This project focuses on the failures of conventional emergency response systems, which work manually. The solution uses an IoT-based method with a lot of sensors like, gas sensors and flame sensors, with microcontrollers. The components communicate through a hybrid network with WiFi and cellular protocols to allow the sending of alerts not minding the network structure. There is direct communication between the responders of emergencies and the people who are affected. The Agile methodology supported development in an effort to reveal the main capabilities: automatic detections, hazard alerts, and quick relay alerts. The prototype passed detection and power management under ideal conditions that makes the system operate effectively. Results prove that the solution is not only practical but also cost-effective, it can be used to make emergency response better in a lot of ways, ranging from adult care or disaster response to smart cities.
Lastly, this project demonstrates the game-changing potential of IoT technologies for developing faster, smarter, and even life-saving emergency management systems.
Research Area
Networking: Networking research in Computer Science and Information Technology delves into the fundamental and applied aspects of how computer systems connect and exchange data efficiently. It encompasses a wide range of topics such as network protocols, communication models, wireless and mobile networks, the Internet of Things (IoT), and network security.
One key area of research focuses on network protocols, which define how data is transmitted and received across networks. Protocol optimization is vital for enhancing the efficiency and speed of data transmission. Researchers investigate both wired and wireless communication protocols to improve latency, throughput, and fault tolerance.
Wireless communication is another rapidly evolving field, driven by the demand for mobile connectivity. Research here includes advancements in 5G and 6G technologies, as well as Wi-Fi, Bluetooth, and sensor networks. These technologies enable high-speed, reliable connections for a wide range of devices, from smartphones to embedded systems.
Project Main Objective
To develop a system for IoT-based emergency response will be designed and implemented to detect and respond to fire, medical, and natural disaster emergencies in real-time, for use in the University's various hostels as well as lecture halls
Academic Year
2024/2025
Date Uploaded
Oct 12, 2025
Group Members
Duut Maxwell Yobaat, Logo Redeemer Dela, Mensah Emmanuel Gideon, and Mohammed Ganda Rahmat