Differences in Muscle Activity and Mouse Behavior Data of Graphic Design Workers in Moving and Dragging Tasks with Different Targets

Abstract

Over time, repeated mouse-dragging manipulation may cause discomfort in the upper extremities. This study compared biomechanical parameters, mouse movement data, and the discomfort perception index between 2-min mouse dragging and moving manipulation tasks with higher or normal target objectives. We recruited 20 non-symptomatic graphic design students who frequently engage in intensive mouse-dragging manipulation. We assessed the impact of continued dragging versus non-dragging manipulation using electromyographic data, mouse fingertip pressure data, and mouse trajectory velocity data. We also performed a temporal correlation analysis between EMG, mouse velocity, and fingertip pressure to investigate the relationship between physiological data and mouse movement performance. The study revealed significant differences between the dragging and moving tasks regarding muscle activity, mouse velocity, and fingertip pressure. In particular, the percentage of muscle activation on the right side of the extensor carpi radialis longus (ECR) and the lateral head of the triceps brachii (TB) differed significantly between the two tasks, with higher muscle activation levels during the dragging task. Moreover, the average muscle activation of ECR and TB was significantly higher at high target operation levels. In addition, the study revealed that the horizontal, vertical, and mean mouse velocities were significantly higher for the dragging manipulation in the high target task than for the mouse moving manipulation. In the temporal correlation analysis, the correlation coefficients of muscle activation, fingertip pressure, and mouse mean velocity differed between the two mouse manipulation behaviors, with a higher correlation between muscle activation levels and pressure values during the dragging manipulation.