Road-user safety during nighttime travel depends heavily on the clear visibility of lane boundaries and guidance markers. Conventional reflectors, including raised pavement markers, often become ineffective in low-light conditions and may require frequent maintenance. This study presents an automatic road-reflector lighting system that utilizes a Light Dependent Resistor (LDR) to monitor ambient illumination and control embedded LED markers. The circuit continuously evaluates surrounding light levels; when illumination drops below a set threshold, the LDR activates a switching mechanism through a transistor, relay, or microcontroller to illuminate the reflector LEDs. When ambient light is adequate, the system automatically switches the LEDs off to conserve power. This approach provides reliable nighttime visibility without manual intervention and is especially useful on poorly lit roads, sharp curves, and remote routes. The system can operate on either a battery or an external power source, enabling installation in areas without stable electrical infrastructure. Tests and simulations indicate that the design can reduce energy use and maintenance demands while offering consistent and enhanced visibility during low-light conditions.
Patil et al. (Fri,) studied this question.