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The shift plan, rota or roster (esp. British) is the central component of a shift schedule in shift work.[1] The schedule includes considerations of shift overlap, shift change times and alignment with the clock, vacation, training, shift differentials, holidays, etc. The shift plan determines the sequence of work (W) and free (F) days within a shift system.

Notation

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A notation used often identifies day (D), swing (S) and night (N) shifts for the W days and O (off) for rest days.

W
work days
D
day shift, 1st shift, early shift
This shift often occurs from either 06:00 or 07:00 to either 14:00 or 15:00 for eight-hour shifts, and from 06:00 to 18:00 for twelve-hour shifts.
S
swing shift, 2nd shift, late shift, back shift, afternoon shift
This shift often occurs from either 14:00 or 15:00 to either 22:00 or 23:00 for eight-hour shifts, and is not used with twelve-hour shifts.
N
night shift, 3rd shift, graveyard shift
This shift often occurs from either 22:00 or 23:00 to either 06:00 or 07:00 for eight-hour shifts, and from 18:00 to 06:00 for twelve-hour shifts.
F
free days
O
days off
This is defined as a day on which a shift does not begin.
A~F
work teams (starts from A as first team)

Note that a worker transitioning from N to O works for the first six or seven hours of the first day "off". Thus, when days off follow night shifts, the first one or more days "off" are, in fact, days of recovery from lack of nighttime sleep. This daily notation refers to the start of a shift. If a shift starts at 23:00, then this is a W day even though only one hour is worked. The day after this shift is an F day if no shift starts on this day, though many hours have been worked from midnight on.

One shift system may allow many shift plans. For example, the twelve-hour, 2nW:2nF system with n = 1 allows twelve different plans in three serially-identical sets. Within a set, DONO has the same sequence as NODO. DNOO is the preferred sequence because days off follow night work and there are two consecutive days off.

3-day shift plans

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Prior to 2014, the U.S. Navy used a three shift system with an 18-hour day instead of a 24-hour day. The 24-hour period was divided into four shifts: 00:00-06:00, 06:00-12:00, 12:00-18:00, and 18:00-00:00. A sailor stood watch on their shift. During the off shift there is time to perform maintenance, study for qualifications, and handle collateral duties. During off time the sailor has time to sleep, relax, and perform personal tasks, such as laundry. With sufficient personnel, a given watchstation may benefit from a fourth man (the midnight cowboy or "Balls-to-6"). He would stand the same 6-hour watch in a given 24-hour period, usually from midnight to 06:00 (hence the midnight portion of the name, often shortened to cowboy) and the normal watchstander would then be free. This gave rise to a schedule of six on, twelve off, six on, thirty off, six on, twelve off.

Beginning in 2014, the Submarine Force began shifting to a 24-hour day, with watches split into 8 hours on, 16 hours off. This does have the side effect of sailors assigned to a certain shift having the same meals every day, and so the shifts are periodically rotated in order to provide variety.

The Surface Fleet began its shift in 2017, transitioning from their "five and dimes" approach of 5 hours on, 10 hours off.

This does not apply to the attached air wing, which will work a 12 on, 12 off schedule 7 days a week.

Navy three-shift example
Time Mon Tue Wed Thu Fri Sat Sun
on watch off AW on watch off AW on watch off AW on watch off AW on watch off AW on watch off AW on watch off AW
06:00–12:00 C A B D B C A D A B C D C A B D B C A D A B C D C A B D
12:00–18:00 B C A E A B C E C A B E B C A E A B C E C A B E B C A E
18:00–06:00 A B C E C A B E B C A E A B C E C A B E B C A E A B C E
Plan Run 1 Run 2 Run 3

4-day shift plans

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In the 12/24/12/48 or 12/24 plan, employees work in shifts of 12 hours; first a "daily shift" (e.g. 07:00 to 18:00), followed by 24 hours' rest, This plan needs four teams for full coverage, and makes an average 40-hour workweek. The pattern repeats in a 4-week cycle, i.e. over 28 days, and has 14 shifts per employee therein.

12/24/12/48 shift example
Time Week 1 Week 2 Week 3 Week 4
Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun
Daily 06:00–18:00 a C D B a C D B a C D B a C D B a C D B a C D B a C D B
Nightly 18:00–06:00 B a C D B a C D B a C D B a C D B a C D B a C D B a C D
Plan Run 1 Run 2 Run 3 Run 4 Run 5 Run 6 Run 7

5-day shift plans

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In four on, one off the employee only gets one day off after a work streak of four days. There are 28 shifts per employee in a five-week cycle (i.e. 35 days). This adds up to an average of 42 hours worked per week with 7½-hour shifts. This plan is mainly adopted by industries in which companies prefers to work for all days of the week, often with four (overlapping) shifts per day, and[why?] where laws do not let employees work for 12 hours a day for several days. Five groups of employees are needed to cover a specific shift on all days, where each group gets a different day off.

two on, one off example with 8-hour shift
Time Week 1 Week 2 Week 3 Week 4 Week 5
Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun
08:00–15:30 A A A A off A A A A off A A A A off A A A A off A A A A off A A A A off A A A A off
B B B off B B B B off B B B B off B B B B off B B B B off B B B B off B B B B off B
C C off C C C C off C C C C off C C C C off C C C C off C C C C off C C C C off C C
D off D D D D off D D D D off D D D D off D D D D off D D D D off D D D D off D D D
off E E E E off E E E E off E E E E off E E E E off E E E E off E E E E off E E E E
Plan Run 1 Run 2 Run 3 Run 4 Run 5 Run 6 Run 7

6-day shift plans

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In four on, two off the employee gets two days off. There are 28 shifts per employee in a six-week cycle (i.e. 42 days), this adds up to an average of 56 hours worked per week with 12-hour shifts, or 37+13 hours per week with 8-hour shifts. Three groups are needed for each time span, i.e. to cover the whole day and week a company needs 6 groups for 12-hour shifts or 9 groups for 8-hour shifts. This plan is mainly adopted by industries in which employees do not engage in much physical activity.

