System Delay in Flight Simulators Impairs Performance and Increases Physiological Workload

Delays between user input and the system's reaction in control tasks have been shown to have a detrimental effect on performance. This is often accompanied by increases in self-reported workload. In the current work, we sought to identify physiological measures that correlate with pilot workload in a conceptual aerial vehicle that suffered from varying time delays between control input and vehicle response. For this purpose, we measured the skin conductance and heart rate variability of 8 participants during flight maneuvers in a fixed-base simulator. Participants were instructed to land a vehicle while compensating for roll disturbances under different conditions of system delay. We found that control error and the self-reported workload increased with increasing time delay. Skin conductance and input behavior also reflect corresponding changes. Our results show that physiological measures are sufficiently robust for evaluating the adverse influence of system delays in a conceptual vehicle model.

[1]  Wildzunas Rm,et al.  Visual display delay effects on pilot performance. , 1996 .

[2]  S. Hart,et al.  Development of NASA-TLX (Task Load Index): Results of Empirical and Theoretical Research , 1988 .

[3]  G. Breithardt,et al.  Heart rate variability: standards of measurement, physiological interpretation and clinical use. Task Force of the European Society of Cardiology and the North American Society of Pacing and Electrophysiology. , 1996 .

[4]  Sandra G. Hart,et al.  NASA Task Load Index (TLX) , 2013 .

[5]  G. Robert J. Hockey,et al.  Level of Operator Control and Changes in Heart Rate Variability during Simulated Flight Maintenance , 1995, Hum. Factors.

[6]  A. R. Perry,et al.  The FlightGear flight simulator , 2004 .

[7]  J D Montagu,et al.  Mechanism and measurement of the galvanic skin response. , 1966, Psychological bulletin.

[8]  Robert S. Allison,et al.  Tolerance of temporal delay in virtual environments , 2001, Proceedings IEEE Virtual Reality 2001.

[9]  Sion Jennings,et al.  Time Delays in Visually Coupled Systems During Flight Test and Simulation , 2004 .

[10]  A. Bond,et al.  CHARACTERISTICS OF GALVANIC SKIN RESPONSE IN ANXIETY STATES , 1975 .

[11]  Philip Perfect,et al.  Development of Handling Qualities Requirements for a Personal Aerial Vehicle , 2012 .

[12]  Chongxun Zheng,et al.  Electroencephalogram and electrocardiograph assessment of mental fatigue in a driving simulator. , 2012, Accident; analysis and prevention.

[13]  Gary E. Riccio,et al.  The Effects of Simulator Delays on the Acquisition of Flight Control Skills: Control of Heading and Altitude , 1987 .