Effort exertion in cycling can be influenced by the speed of the optic flow to which individuals are exposed. The present study tested whether gazing toward proximal (e.g., the road in front) versus distal areas (e.g., the horizon ahead) would influence cycling effort. We expected that gazing toward proximal areas would generate a feeling of “momentum” and thereby increase cycling efforts. Twenty-eight cyclists completed two 20-minute trials on their bicycle in a VR environment, aiming to outperform the power output they exerted during a baseline trial. Their gaze direction was guided through a virtual frame, either aimed at the road immediately in front of the cyclist (proximal) or at the horizon (distal), in counterbalanced order. A repeated measures ANCOVA, with baseline power as a covariate, showed no significant difference in exerted effort between the proximal and distal conditions, and no significant interaction effect between condition and baseline power. This finding is not in accordance with previous research, in which occlusions of proximal and distal areas of the visual field did influence cycling efforts. Taken together, the results suggest the importance of peripheral vision in speed perception, which may influence cycling effort. (from the paper's ABSTRACT)

Description of data files:

Dataset gaze direction and cycling effort.sav: dataset for statistical analyses Dataset RM Cor.csv: dataset for repeated measures correlation analyses 201N.xlsx to 232N.xlsx: power output of each participant throughout the baseline trial 201D.xlsx to 232D.xlsx: power output of each participant throughout the distal trial 201P.xlsx to 232P.xlsx: power output of each participant throughout the proximal trial 201N_Gaze.xlsx to 232N_Gaze.xlsx: gaze coordinates of each participant throughout the baseline trial 201D_Gaze.xlsx to 232D_Gaze.xlsx: gaze coordinates of each participant throughout the distal trial 201P_Gaze.xlsx to 232P_Gaze.xlsx: gaze coordinates of each participant throughout the proximal trial