Four on, two off example with one 8-hour shift per day
Shift Week 1 Week 2 Week 3 Week 4 Week 5 Week 6
Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun
07:00–19:00 A A A A off off A A A A off off A A A A off off A A A A off off A A A A off off A A A A off off A A A A off off
B B off off B B B B off off B B B B off off B B B B off off B B B B off off B B B B off off B B B B off off B B
off off C C C C off off C C C C off off C C C C off off C C C C off off C C C C off off C C C C off off C C C C
Plan Run 1 Run 2 Run 3 Run 4 Run 5 Run 6 Run 7

Week shift plans

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Three-shifts

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The three-shift system is the most common plan for five 24-hour days per week. The "first shift" often runs from 06:00 to 14:00, "second shift" or "swing shift" from 14:00 to 22:00 and a "third shift" or "night shift" from 22:00 to 06:00, but shifts may also have different length to accommodate for workload, e.g. 7, 8 and 9 or 6, 8 and 10 hours. To provide coverage 24/7, employees have their days off ("weekends") on different days.

All of the shifts have desirable and less desirable qualities. First shift has very early starts, so time in the evening before is heavily cut short. The second shift occupies the times during which many people finish work and socialize. The third shift creates a situation in which the employee must sleep during the day; it may be preferred for night owls, for whom this is a desired sleep pattern.


Three-shift example
Time Mon Tue Wed Thu Fri Sat Sun
07:30–14:30 A A A A A off off
14:30–22:30 B B B B B off off
22:30–07:30 C C C C C off off

To provide an overlap in shifts, some employers may require one of the shifts to work four 10-hour shifts per week (as opposed to five 8-hour shifts, both are 40 hours per week). In that scenario, the night shift might extend from 21:00 to 07:00, but the night- shift would have nearly four days off (86 hours) between work weeks. This change, along with first shift moving a half-hour later, or second moving a half-hour earlier, ensures at least a half-hour overlap between shifts, which might be desirable if the business is open to the public to ensure that customers continue to be served during a shift change.[2]

Some U.S. states, such as California,[2] accommodate this arrangement by allowing the employee to be paid at their regular rate (as opposed to time-and-a-half, or an overtime rate, that would normally be required for any time past 8 hours) for the 10-hour shift, calling this an "alternative workweek".

Four on, three off

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In four on, three off, each employee works four days and gets a three-day weekend. For some types of manufacturing, this is a win-win arrangement. For example, a paint company had been making 3 batches of paint per day, Sunday through Saturday (3 × 5 = 15). They changed to making 4 batches of paint, Monday through Thursday (4 × 4 = 16). Total worker hours remained the same, but profits increased. In exchange for two additional hours of work per day, over 4 days, workers got an additional day off every week. See also the book, 4 Days, 40 Hours.

Four on, three off example with 10-hour shifts (in comparison to five-day week schemes)
Time Mon Tue Wed Thu Fri Sat Sun
4-day week 08:00–18:00 10 h 10 h 10 h 10 h off off off
4½-day week 08:00–17:00 9 h 9 h 9 h 9 h 4 h off off
5-day week 09:00–17:00 8 h 8 h 8 h 8 h 8 h off off

Continental plan

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Continental plan, adopted primarily in central Europe, is a rapidly changing three-shift system that is usually worked for seven days straight, after which employees are given time off, e.g. 3 mornings, 2 afternoons and then 2 nights.

Continental shift example
Time Mon Tue Wed Thu Fri Sat Sun
06:00–14:00 A A A C C B B
14:00–22:00 B B B A A C C
22:00–06:00 C C C B B A A

24*7 shifts

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In the 24*7 plan there are 24 consecutive shifts of 7 hours per week, hence covering 24/7. With 4 groups and 6 shifts per group, the work time is 42 hours per week. Several sub-patterns are possible, but usually each group is responsible for one of four time slots per day. Each of these is 6 hours long and if a shift begins in their time slot, a group has to work it. This way there are 14, 21 or 42 hours of rest between shifts, every group gets one whole day off. Shifts can be swapped to make double-shifts and increase the minimum time of rest.

24*7 example with double shifts and long rests around them
Shift/Group Work time window Mon Tue Wed Thu Fri Sat
Night 21:00–09:00 21:00–04:00 01:00–08:00 22:00–05:00 off 23:00–13:00 off 00:00–07:00
Morning 03:00–15:00 04:00–11:00 08:00–15:00 05:00–12:00 02:00–09:00 off 03:00–17:00 off
Day 06:00–18:00 off 15:00–22:00 12:00–19:00 09:00–16:00 13:00–20:00 off 07:00–21:00
Evening 15:00–03:00 11:00–01:00 off 19:00–02:00 16:00–23:00 20:00–03:00 17:00–24:00 off

Split shift

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Main article: Split shift

Split shift is used primarily in the catering, transport, hotel, and hospitality industry. Waiters and chefs work for four hours in the morning (to prepare and serve Lunch), then four hours in the evening (for an Evening meal). The average working day of a chef on split shifts could be 10:00 to 14:00 and then 17:00 to 21:00

Split shift example
Shift Time Mon Tue Wed Thu Fri Sat Sun
Lunch 10:00–14:00 on on on on on off off
Break 14:00–17:00 off off off off off off off
Dinner 17:00–21:00 on on on on on off off

Earlies and lates

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Earlies and lates is used primarily in industries such as customer service (help desk, phone-support), convenience stores, child care (day nurseries), and other businesses that require coverage greater than the average 09:00 to 17:00 working day in the UK, but no 24/7 coverage either. Employees work in two shifts that largely overlap, such as early shift from 08:00 to 16:00 and late shift from 10:00 to 18:00

Earlies and lates shift example
Shift Time Mon Tue Wed Thu Fri Sat Sun
Morning
Evening

In businesses where two shifts are necessary to cover the day, earlies and lates may be combined with one double shift per week per worker. Six 7-hour shifts in five days and seven 6-hour shifts in six days both result in 42 hours per week.

Earlies and lates with double shift example, six 7-hour shifts in five days, ten groups
Shift Time Mon Tue Wed Thu Fri Sat Sun
Earlies 08:00–15:00 ABCDE F ABCDE G ABCDE H ABCDE I ABCDE J Off Off
Lates 15:00–22:00 A FGHIJ B FGHIJ C FGHIJ D FGHIJ E FGHIJ Off Off
Earlies and lates with double shift example, seven 6-hour shifts in six days, twelve groups
Shift Time Mon Tue Wed Thu Fri Sat Sun
Earlies 08:00–14:00 ABCDEF G ABCDEF H ABCDEF I ABCDEF J ABCDEF K ABCDEF L Off
Lates 14:00–20:00 A GHIJKL B GHIJKL C GHIJKL D GHIJKL E GHIJKL F GHIJKL Off

28-hour day

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The 6-day week with 28 hours per "day" is a general concept for full week coverage where the 168 hours of the week are grouped differently. It can be used as a base for several shift plans, e.g. four 7-hour shifts per day where every employee works six shifts for a total of 42 hours per week.

