Control and Monitor Smart Home Systems on an Embedded Pi Platform with Home Assistant Software

Abstract

This project explores the design, implementation, and evaluation of a smart home system utilizing an embedded ESP32 microcontroller and Raspberry Pi 4b platform with Home Assistant software. The system aims to integrate core smart home functionalities, including lighting control, temperature and humidity monitoring, gas detection, and access control. Leveraging the Internet of Things (IoT) and embedded systems technologies, the project7 delivers a scalable and cost-effective solution for automation, security, and energy efficiency. The system comprises six key components: a processing unit, server unit, sensor unit, motor unit, lighting unit, and power unit. These components collectively enable seamless communication and control via MQTT, facilitating real-time monitoring and remote management through a user-friendly interface. Test cases confirm the system's reliability in managing scenarios such as lighting automation, gas detection alerts, and door control. Despite achieving functional objectives, the project identifies limitations such as dependency on local networks, limited security measures, and low fault tolerance. Future development directions include integrating additional sensors, AI-based analytics, enhanced security protocols, and support for global remote access. This work provides valuable insights for designing affordable and efficient smart home systems while establishing a foundation for future innovations in home automation and IoT applications.