Development and Performance Evaluation of a GNSS-Based Speed Monitoring and Limiting Device Using the House of Quality Approach

In Nigeria, over-speeding remains one of the leading causes of road accidents, despite existing regulations mandating the installation of speed limiting devices in commercial vehicles. The high cost and limited availability of these devices have significantly hindered widespread adoption. This study focuses on the development and performance evaluation of a cost-effective and reliable Global Navigation Satellite System (GNSS)-based speed monitoring and limiting device using the House of Quality (HoQ) sustainability approach. The HoQ framework was employed to align user needs with technical requirements by utilizing structured questionnaires to gather insights from drivers regarding their preferences, experiences, and compliance behaviour. Sound alerts, location tracking, and real-time speed displays were among the most requested features and were integrated into the system design. The device comprises a microcontroller (ATmega328P), GNSS/GPS module, LCD screen, sound buzzer, relay switch, and power regulation components. It operates by detecting vehicle speed via GNSS data, alerting the driver through sound when the speed exceeds a preset limit, and controlling the engine power using a relay switch to ensure compliance. Comparative testing was conducted on 45 vehicles (tricycles, cars, and trucks) across Benin City and Uyo, Nigeria. Speed readings from the developed device were compared against both conventional speed detection devices and the actual speed readings from vehicle dashboards. The results revealed negligible average errors of 0.91%, 0.43%, and 0.24% for tricycles, cars, and trucks, respectively, affirming the accuracy of the device. Statistical analysis using Tukey pairwise, Fisher LSD, and Dunnett multiple comparisons confirmed no significant differences (p > 0.05) between speed readings from the developed device, conventional devices, and vehicle dashboards. Furthermore, compliance indices assessed at various speed limits showed higher driver compliance at higher speed thresholds, with 86.67%, 66.67%, and 80% compliance rates at 100 km/h for tricycles, cars, and trucks respectively. These results underscore the practicality and effectiveness of the device in promoting speed compliance and enhancing road safety. The system provides a promising, low-cost solution to speed regulation, particularly suitable for adoption in developing countries like Nigeria where affordability and simplicity are critical.