28-hour day example
Day 1 2 3 4 5 6
Start Mon 00:00 Tue 04:00 Wed 08:00 Thu 12:00 Fri 16:00 Sat 20:00
1st shift A E C A E C
2nd shift B F D B F D
3rd shift C A E C A E
4th shift D B F D B F

21-hour day

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The 8-day week with 21 hours per "day" is a general concept for full week coverage where the 168 hours of the week are grouped differently. It can be used as a base for several shift plans, e.g. three 7-hour shifts per day where every employee works six shifts for a total of 42 hours per week, but to get whole days off groups work alternating double shifts.

21-hour day example
Day 1 2 3 4 5 6 7 8
Start Mon 00:00 Mon 21:00 Tue 18:00 Wed 15:00 Thu 12:00 Fri 09:00 Sat 06:00 Sun 03:00
1st shift A D C B A D C B
2nd shift B A D C B A D C
3rd shift C B A D C B A D

8-day shift plans

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Main article: Four-day week

Four on, four off is a shift plan that is being heavily adopted in the United Kingdom and in some parts of the United States.[citation needed] An employee works for four days, usually in 12-hour shifts (7:00 to 7:00) then has four days off. While this creates a "48-hour week" (42-hour average over the year) with long shifts, it may be preferred because it shrinks the work week down to four days, and then gives the employee four days' rest—double the time of a usual weekend. Due to the plan, employees effectively work an eight-day week, and the days they work vary by "week". As with three-shift systems, most employees stay with the same shift rather than cycling through them.

Four on, four off example for two different schedules
four on, four off ten-fourteen Week 1 Week 2
Mon Tue Wed Thu Fri Sat Sun Mon ...
07:00–19:00 08:00–18:00 A A A A C C C C ...
19:00–07:00 18:00–08:00 B B B B D D D D ...

A variation of the four on, four off plan is the two days, two nights, four off plan of working, or 2-2-4. Like the previous example it requires four separate teams to maintain 24/7 coverage. The difference is that all employees work both day and night shifts. Usually employees have to work 12-hour shifts from 06:00 to 18:00 on day shifts and from 18:00 to 06:00 on nights. This plan is currently in use in the UK by HM Coastguard and some ambulance services.

Two days, two nights, four off example
Time Week 1 Week 2
Mon Tue Wed Thu Fri Sat Sun Mon ...
06:00–18:00 A A B B C C D D ...
18:00–06:00 D D A A B B C C ...

A similar shift pattern is used by fire services such as London Fire Brigade, where the night shifts are longer than the day shifts.[3][4] This may be referred to as a ten-fourteen roster, if the day shift lasts for ten hours and the night shift lasts fourteen. Extended night shifts such as these are often a double edged sword; on one hand crews on slower weeknight shifts, or those in areas of low demand will receive excellent levels of rest (when there are no calls for emergency services, crews are encouraged to rest if required). Conversely, those employed on high demand days such as weekend nights, or in particularly high demand areas, will often be required to be awake or working for their entire rostered shift. However, due to the scheduled nature, most ambulance and fire employees can attempt to obtain sufficient rest before or after a particularly busy 14-hour night shift.

10-day shift plans

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The 6 on, 4 off plan is commonly used in British police forces.[5][6][7] The pattern worked consists of 2 early shifts, 2 late shifts, 2 night shifts and 4 days off. Shifts last 9–10 hours, creating some overlap between the 5 teams.

6 on, 4 off example
Shift Week 1 Week 2
Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed ...
Early A A B B C C D D E E ...
Late E E A A B B C C D D ...
Night D D E E A A B B C C ...

12-day shift plans

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The 6 on, 6 off plan consists of 3 days and 3 nights of work, then 6 days off. These will alternate between other crews, also known as teams, for a full 24/7 operation. The 12-day pattern repeats in a cycle of twelve weeks, i.e. 84 days.

6 on, 6 off example
Shift Week 1 Week 2
Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri ...
06:00 to 18:00 A A A B B B C C C D D D ...
18:00 to 06:00 D D D A A A B B B C C C ...

Fortnight shift plans

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Panama Schedule

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The Panama plan follows a 2-2-3 pattern throughout a fortnight, in which shift workers generally are allowed every other Friday, Saturday, and Sunday off, with two additional days off during the week, although this may differ depending on organization and industry. The most common form utilizes four shifts, each working twelve hours, with two shifts generally paired together: A working days and B working nights while C and D are off, and vice versa. It is not uncommon for shifts to rotate between days and nights, most often with six months spent on nights and six on days. This shift is sometimes known as the 2-2-3 or "two, two and three".

Panama schedule example
Shift Week 1 Week 2
Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun
06:00 to 18:00 A A C C A A A C C A A C C C
18:00 to 06:00 B B D D B B B D D B B D D D

7-day fortnight plan

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In the 7-day fortnight plan or 2-3-2 plan, employees work their allotted hours within 7 days rather than 10 in a fortnight, i.e. fourteen days and nights. Therefore, 41 hours per week equate to 82 hours per fortnight, which is worked in seven days, at 11–12 hours per shift. This shift structure is used in the broadcast television industry, as well as many law enforcement agencies, as well as health care fields such as nursing and clinical laboratories in the US.

7-day fortnight shift example
Shift Week 1 Week 2
Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun
08:00–20:00 A A C C C A A C C A A A C C
20:00–08:00 B B D D D B B D D B B B D D

One of the advantages of using this plan is each shift pair, for example A and B, will get time off on weekends alternatively, because the schedule is fixed and does not drift.

10-day fortnight plan

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A 10-day fortnight plan uses six shifts. Each shift works for seven days straight for their first week. On their "off week", they can choose three days to come in, to support other non-shifted departments, fill gaps in coverage, or participate in training.

10-day fortnight shift example
Shift Week 1 Week 2
Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun
00:00–08:00 A A A A A A A D D D D D D D
08:00–16:00 B B B B B B B E E E E E E E
16:00–00:00 C C C C C C C F F F F F F F
D, E, and F choose 3 shifts to work A, B, and C choose 3 shifts to work

Five and two

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The five and two or 3-2-2 plan provides 24/7 coverage using 4 crews and 12-hour shifts over a fortnight. Average hours is 42 per week but contains a 60-hour week which can be challenging.

