Facial expressions convey rich inward feelings, including both psychological (e.g., cheer, anger, delight, frustration, disgust, fear, and surprise) and physiological (e.g., vitality, fatigue, drowsiness, attention, and distraction) reactions. Humans can easily identify the inward reactions based on facial expressions. A system that can sense the inward feelings of a driver will be of great help for driving safety. To this end, the driver’s face should first be located. In this paper, we focus on a vision-based detection and tracking of the driver’s face in the input video sequence while driving. The major difficulty with the above task is illumination variations resulting from sunshine, shadows, environmental lights, underground passages, overheads, and tunnels. To deal with this difficulty, we develop a process that consists of three steps: reference image selection, illumination variation detection, and lighting compensation. The process keeps eye on the input video sequence in order to maintain to some extent its image quality. The driver’s face is then detected using the Adaboost technique and is tracked using the particle swarm optimization method applied to the resultant video sequence. The proposed technique was shown to work well in a number of experimental video sequences with different conditions of illumination, driver, gender, and wearing. A high face location rate around 98% has been achieved.