Technologies for safety helmet detection on motorcycles

Abstract

Motorcycle-related accidents are a major contributor to road traffic fatalities worldwide. Wearing helmets significantly reduces the risk of severe injuries and fatalities, yet compliance remains low in many regions. Helmets serve as a critical safety device, mitigating head injuries and saving lives in the event of accidents. Despite strict helmet laws in many countries, enforcement remains challenging, particularly in densely populated or rural areas where manual monitoring is difficult to sustain.The detection of inappropriate helmet use, such as wearing non-standard helmets or improperly fastened helmets, is equally critical. These issues compromise the protective benefits of helmets, underscoring the need for reliable detection systems. Traditional manual monitoring is labor-intensive and prone to human error, necessitating the adoption of automated systems. Such systems not only enhance enforcement efficiency but also act as a deterrent, promoting safer riding practices. Moreover, real-time detection of helmet usage can provide actionable data for policymakers to identify high-risk areas and devise targeted interventions.Numerous technologies and methodologies have been developed in recent years to automate helmet detection, leveraging advances in computer vision, artificial intelligence, and embedded systems. Image processing techniques have laid the groundwork for helmet detection by identifying color, shape, and texture features. Machine learning and deep learning approaches have further revolutionized this domain by enabling high-accuracy detection under varying conditions, such as different lighting, occlusions, and diverse helmet designs. These advancements have paved the way for scalable, real-time systems capable of integration with existing traffic monitoring infrastructure. This review explores the technological advancements in this domain, focusing on their technical underpinnings and real-world applications. It presents a comprehensive overview of existing technologies, emphasizing their underlying principles, advantages, limitations, and potential future directions.

Keywords: Safety, Monitoring, BLE, Kalman Filtering

DOI: 10.54941/ahfe1006727