Figure - available from: Wireless Personal Communications
This content is subject to copyright. Terms and conditions apply.
Source publication
In this project, an architecture is implemented that can monitor and assist users in calculating their energy consumption by means of IoT technologies. It is necessary to create a system to improve and help the user in their consumption-based planning due to advances in technology. This implementation can be achieved with the use of IoT (Internet o...
Similar publications
![Fig. 1 The IoT system basic architecture [41]](profile/Everton-Cavalcante-2/publication/366350803/figure/fig1/AS:11431281113021873@1673639219375/The-IoT-system-basic-architecture-41_Q320.jpg)
The Internet of Things (IoT) is characterized by a myriad of physical deices, together with high heterogeneity in both software and hardware. Middleware platforms have been proposed in order to alleviate such heterogeneity, providing relevant services and easing application development. In IoT systems, energy consumption is a key concern due to the...
Citations
... The intelligent lighting control system, the core of natural lighting design, uses light sensors and advanced control systems to monitor the indoor and outdoor light intensity in real time and accordingly adjust the angle of window shading devices or blinds. When the outdoor light is bright, the shading devices adjust timely to allow natural light to gently fill the room; when the light is too strong, the system reacts quickly to prevent glare from affecting the indoor environment [9]. Roof and atrium lighting design are other highlights of intelligent natural lighting design. ...
In today's context, energy conservation, emissions reduction, and sustainable development are highly prioritized, and the architectural industry must recognize the value of intelligent buildings to maintain stable growth amidst fierce competition. Intelligent design not only enhances the energy efficiency of buildings, achieving energy savings and emissions reductions, but also significantly improves their safety and convenience, providing a more comfortable living environment for residents. Moreover, it is a key force driving technological innovation in the architecture industry, leading it towards more efficient, environmentally friendly, and sustainable development. In terms of application principles, intelligent architectural design emphasizes coordination, integrity, and flexibility. It requires considering the harmonious unity between architecture and the environment, ecosystems, and human needs during the design process, treating the building as an integrated system, and focusing on the flexibility and adjustability of the design to accommodate potential future changes. In specific applications, intelligent designs for natural lighting, ventilation, and electrical systems are important manifestations of intelligent architectural design. These applications, through intelligent control systems and devices, achieve efficient management and adjustment of the building environment, thereby enhancing the building's energy efficiency and contributing to sustainable development.
... However, many studies have also investigated the implementation of smart home technologies to meet the requirements of older people, including features like activity recognition to improve their quality of life [4], [5]. Furthermore, other findings from previous research have shown that the incorporation of smart home technologies has played a key role in enhancing energy efficiency by offering a range of solutions such as smart home energy management systems [6], [7], energy-monitoring platforms [8], [9], and smart grids [10]. ...
... The integration of smart technologies in buildings, facilitated by the Internet of Things (IoT), as highlighted by 8 , plays a pivotal role in enhancing user comfort and overall technological features. Smart homes, equipped with technologies for customized services 8 , are recommended for monitoring energy consumption and improving efficiency through computational intelligence solutions. ...
... The integration of smart technologies in buildings, facilitated by the Internet of Things (IoT), as highlighted by 8 , plays a pivotal role in enhancing user comfort and overall technological features. Smart homes, equipped with technologies for customized services 8 , are recommended for monitoring energy consumption and improving efficiency through computational intelligence solutions. Various functions, including Energy Use Control (EUC), Energy Performance Analysis (EPA), Energy Consumption Monitoring (ECM), and Energy Demand Forecasting (EDF), contribute to managing energy use 9 . ...
A new technology called smart energy management makes use of IoT concepts to enhance energy efficiency and lower waste in structures. The goal of this study is to comprehend how household energy management knowledge affects energy usage, user behavior, related expenses, and environmental effect. Through a survey of 100 valid replies in Palestine, the research model assessed the knowledge and consumption habits of building occupants. Smart PLS software was used to analyze the research model using partial least squares structural equation modeling (PLS-SEM). Using path coefficients and behavior as a mediating variable, the structural model connected the latent variables. The mediation hypotheses were tested using the Preacher and Hayes method, and the indirect effect and confidence intervals were estimated and calculated using bootstrapping. The findings demonstrated that by lowering energy use and enhancing overall building performance, residential buildings that implement smart energy consumption management systems may move toward a more sustainable future. Furthermore, the study found that education and awareness campaigns are necessary to increase residents’ knowledge of these systems to promote energy savings. The results also indicated statistically significant indirect effects, supporting the existence of mediation of the behavior construct. Path coefficient values and P-values were presented to further support the study’s hypotheses. Such smart energy management systems represent an important innovation in building management and can help create more sustainable and efficient buildings.
... Regarding the first, existing research is mostly focused on tools or methodologies to assess and encourage the energy-saving potential of users' behavior [152,153]. Overall, a controversial role for technology emerges in energy savings. Overall, ICT, smart meters, apps and home energy management systems (HEMSs) drive users to save energy either automatically or by encouraging them to change their behavior [154]. ...
The recent literature emphasizes the significance of occupants' behavior in shaping home energy demand. Several policies have been defined and tools and technologies have been developed to raise people's awareness and encourage energy-saving practices at home, but households' energy demand keeps rising. The thesis is that the fundamentals on this topic are still unclear and that available tools, strategies and measures should be approached in a more integrated way, as they are not now effective enough to encourage energy savings. How these could be successfully combined is still a major knowledge gap. Thus, this article proposes a critical review of the literature to discuss the potential role of end users in energy conservation at home, preparing the ground for truly effective engagement strategies and tools to encourage behavioral change. To that end, a systematic literature review is performed, including over 130 relevant articles. According to the critical interpretation of their content, after years of technologically driven strategies, the most promising approaches capable of overcoming the intention-action gap are those more user-centered. However, relying solely on the social aspect is not effective. Synergistic integration of the two main clusters of studies has been identified as a promising field of research for the future.
... Through the intelligent analysis of the video information collected by the front-end camera, it automatically collects and classifies the abnormal behavior and events and linkage alarm. At the same time, the background can see the analysis data and record videos in real time, and video extraction and forensics can be carried out through event retrieval [3]. One of the biggest advantages of the system is that it can identify and monitor different behavior patterns of multiple targets in the same scene at the same time. ...
In order to solve the problems of inaccurate information collection, incomplete information collection, and inconsistency of collected images in traditional sports injury collection methods, an application method of moving target information perception technology in intelligent supervision system is proposed. By judging and analyzing the potential motion damage posture of the motion posture intelligent tracking images, the collected motion intelligence tracking images are judged. The intelligent tracking image matrix can make up for the shortcomings of traditional images that are not connected, complete the identification, detect potential damage in time, and take targeted preventive measures and means. Finally, according to the target detection algorithm and target tracking algorithm, combined with OpenCV computer vision library and QT image library, an intelligent video surveillance target tracking simulation system is developed. The algorithm studied in this paper is to realize the target tracking function of the intelligent video surveillance system. Through the comparison of experimental results, the design method can accurately collect damage attitude information, without calculating continuous values, and the use of three-dimensional images in the positioning process can analyze the damage attitude from multiple angles.