7-day fortnight shift example
Shift Week 1 Week 2 Week 3 Week 4
Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun
08:00–20:00 D D D B B D D B B B A A B B A A A C C A A C C C B B C C
20:00–08:00 A A A C C A A C C C D D C C B B B D D B B D D D A A D D

5/4/9s

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5/4/9s or Five/Four Nines is a mix of 5-day and 4-day work weeks. Employees work in two-week cycles. Week 1, the employee works 4 days of 9 hours followed by 1 day of 8 hours with 2 days off (i.e. 44 hours). Week 2, the employee works 4 days of 9 hours with 3 days off (i.e. 36 hours).

Like 8 hours a day for 5 days a week, this plan works to 80-hours in a two-week pay-period. Since employees work on nine days per cycle, this plan is also referred to as 9/80. The benefit to working an extra hour a day gives you a normal 2-day weekend followed by a long 3-day weekend the next. Typical working hours for this type of shift would be 06:00 to 15:30 (9 hours with 30 minutes lunch) and 06:00 to 14:30 (8 hours with 30 minutes lunch) on the 8-hour work day. Often the employer will alter the starting times (e.g., start at 07:00 or 08:00).

5/4/9s shift example
Week Mon Tue Wed Thu Fri Sat Sun
Week 1 9 h 9 h 9 h 9 h 8 h off off
Week 2 9 h 9 h 9 h 9 h off off off

A variation, early weekend or 4½-day week, has the employees work every Friday, but only for 4 hours each. Their weekend thus starts with the Friday lunch break.

Long-term shift plans

[edit]

DuPont 12-hour rotating plan

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The DuPont 12-hour rotating plan provides 24/7 coverage using four crews and 12-hour shifts while providing a week off. Average hours is 42 per week but contains a 72-hour week which can be challenging. It is used in several manufacturing industries in the US. Companies that have gone to this schedule have noticed a decrease in accidents plus more rest for employees, fewer call ins, and more coverage when crews are short handed. In all the schedule is designed to improve safety. A particular advantage of this plan is that it can readily be slewed to fit business requirements. For example, if less coverage is required on a Sunday, stand-alone shifts are avoided by scheduling the fourth night and first day of four on that day. This also has the additional benefit of the quick turnaround day between three shift days and nights also falling on a Sunday.

DuPont 12-hour rotating shift example
Time Week 1 Week 2 Week 3 Week 4
M T W R F S S M T W R F S S M T W R F S S M T W R F S S
07:00–19:00 D D D C C C C A A A D D D D B B B A A A A C C C B B B B
19:00–07:00 A A A A D D D B B B B A A A C C C C B B B D D D D C C C

To balance pay into 36- and 48-hour weeks, many US companies shift the DuPont Schedule so the seven-day rest period ends on Friday night.

DuPont 12-hour rotating shift example 2
Time Week 1 Week 2 Week 3 Week 4
M T W R F S S M T W R F S S M T W R F S S M T W R F S S
07:00–19:00 B B B B D D D C C C C A A A D D D D B B B A A A A C C C
19:00–07:00 D C C C A A A A D D D B B B B A A A C C C C B B B D D D

To allow 3 full days off following a shift of nights, the day off between three days and three nights is removed. This example allows for a recovery day after 3 nights before a weekend off and for some workers more appropriately balances work/life.

DuPont 12-hour rotating shift example 3
Time Week 1 Week 2 Week 3 Week 4
M T W R F S S M T W R F S S M T W R F S S M T W R F S S
07:00–19:00 B B B B D D D C C C C A A A D D D D B B B A A A A C C C
19:00–07:00 C C C A A A A D D D B B B B A A A C C C C B B B D D D D

Seven-day eight-hour rotating plan

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The seven-day eight-hour rotating plan provides 24/7 coverage using 8-hour shifts with 5 crews. It consists of a "morning shift" from 07:00 to 15:00, a "swing shift" from 15:00 to 22:30 and a "night shift" from 22:30 to 07:30. Each shift works for five days straight. The 8-hour shifts allow vacations and absences to be covered by splitting shifts or working double shifts. The run of day shifts is 56 hours, but the 8-hour shift provides time for some socializing after work.

This plan was once common in the pulp and paper industry in the Western United States but has been largely replaced by an 8 days, 8 swing, 5 nights, 9 off, 8-hour rotation.

7-day 8-hour rotating shift example
Week Mon Tue Wed Thu Fri Sat Sun
1 Day Day Day Day Day off off
2 Swing off off Swing Swing Swing Swing
3 Night Night off off Night Night Night
4 Day Day Day Day off off Day
5 Swing Swing Swing Swing Swing off off
6 off Night Night Night Night Night off
7 off off Day Day Day Day Day
8 Swing Swing Swing Swing Swing off off
9 Night off off Night Night Night Night
10 Day Day off off Day Day Day
11 Swing Swing Swing off off Swing Swing
12 Night Night Night Night off off Night
13 Day Day Day Day Day off off
14 off Swing Swing Swing Swing Swing off
15 off off Night Night Night Night Night

Graveyard shift

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"Graveyard shift" redirects here. For other uses, see Graveyard shift (disambiguation).
"Night shift" redirects here. For the 2020 film, see Night Shifts (film). For other uses, see Night shift (disambiguation).

Graveyard shift, night shift, or third shift means a shift of work running through the early hours of the morning, especially shifts starting around midnight. The origin of this phrase is uncertain. According to Michael Quinion it is an "evocative term for the night shift … when … your skin is clammy, there's sand behind your eyeballs, and the world is creepily silent, like the graveyard."[8]

In 2007, the World Health Organization (WHO) announced that working the graveyard shift would be listed as a "probable" cause of cancer.[9][10][11]

On-call

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Employees who work on an on-call basis have no regular schedule. They agree as a condition of employment to report to work when they are called, 24 hours a day, 7 days a week. This is particularly common in American railroad employment, especially for train crews. Other groups of workers may be on-call from home for some days and working normal shifts for others, or will work during normal business hours and then remain on-call from home for the rest of that night until the following morning (this working pattern is common for senior doctors, for example).

