TABLE 1.
Experimental and practical considerations for sleep inertia countermeasure research.
| Experimental consideration | Practical importance |
| Exercise intensity | Determine the intensity that workers need to exercise upon waking to counter sleep inertia. |
| Exercise duration | Determine if a short duration (<2 min) of exercise can counter sleep inertia. |
| Inclusion of physiological measures (CAR, CBT, CBF, neural activity) | Determine if exercise produces a significant change in physiology upon waking compared to no exercise. |
Sleep conditions:
|
Determine the conditions under which exercise performed upon waking is effective or ineffective in countering sleep inertia. |
| Combination of exercise with other proposed countermeasures (e.g., caffeine) | Determine whether workers should utilize a single or combined strategy to better counter sleep inertia. |
| Inclusion of subjective and objective measures of sleep inertia | Determine the effect of exercise on alertness as perceived (subjective) vs. the impact on tangible performance benefits (objective). |
| Inclusion of measures of subsequent sleep and circadian phase | Determine whether exercise, when used as a sleep inertia countermeasure, impacts workers’ subsequent sleep and circadian phase. |
| Controlling for individual differences (chronotype, age, and sex) | Consider and control for the impact of differences in chronotype, age, and sex on sleep inertia to better determine the effectiveness of exercise as a sleep inertia countermeasure for different individuals. |
| Influence of type of waking | Determine the effectiveness of exercise as a sleep inertia countermeasure when workers are abruptly woken compared to when they are gently woken and when responding to critical events (e.g., emergencies) compared to when responding to non-critical events (e.g., false alarms). |
CAR = cortisol awakening response, CBT = core body temperature, and CBF = cerebral blood flow.