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This summary is machine-generated.

Self-driving cars may increase motion sickness, hindering user acceptance and benefits. Designing vehicles to address motion sickness is crucial for widespread adoption and realizing socioeconomic advantages.

Keywords:
AnticipationCarsicknessDesignDisplaysMotion sicknessSensory conflictVehicle automation

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Area of Science:

  • Human-Computer Interaction
  • Automotive Engineering
  • Neuroscience

Background:

  • Self-driving cars promise increased comfort and productivity.
  • However, current designs may exacerbate motion sickness.
  • This could limit user acceptance and socioeconomic benefits.

Purpose of the Study:

  • To analyze the increased risk of motion sickness in self-driving cars.
  • To propose design guidelines for mitigating motion sickness.
  • To highlight the impact of motion sickness on user acceptance and technology adoption.

Main Methods:

  • Review of motion sickness causes in autonomous vehicles.
  • Analysis of potential design flaws leading to sensory conflict.
  • Discussion of aftereffects like postural instability and task performance degradation.

Main Results:

  • Envisioned self-driving car scenarios increase motion sickness risk.
  • Susceptible individuals may be disproportionately affected.
  • Negative aftereffects can impair function and limit adoption.

Conclusions:

  • Motion sickness must be a primary consideration in self-driving car design.
  • Perceptual mechanisms are key to mitigating adverse effects.
  • Designing for motion sickness prevention is vital for technology uptake.