Firefighting schedules

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In many North American fire departments, firefighters work 24-hour shifts. They are authorized to sleep in the fire station during the time spent on night shift. Most departments split the 168-hour-long week between 3 or 4 work groups (sometimes referred to as 'shifts' or 'platoon groups'), resulting in a 56- or 42-hour workweek, respectively. Some departments reduce the average workweek by scheduling an extra day off for each firefighter in the work group, frequently reducing a 56-hour workweek to a 48-hour workweek by scheduling a 24-hour "Kelly Day" every three weeks. Departments have many options for scheduling firefighters for coverage. One option is 24 on/48 off, where a firefighter will work 24 hours and have 48 hours off, regardless of the day of the week or the holidays. Often they will be scheduled in an A–B–C pattern. Thus, a firefighter will be assigned to A, B or C shift and work whenever that letter is on the calendar.

Most departments have found that a 24-hour work shift, with opportunistic sleeping between calls for service, is a valid means of avoiding some of the health and cognitive problems associated with shift work.

Three-platoon schedules

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The most basic three-platoon schedule is a straight rotation of 24-hour shifts among three platoon groups. This rotation limits time off to 48 hours in a row, less than 66 hours off in a row most workers get each weekend. Workers on this schedule only get one short weekend off every three weeks. Twenty-four hours off-duty is also the minimum required to completely recover from a period of acute sleep deficit.[12]

24/48 pattern
Week Mon Tue Wed Thu Fri Sat Sun
Week 1 A B C A B C A
Week 2 B C A B C A B
Week 3 C A B C A B C

Another option is known as a California roll, where some shifts will be close together but allow for several days off. This option gives a 96-hour break every 9th day, which is contiguous to the conventional weekend on two of nine weekends, with a third weekend providing a break that starts on Saturday morning. There is an opportunity to accumulate sleep debt over the three days of work, however this debt should be completely cleared over the four-day break. The nine-day rota that is repeated to fill the calendar.

California roll shift schedule
Week Time Mon Tue Wed Thu Fri Sat Sun
Week 1 07:00–07:00 A B A C A C B
Week 2 07:00–07:00 C B

A firefighter will work 24 hours on, 24 off, 24 on, 24 off, 24 on, 96 hours (4 days) off.

This rotation reduces the chronic sleep deficit accrued over the first two work days at the expense of a shorter long break. This schedule's long break coincides with a standard weekend exactly once every nine weeks. The four-day break could be retained by working a fourth day in the rotation.

Modified California Roll
Week Time Mon Tue Wed Thu Fri Sat Sun
Week 1 07:00–07:00 A B A B C A C
Week 2 07:00–07:00 A B C B C

A firefighter will work one day, off one, work one, off two, work one, off four days.

A number of departments have investigated further work consolidation by allowing for a 48-hour work shift. Careful demand management would be required to avoid acute sleep deficit, however, firefighters should return to work fully recovered from the previous shift.[13]

Kenneth B. Ellerbe chief of the District of Columbia Fire and Emergency Medical Services Department has proposed a schedule where firefighters work three-day shifts, followed by three night shifts, followed by three days off.[14] It is likely that such a schedule would impact all four alertness factors associated with shift work, and result in a threat to public safety. It would result in exactly one break coinciding with the standard weekend every nine weeks.

Four-platoon schedules

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The most basic four-platoon schedule is a straight rotation of 24-hour work shifts between four work groups or platoons. This schedule works 48 hours per week for three weeks and 24 hours the fourth week, averaging 42 hours per week.

24/72 pattern
Week Mon Tue Wed Thu Fri Sat Sun
Week 1 A B C D A B C
Week 2 D A B C D A B
Week 3 C D A B C D A
Week 4 B C D A B C D

Another variation of the 24-hour shift schedule is a 4-platoon system, averaging 42 hours/week. Thus, the schedule is 24 on, 48 off, 24 on, 96 off, on a 4-day rotation.

24/48/24/96 pattern
Week Mon Tue Wed Thu Fri Sat Sun
Week 1 A D B A C B D
Week 2 C A D B A C B
Week 3 D C A D B A C
Week 4 B D C A D B A
Week 5 C B D C A D B
Week 6 A C B D C A D
Week 7 B A C B D C A

Split day and night shifts

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In other fire departments, firefighters work shorter shifts, such as a mix of 10-hour day shifts and 14-hour night shifts.[12] The advantage is that firefighters have shorter working hours. The disadvantage is that they may sometimes have only 12 hours to recover between one night shift and the next. The 2005 Canadian Firefighter study comparing two models with 24-hour shifts with three models requiring at least three consecutive night shifts, found that consecutive nights were shown to be more deleterious to performance than a single, long shift. Performance effectiveness 75% after two consecutive nights and lower after three, compared to 78% for a 24-hour shift. If the schedule induces sleep deficit in a subsequent day shift, this performance would be worse.

On the 2-2-4 schedule, firefighters work two 10-hour days, two 14-hour nights, and then have four days off. This schedule's long break aligns with the conventional weekend for exactly two weeks out of eight. The majority of Australian fire brigades use this schedule (which is locally referred to as the '10/14' or '4 on, 4 off' roster) [15]

The rota is: DDNNOOOO.

The 2-2-3 schedule is also known as the Panama Schedule, however, when firefighters work it, the shifts rotate from day to night between every break. Since the firefighters have a two-day break before any nights worked, they do not start the series of nights with an employment-related sleep deficit. They do work three nights in a row, which would result in chronic sleep deficit if alarms are received on each night, however, the third night is always a Sunday night, which is often less busy than other nights of the week. This schedule allows for a long break every other weekend.

The rota is: DDOONNN OODDOOO NNOODDD OONNOOO

See also

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References

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Further reading

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Revisions and contributorsEdit on WikipediaRead on Wikipedia

Shift plan

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from Grokipedia
A shift plan, also referred to as a roster or rota, is a structured that assigns specific working hours, tasks, and rest periods to employees in environments requiring continuous or extended coverage, such as , healthcare, and retail. It serves as a core tool in personnel resource planning, ensuring that operational demands are met while balancing employee availability and preferences over defined periods like daily, weekly, or monthly cycles. Shift plans are essential for optimizing workforce efficiency, as they align staffing levels with fluctuating demand to minimize costs and prevent understaffing during peak times. In , creating these plans often involves solving complex scheduling problems that consider constraints like labor laws, requirements, and shift equity to promote distribution of workloads. Common types include fixed shifts—such as the standard first shift (daytime, typically 8 a.m. to 5 p.m.), second shift (afternoon/evening), and third shift (night)—as well as rotating patterns that alternate between day and night to share night work burdens equitably. Other variations encompass split shifts, which divide a single workday into non-consecutive segments, and compressed schedules like the 4/10 model (four 10-hour days followed by three off) or the 9/80 model (working 80 hours over nine days in two weeks with every other Friday off, resulting in 26 work Fridays per year). The design of effective shift plans has been a focus of since the mid-20th century, with mathematical models developed to generate optimal assignments that satisfy coverage requirements while adhering to regulations on maximum hours and rest. Modern implementations frequently leverage software tools for , incorporating factors like employee requests and real-time adjustments to enhance satisfaction and reduce turnover. Challenges in shift planning include accommodating diverse employee needs, such as family obligations or health concerns related to night work, which can impact productivity if not addressed.

