The Effects of Predictive Displays on Performance in Driving Tasks with Multi-Second Latency

Tele-operation of a Lunar rover from a control station on Earth involves a latency of several seconds due primarily to the finite speed (light-speed) of command and sensor signals, and this latency creates a difficult control task for the human operator. Two predictive displays, which seek to aid viewer perception of present events, were designed and evaluated for the specific task of driving a rover with multi-second latency. These displays provided visual information to the human operator on the rover’s real-time locomotion, as predicted from control inputs executed by the operator. A human-subject experiment with 12 participants was conducted in which the participants navigated an actual rover through obstacle courses. There were four experimental conditions repeated by each participant: (1) delayed video feed only, (2, 3) two predictive displays based on delayed video feed, and (4) a reference condition of video feed with no delay. Inferential statistics show that both predictive displays significantly improved performance in terms of time taken to complete the courses, and one of the displays facilitated performance approaching that with no delay. No trends were observed in terms of collisions with or encroachments near obstacles.