual role in industrial operations and academic research, demonstrating their synergistic value in advancing energy efficiency and grid resilience through technological and theoretical innovation. The investigation covers comprehensive evaluations of IoT’s role in solar power generation. Emerging IoT developments open new pathways for scholarly exploration, including the formulation of evaluation standards and the pursuit of novel improvement strategies. Furthermore, deeper investigations into intelligent energy systems within smart infrastructures are increasingly necessary. Such efforts are critical for enriching the knowledge base of IoT-driven solutions and promoting steady technological progress. Articulo WoS y SCOPUS Q2 El aprovechamiento de las energías renovables destaca como el método más fiable y ampliamente aceptado para hacer frente al creciente demanda energética mundial. En particular, el avance de los sistemas de energía solar requiere esfuerzos específicos en el mantenimiento operativo y la implementación práctica. Para optimizar la producción solar, se han introducido marcos de supervisión habilitados para el Internet de las cosas, que permiten la recopilación y el análisis de datos para la evaluación del rendimiento y el suministro constante de energía. Uno de los principales obstáculos en la gestión de la energía desde el lado del consumidor radica en aprovechar las fuentes de energía verde de manera eficiente, al tiempo que se controlan los gastos y se evita el uso excesivo de energía. Por lo tanto, es esencial una planificación cuidadosa a la hora de integrar tecnologías de energía alternativa. Los sistemas energéticos inteligentes optimizan de manera crítica el consumo en medio de una creciente dependencia de la red eléctrica. La computación en la nube resuelve los retos y abre nuevas oportunidades en las redes eléctricas modernas. Este trabajo examina la doble función de las herramientas de coordinación energética en las operaciones industriales y la investigación académica, demostrando su valor sinérgico en la promoción de la eficiencia energética y la resiliencia de la red eléctrica a través de la innovación tecnológica y teórica. La investigación abarca evaluaciones exhaustivas del papel del IoT en la generación de energía solar. Los nuevos avances en el IoT abren nuevas vías para la exploración académica, incluida la formulación de normas de evaluación y la búsqueda de nuevas estrategias de mejora. Además, cada vez es más necesario profundizar en la investigación de los sistemas energéticos inteligentes dentro de las infraestructuras inteligentes. Estos esfuerzos son fundamentales para enriquecer la base de conocimientos de las soluciones impulsadas por el IoT y promover un progreso tecnológico constante.Ítem Development of a smart cloud-based monitoring system for solar photovoltaic energy generation(KeAi chinese roots global impact, 2025-04-01) Rao, Challa Krishna; Sahoo, Sarat Kumar; Yanine, FernandoThe main controllers overseeing both solar panels and loads have all panels connected with sensors. The radiation striking the solar cell determines the power produced and real-time monitoring is crucial to evaluating the performance of a solar photovoltaic system. The emerging Internet of Things provides an opportunity to significantly enhance the monitoring of solar energy output and plant operations. To achieve this, a remote monitoring system is necessary, utilizing the Internet of Things to gather and transmit data. This study aims to utilize the Internet of the Things to monitor solar photovoltaic systems and assess their effectiveness. The monitoring system includes components such as a data gateway, data collection, and presentation for a cloud application. The collected data were stored in the cloud, enabling a visual representation of the sensed parameters. The system achieved a better accuracy rate, with an average transmission time of 53.01 s. The results indicate that the recommended monitoring system allowed users to observe current, voltage, and daylight, which could serve as a viable substitute for smart monitoring of solar energy output and plant operations.