Introduction

Definition and Purpose

A shift plan is a structured timetable that assigns employees to specific work periods, known as shifts, to ensure continuous operational coverage in environments requiring 24-hour staffing while avoiding excessive overtime. According to the International Labour Organization, shift work—the foundation of such plans—organizes working time so that workers succeed one another at workstations according to a predefined schedule, often involving discontinuity in individual work patterns to maintain collective productivity. The primary purpose of shift plans is to support uninterrupted operations in industries that demand round-the-clock service, thereby optimizing labor costs, resource allocation, and overall efficiency. They are essential in sectors such as healthcare, manufacturing, transportation, emergency services, and utilities, where approximately 25% of the adult workforce in the United States engages in shift-based roles to meet societal needs. In practice, shift plans facilitate continuity in critical functions: hospitals rely on them for ongoing patient care, factories for seamless production lines, transportation systems for constant mobility support, emergency services for immediate response availability, and utilities for persistent power grid monitoring. Key components include shift lengths—commonly 8 or 12 hours—rotation patterns that cycle through day, evening, and night periods, and handover procedures to transfer responsibilities smoothly between outgoing and incoming teams.

Historical Development

Shift plans originated during the in the late 18th century, as factory owners in and the sought to maximize production by extending operations beyond natural daylight hours. In textile mills, which were central to early industrialization, long workdays of 12 to 14 hours became standard, often six days a week, to capitalize on mechanized processes like spinning and . This shift from seasonal, home-based labor to regimented factory schedules marked the beginning of structured , driven by the need for continuous machinery operation. By the 19th century, two-shift systems—typically alternating day and night crews of around 12 hours each—were widely adopted in mills to enable near-continuous production while nominally complying with emerging labor restrictions. In , Richard Arkwright's exemplified this approach starting in 1772, running day and night shifts that influenced subsequent mills across and beyond; similar practices spread to U.S. centers in by the early 19th century and to the in the late 19th century. Labor union movements in the early 20th century advocated for shorter, regulated hours to combat exploitation, leading to key legislation such as the U.S. Fair Labor Standards Act of 1938, which mandated overtime pay for work exceeding 40 hours per week and effectively curbed excessive shift lengths; internationally, the International Labour Organization's Hours of Work (Industry) Convention of 1919 set similar standards for an 8-hour day and 48-hour week. The necessities of wartime manufacturing during World War II accelerated the transition to three-shift systems, enabling 24/7 operations in industries like steel, automotive, and defense to meet production demands; these rotations of eight-hour shifts persisted into the postwar economic boom as continuous operations became standard in global manufacturing. The 1980s introduced computer-aided scheduling tools, such as Primavera software launched in 1983, which automated shift allocation and resource planning on personal computers, reducing manual errors and improving efficiency. In the 2000s, advancements in enterprise software like Primavera Enterprise enabled dynamic shift planning, integrating real-time data for flexible adjustments amid varying demands. The from 2020 onward prompted further adaptations in shift plans, particularly for remote and hybrid work models, with organizations shifting toward flexible, asynchronous scheduling to balance employee and in non-traditional settings. in the late 20th and early 21st centuries also influenced shift designs, incorporating cross-time-zone coordination and software-driven optimizations for international operations.

Key Concepts and Terminology

Standard Notation

Common notations for shift plans employ simple alphabetic symbols to denote shift types and rotations, facilitating clear communication among planners and workers. For instance, "D" typically represents a day shift (often 7:00 AM to 3:00 PM or similar daytime hours), "E" or "S" indicates an evening or swing shift (e.g., 3:00 PM to 11:00 PM), and "N" signifies a night shift (e.g., 11:00 PM to 7:00 AM). Alternatively, numeric labels such as "1," "2," or "3" may designate shift teams, particularly in multi-team rotations where Team 1 covers the first shift, Team 2 the second, and so on. These symbols allow concise representation of sequences, such as a rotating cycle denoted as D-E-N-D for a four-day repeating across teams. Visual representations enhance the interpretability of shift plans through diagrammatic tools like Gantt charts, which display timelines with horizontal bars indicating shift durations, start times, and assignments for each employee or team. In these charts, bars are often color-coded—e.g., blue for day shifts, orange for evenings, and purple for —to quickly distinguish shift types and overlaps. Block diagrams further illustrate rotations, using stacked or sequential blocks to show how shifts cycle, such as a repeating D-N-O (day, night, off) pattern in a grid format spanning weeks. Basic formulas support the of shift requirements in these notations. For example, the total number of shifts needed per day can be computed as (coverage hours / shift length) × teams required per shift, where coverage hours might be 24 for round-the-clock operations, shift length is typically 8 or 12 hours, and teams required reflects staffing levels (e.g., 2 teams per shift yields 6 shifts for 8-hour coverage). This ensures the notation aligns with operational demands. An illustrative example is a three-team rotation for 24/7 coverage: Team A is notated as D (day shift), Team B as N (night shift), and Team C as O (off), with the pattern rotating forward daily: the next day, Team A to N, Team B to O, Team C to D, and so on. This repeats every three days (a weekly cycle includes multiple repetitions) and incorporates off days as "O." This can be visualized in a where each team's bar spans their assigned hours (12-hour day and night shifts). Standardization of these notations occurs primarily through conventions in workforce management software, where alphabetic symbols and color-coding are widely adopted for interoperability across tools like Oracle Workforce Scheduling, ensuring consistent representation without a formal ISO specification.

