Thesis Abstract

Abstract
The advent of Internet of Things (IoT) technology has revolutionized the way we interact with our surroundings, enabling seamless connectivity and automation in various aspects of our daily lives. In the realm of energy management, IoT presents a promising solution to optimize energy consumption and enhance efficiency in residential applications. This thesis explores the design and development of a smart energy management system tailored for residential use, leveraging the capabilities of IoT technology. The primary objective of this research is to investigate the feasibility and effectiveness of implementing IoT-based solutions to monitor and control energy usage in residential settings. Through a comprehensive literature review, the study explores existing technologies, methodologies, and best practices in energy management, IoT, and smart home systems. The review reveals a gap in the current research landscape, emphasizing the need for a tailored approach to address the unique challenges and requirements of residential energy management. The research methodology encompasses the design, development, and implementation of a prototype smart energy management system, integrating IoT devices, sensors, and data analytics tools. The system aims to provide real-time monitoring of energy consumption, automate energy-intensive tasks, and optimize energy usage based on user preferences and environmental factors. The study evaluates the performance and usability of the system through practical experiments and user feedback, highlighting its potential benefits and limitations. The findings of this research showcase the capabilities of IoT technology in transforming traditional energy management practices in residential environments. The smart energy management system demonstrates enhanced efficiency, cost savings, and environmental sustainability through optimized energy usage and intelligent automation. The study also identifies key challenges such as data privacy, security, interoperability, and user acceptance, which need to be addressed for widespread adoption of IoT-based energy management solutions. In conclusion, the thesis underscores the significance of integrating IoT technology into energy management systems for residential applications, showcasing its potential to revolutionize the way we consume and conserve energy in our homes. The research contributes to the growing body of knowledge in IoT-enabled energy management and offers valuable insights for researchers, practitioners, and policymakers seeking to leverage technology for sustainable living. Keywords Internet of Things (IoT), Energy Management, Smart Home, Residential Applications, Sustainability, Automation.

Thesis Overview