An Integrated Home Monitoring System of a Scalable IoT Architecture Using UDP and TCP Connections

Dogan, Mert and Gjertsen, Toby and James, Noel and Anicho, Ogbonnaya and Secco, Emanuele Lindo (2025) An Integrated Home Monitoring System of a Scalable IoT Architecture Using UDP and TCP Connections. Journal of Intelligent Communication. ISSN 2754-5792 (Accepted for Publication)

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Abstract

The advancement of the Internet of Things (IoT) provides a set of new possibilities and challenges within the Industrial and Manufacturing environments, as well as into the Private Sector and daily life in our houses. In this context it is important to design and provide an IoT integrated system with scalable architecture while maintaining a set of competitive costs and performance. This paper presents the development of an IoT-based Smart Home Temperature and Humidity Monitoring System. The proposed architecture aims to demonstrate core IoT principles such as real-time data collection, remote device control, and scalable architecture using Arduino Uno R4 Wi-Fi and ESP32 microcontrollers. The system successfully simulated appliance control - e.g., radiators, extractor fans - via LEDs and basic actuators, combined with a mobile application providing real-time environmental data - e.g., temperature, humidity, Carbon Monoxide (CO) levels - and remote-control functionality. Challenges included hardware compatibility, power management, and software integration, with further work on security features (i.e. cryptography algorithms) and cloud integration.

Item Type: Article
Faculty / Department: Faculty of Human and Digital Sciences > School of Computer Science and the Environment
Depositing User: Emanuele Secco
Date Deposited: 24 Jul 2025 13:59
Last Modified: 24 Jul 2025 13:59
URI: https://hira.hope.ac.uk/id/eprint/4719

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