Shift Types and Rotations

Shift plans incorporate several fundamental types to ensure continuous operations across industries requiring round-the-clock coverage. Fixed shifts assign employees permanently to a specific time period, such as daytime (typically 7:00 AM to 3:00 PM), evening (3:00 PM to 11:00 PM), or night (11:00 PM to 7:00 AM), allowing for predictable routines but often leading to specialized crews for each period. Rotating shifts require workers to cycle through these periods, such as progressing from day to evening to night over a set interval, distributing exposure to less desirable hours among the workforce. Swing shifts, common in manufacturing and logistics, involve overlapping afternoon or early evening hours (e.g., 2:00 PM to 10:00 PM) to facilitate transitions between day and night operations and maintain staffing flexibility. The mechanics of rotations dictate how these shifts transition among workers to balance workload distribution. Forward rotations advance from earlier to later shifts (e.g., day to evening to night, or ), which supports gradual adaptation to changing sleep needs and is preferred for minimizing disruption. Backward rotations, conversely, revert from later to earlier shifts (e.g., night to evening to day, or counterclockwise), often resulting in greater recovery demands and poorer overall adjustment. Slow rotations occur weekly or every few weeks, enabling some circadian stabilization but prolonging exposure to night work; fast rotations change daily or every two to three days, allowing quicker recovery from nights while reducing long-term misalignment, though they demand rapid physiological shifts. Central to effective rotations is alignment with circadian rhythms, the endogenous 24-hour cycles regulating sleep, alertness, and metabolism, which rotating shifts can desynchronize if not optimized. Forward and fast rotations promote better circadian entrainment by approximating natural daylight progression, reducing risks like , where misalignment leads to chronic or affecting 10-40% of shift workers. A representative pattern illustrating these concepts is the 2-2-3 schedule, in which teams work two consecutive days, take two days off, then work three consecutive days before another two days off, often rotating forward to incorporate rest periods that aid recovery and prevent accumulation in 24/7 environments. Another pattern is the four-brigade system, which employs four rotating brigades to ensure continuous 24/7 coverage. It theoretically averages 42 hours weekly per worker (168 total weekly position-hours divided by four brigades), equating to about 182 hours monthly, with typical figures of 180–182 hours for 12-hour shifts or 168–173 hours for 8-hour variants. Schedules balance legal norms, such as average weekly time not exceeding 40 hours over accounting periods, through overtime compensated by free time; exact hours vary by rotation details, month length, and industry such as energy or manufacturing. Rotating shifts provide key benefits, including equitable distribution of night work to avert burnout from permanent assignments and enhanced work-life variety that can boost and skill versatility across shifts. However, they risk significant drawbacks, such as fragmentation and circadian disruption, potentially elevating issues like or impaired performance if rotations are backward or slow. Fixed shifts offer scheduling stability, which some workers prefer for routine alignment, but permanent nights correlate with higher long-term burdens, underscoring the need for forward-rotating designs to optimize outcomes.

Design Principles

Coverage and Staffing Requirements

Shift plans are designed to ensure continuous operational coverage, particularly for 24/7 services, which demand 168 hours of staffing per week per position. The core calculation for the baseline staffing begins with this weekly total, using the for person-shifts needed = (total hours × workers per shift) / shift length, where total hours refers to the 168 hours of coverage, shift length is the duration of each shift in hours, and workers per shift is the number of staff required simultaneously on duty. This yields the baseline number of person-shifts needed weekly; for instance, with one worker per shift and 8-hour shifts, it results in 21 person-shifts per week, which must then be distributed across rotating teams accounting for standard workweeks of 40 hours (5 shifts per employee). Staffing requirements incorporate several factors to maintain reliability beyond the baseline. Overlap periods, such as 30-minute buffers at shift transitions, allow for handovers and reduce errors during changes. Adjustments for peak versus off-peak demand involve scaling workers per shift dynamically, with higher staffing during high-activity periods to match workload fluctuations. Additionally, buffers for typically add 10-15% extra staff to cover unplanned absences like illness or emergencies, ensuring no gaps in coverage. Practical examples illustrate these principles. For 8-hour shifts providing full 24-hour coverage with one worker per shift, 3 teams are needed to span the day (24 hours / 8 hours = 3), rotating to meet the weekly person-shifts while allowing rest. However, specific rest requirements can increase staffing needs beyond this basic division. For the specific pattern of 8 hours on followed by 24 consecutive hours off (a 32-hour cycle with a 25% duty cycle), continuous 24/7 coverage requires a minimum of 4 employees per position, with start times staggered 8 hours apart. Each employee provides 8 hours of work per 32 hours; thus, 4 employees are required to meet 24 hours of daily coverage needs (since 4 × (8/32) = 1 full-time equivalent). With only 3 employees, coverage is only 75% of the required time, resulting in recurring 8-hour gaps. This illustrates that total staffing varies with rest constraints and cycle specifics, even though the daily span may be covered by 3 shifts. In contrast, 12-hour shifts require 2 teams for daily coverage (24 hours / 12 hours = 2), which simplifies rotation but demands more recovery time between shifts to mitigate . Efficiency in shift plans is often measured by utilization rate, calculated as (worked hours / available hours) × 100, where worked hours are actual staffed time and available hours include scheduled capacity. This metric helps optimize staffing by identifying underutilization or overload, targeting rates around 80-90% for sustainable operations.

Balancing Work and Rest

Balancing work and rest in shift plans involves establishing guidelines that ensure adequate recovery time for workers while maintaining operational efficiency. A core principle is providing a minimum of 11 consecutive hours of rest between shifts, as mandated by the EU Working Time Directive (2003/88/EC), which aims to prevent excessive fatigue from back-to-back work periods. Additionally, workers are entitled to at least 24 uninterrupted hours of rest per seven-day period, often aligned with traditional weekends to support circadian rhythm recovery. To mitigate the disruptive effects of night work, shift designs typically limit consecutive night shifts, allowing for sufficient recuperation before returning to daytime routines. Fairness in shift allocation promotes equity by distributing various shift types—such as days, evenings, nights, and weekends—equally among employees over time, reducing and improving . One common mechanism is seniority-based , where employees select preferred shifts in order of their tenure, ensuring longer-serving workers gain priority access to desirable schedules while still meeting coverage needs. This approach balances individual preferences with collective requirements, fostering a sense of in the scheduling process. Design tools like Fatigue Risk Management Systems (FRMS) provide structured frameworks for assessing and mitigating fatigue risks in shift work, incorporating monitoring of work hours, rest periods, and environmental factors to proactively adjust schedules. Algorithms for even rotations often employ equity indices, such as the variance in shift assignments across employees, to quantify and minimize imbalances in workload distribution. These computational methods optimize rotations by prioritizing low-variance outcomes, ensuring no single worker disproportionately bears undesirable shifts. A frequent pitfall in shift planning is weekend work imbalance, where certain employees consistently receive more weekend assignments, leading to perceived inequity and reduced satisfaction. Solutions include implementing compressed workweeks, such as four 10-hour days followed by three days off, which can redistribute rest opportunities and alleviate overload on traditional weekends without compromising total hours.

