Thesis Abstract

**Abstract
** The emergence of Internet of Things (IoT) technology has revolutionized various aspects of daily life, including the way we interact with our living spaces. In this context, the design and implementation of a real-time power monitoring system for smart homes using IoT technology presents an innovative solution to enhance energy efficiency and provide users with valuable insights into their electricity consumption patterns. This thesis explores the development of such a system, focusing on its design, implementation, and evaluation within the context of smart homes. The introduction section provides an overview of the motivation behind the project, highlighting the increasing importance of energy efficiency in modern households. The background of the study delves into existing literature on IoT-based power monitoring systems and their impact on energy conservation. The problem statement identifies the gaps in current power monitoring solutions and the need for a real-time system tailored for smart homes. The objectives of the study outline the specific goals and outcomes that the project aims to achieve, while the limitations of the study acknowledge potential constraints and challenges. The scope of the study defines the boundaries within which the research will be conducted, focusing on the design and implementation of the real-time power monitoring system. The significance of the study emphasizes the potential benefits of the system in promoting energy efficiency, reducing electricity costs, and enhancing user awareness of power consumption habits. The structure of the thesis provides a roadmap for the organization of the research work, outlining the chapters and their respective contents. The literature review chapter presents a comprehensive analysis of existing technologies and methodologies related to power monitoring, IoT applications in smart homes, and energy management systems. The research methodology chapter describes the research design, data collection methods, and analysis techniques employed in the development and evaluation of the power monitoring system. The discussion of findings chapter presents the results of the system implementation, including performance metrics, user feedback, and comparisons with existing solutions. The chapter critically evaluates the effectiveness of the system in achieving its objectives and addresses any limitations or challenges encountered during the research process. Finally, the conclusion and summary chapter provide a concise overview of the key findings, implications of the research, and recommendations for future work. The thesis abstract encapsulates the core elements of the project, highlighting its contribution to the field of IoT technology and energy management in smart homes. In conclusion, the design and implementation of a real-time power monitoring system using IoT technology for smart homes offer a promising solution to enhance energy efficiency, promote sustainable living practices, and empower users to make informed decisions about their electricity consumption. This research contributes to the growing body of knowledge on IoT applications in residential environments and provides a foundation for further advancements in smart home technology and energy management systems.

Thesis Overview

The project titled "Design and Implementation of Real-Time Power Monitoring System Using IoT Technology for Smart Homes" focuses on the development of a sophisticated system that allows homeowners to monitor their power consumption in real-time using Internet of Things (IoT) technology. The aim of this research is to enhance energy efficiency in smart homes by providing users with detailed insights into their electricity usage patterns and enabling them to make informed decisions to reduce energy wastage. This research project will involve the design and implementation of a comprehensive power monitoring system that integrates IoT devices, sensors, and data analytics techniques. The system will collect real-time data on electricity consumption from various appliances and devices within the smart home environment. The collected data will be processed and analyzed to generate meaningful insights, such as identifying high-energy-consuming devices, detecting abnormalities in power usage, and predicting future electricity consumption trends. Key components of the proposed system include IoT-enabled smart plugs or meters for data collection, a central data processing unit for data analysis, and a user-friendly interface for displaying the monitoring results to homeowners. The system will leverage wireless communication protocols to ensure seamless connectivity between devices and enable remote monitoring and control capabilities. By implementing this real-time power monitoring system, homeowners will be empowered to track their energy usage patterns, set energy-saving goals, and receive alerts or recommendations for optimizing their electricity consumption. Ultimately, the research aims to promote sustainable living practices and reduce the environmental impact of residential energy consumption. Overall, this research overview highlights the importance of leveraging IoT technology to develop innovative solutions for energy management in smart homes. The proposed power monitoring system has the potential to revolutionize the way homeowners interact with their energy usage data, leading to more efficient and sustainable living practices.