Dual core
A dual core schedule is simply a sleep schedule with two core sleeps and zero or more naps.
Mechanism
Generally, the first sleep is taken around dusk (i.e. starting ~19-23) to take advantage of increased likelihood of slow-wave sleep (SWS) due to melatonin secretion around this time, meanwhile the second sleep is generally taken around dawn (i.e. starting ~4-8) to take advantage of increased likelihood of rapid eye movement (REM) sleep[1][2][3].
Some individuals may be natural segmented, siesta, or DC1 sleepers, given that an individual's sleep may become bifurcated when undisturbed[4], particularly with a lack of artificial lighting during the evening, and that non-industrial societies[5][6] or non-electric societies[7] tend to have a biphasic sleeping pattern with an elective nap in the afternoon.
Dual core schedules
Segmented and siesta, along with Everyman 1 (a single core sleep schedule), tend to have high success rates within the polyphasic community.[8]
Segmented
Segmented sleep, sometimes denoted as DC0 (dual core with zero naps), has one core sleep generally around dusk and one core sleep generally around dawn a few hours after the end of the dusk core. Segmented sleep tends to have around 6-8 hours of total sleep time.
Siesta
Siesta sleep generally consists of a long core at night and a shorter core (siesta nap) midday. Siesta sleep tends to have around 6-8 hours of total sleep time.
Since Siesta depends on a different mechanism than the more relatively standard dual core schedules like Segmented or DC1, it may be contended whether Siesta is a dual core schedule.
Dual core 1
Dual core 1, usually denoted as DC1, has a nap in addition to the two cores. This nap allows polyphasic enthusiasts to decrease total sleep time. A sustainable DC1 schedule tends to have 5h20m-7h total sleep time.
Dual core 2
Dual core 2, usually denoted as DC2, is the logical successor of DC1, having one core around dusk, one core around dawn, and two naps. A sustainable DC2 tends to have 5h-5h30m total sleep time.
Dual core 3
Dual core 3, usually denoted as DC3, is the logical successor of DC1, having one short core around dusk, one short core around dawn, and three naps. The total sleep time of DC3 is generally 4h.
Dual core 4
Dual core 4, usually denoted as DC4, has two short cores at night and four naps. The total sleep time of DC4 is generally 4h20m. This schedule is often used as a means for gradual adaptation to Uberman, but so far no successful attempts has been known with this approach.
DUCAMAYL
DUCAMAYL, an acronym for "dual core as much as you like" is a variant of SPAMAYL that includes two core sleeps, generally at dusk and dawn. The idea is to adapt to a general dual core sleep schedule, one in which the individual learns the flexibility to move around start & end times of their cores & nap(s). The total sleep varies broadly, though is generally 5h30m to 7h.
Bimaxion
Bimaxion is a strict schedule that combines elements of DC2 and Dymaxion (an experimental nap-only schedule), designed as a transitional schedule with Dymaxion in mind. The total sleep time is 4h.
References
- ↑ Feinberg, I., and T. C. Floyd. "Systematic trends across the night in human sleep cycles." Psychophysiology 16.3 (1979): 283-291.
- ↑ Weber, Franz. "Modeling the mammalian sleep cycle." Current opinion in neurobiology 46 (2017): 68-75.
- ↑ Duncan, Wallace C., et al. "A biphasic daily pattern of slow wave activity during a two-day 90 minute sleep wake schedule." Archives italiennes de biologie 147.4 (2009): 117-130. Available here as of 25 Nov 2020.
- ↑ Wehr, Thomas A. "In short photoperiods, human sleep is biphasic." Journal of Sleep Research 1.2 (1992): 103-107. Available here as of 25 Nov 2020.
- ↑ Yetish, Gandhi, et al. "Natural sleep and its seasonal variations in three pre-industrial societies." Current Biology 25.21 (2015): 2862-2868.
- ↑ Ekirch, A. Roger. "Segmented sleep in preindustrial societies." (2016): 715-716. Available here as of 25 Nov 2020.
- ↑ Samson, David R., et al. "Segmented sleep in a nonelectric, small‐scale agricultural society in Madagascar." American Journal of Human Biology 29.4 (2017): e22979. Available here as of 25 Nov 2020.
- ↑ Polyphasic Survey Results and Analysis (2018)