Plans by Cycle Length

Short Cycles (3-6 Days)

Short cycles in shift planning refer to rotating schedules that repeat every 3 to 6 days, providing flexible coverage for operations that do not require full 24/7 continuity but need adaptability to fluctuating demands, such as in startups, small-scale , or with variable needs. These plans emphasize shorter rotations to allow teams to adjust quickly to changes in workload or personnel availability, often incorporating extended shifts to minimize the number of handovers while ensuring essential periods. Unlike longer cycles, short ones prioritize over deep routine establishment, making them suitable for environments where predictability is low. Three-day plans typically focus on achieving 24-hour coverage with minimal teams, such as a single team working 24 hours on followed by 48 hours off, which is common in response roles like or certain healthcare settings. This pattern ensures constant availability for critical incidents while allowing recovery time, as the off periods align with circadian recovery needs after prolonged duty. For instance, in volunteer-based services, this supports rapid deployment without overstaffing, though it requires precise coordination to avoid during extended on-duty shifts. Four-day plans often involve alternating 2-on-2-off patterns with 12-hour shifts, providing balanced coverage in sectors like where quick adjustments are needed. This structure reduces commute frequency and enhances work-life integration by clustering rest days evenly. It suits environments with moderate demand variability, enabling staffing adjustments without disrupting longer-term planning. Five-day plans can incorporate rotations like 5-on with distributed off days adjusted for partial weekend coverage, but true 5-day repeats are less common and often extend to weekly. In office-based or administrative roles with occasional after-hours needs, such as centers, rotations ensure equitable distribution of non-standard hours without perpetual weekend loads for any group. Six-day plans commonly feature patterns like 3-on-3-off with 12-hour shifts, approximating continuous operation in retail or with limited staffing. This supports extended hours by staggering teams, minimizing service gaps during peaks. In practice, it is applied in smaller outlets for adaptability. The primary advantages of short cycles include their ability to adapt swiftly to demand fluctuations, such as seasonal surges in retail, by reallocating teams with minimal disruption to overall operations. However, drawbacks arise from the frequent changes, which can disrupt employee routines, increase scheduling errors, and elevate risks if rest integration is not managed carefully.

Weekly Cycles (7 Days)

Weekly cycles, which repeat every seven days or include weekly elements in longer patterns, are standard repeating schedules designed for operations requiring predictable weekly coverage, such as or utilities, where stability in routine tasks is prioritized over rapid variability. These plans typically ensure 24/7 staffing through rotating teams while incorporating regular rest periods to mitigate , often aligning with circadian preferences by favoring forward rotations. Common configurations include fixed or rotating shifts that balance workload across days and nights, with three to four teams providing continuous coverage. The three-shift system divides the 24-hour day into three 8-hour blocks, commonly structured as morning (e.g., 6:00 a.m. to 2:00 p.m.), afternoon (2:00 p.m. to 10:00 p.m.), and night (10:00 p.m. to 6:00 a.m.), requiring three dedicated teams for full coverage. This setup, often implemented in a (morning to afternoon to night), limits night shifts to blocks of three to align with circadian rhythms and reduce risks, followed by recuperative days off. Studies recommend 8-hour durations over longer shifts to minimize performance decrements, with morning starts no earlier than 7:00 a.m. to avoid disruption. In weekly cycles, teams rotate weekly, ensuring each works approximately 40 hours while maintaining equitable weekend distribution. The four-on, three-off pattern involves employees working four consecutive shifts followed by three rest days, frequently using 12-hour shifts with two teams to achieve 24/7 coverage in routine operations. This schedule repeats weekly, providing 42 hours of work per cycle and predictable off periods, though it demands careful monitoring to prevent cumulative during the on-block. It is suited for predictable weekly demands, as the fixed allows for stable planning without fixed days off disrupting continuity. The Continental plan follows a 2-2-3 pattern—two days on, two off, three on—using 8-hour or mixed 8/12-hour shifts across four crews to ensure even weekend coverage and 24/7 operations, repeating in a 28-day cycle that incorporates weekly predictability by balancing work (21 days) and rest (7 days). This forward-rotating system distributes weekends evenly, reducing inequity in rest opportunities compared to fixed assignments. Continuous 24/7 shifts provide nonstop coverage without fixed days off, often using split shifts such as morning (e.g., 6:00 a.m. to 2:00 p.m.) and afternoon (2:00 p.m. to 10:00 p.m.) blocks to handle peak demands while maintaining three-team rotation. These semi-continuous or fully continuous weekly plans run seven days without breaks, relying on rotating teams to sustain operations in essential services. Early/late variations within weekly cycles feature earlies (6:00 a.m. to 2:00 p.m.) and lates (2:00 p.m. to 10:00 p.m.), rotating forward to support circadian adaptation in two- or three-team setups. Early 6:00 a.m. starts can shorten preceding night sleep and increase disruption, leading to poorer health outcomes, while later changeovers (e.g., 7:00 a.m.) improve sleep quality. Experimental variations, such as 28-hour days, have been tested in controlled settings to assess circadian desynchrony, revealing heightened neurobehavioral impairments even within short wake periods, informing safer weekly rotations. These tests highlight the need for rest alignment in standard 7-day plans to prevent misalignment effects observed in prolonged wakefulness.

Extended Cycles (8-12 Days)

Extended cycles in shift plans, spanning 8 to 12 days, provide a balance between operational continuity and employee recovery by allowing longer periods of work or rest within the repeating pattern. These schedules are particularly suited for industries requiring 24/7 coverage, such as manufacturing and utilities, where slower rotations help minimize frequent circadian adjustments compared to shorter cycles. In 8-day plans, two teams typically alternate in a 4-on-4-off pattern using 12-hour shifts to ensure round-the-clock coverage. Employees work four consecutive 12-hour days, followed by four days off, repeating every eight days; this setup often aligns off-days with weekends for some teams, promoting better work-life balance. The pattern requires minimal staffing—usually four teams total for full coverage—and supports consistent rest periods that aid circadian stabilization. 10-day plans, such as 5-on-5-off rotations, involve blocks of five consecutive workdays followed by five days off, often with 10- or 12-hour shifts. These are employed in sectors like oil and gas for extended offshore coverage, where the longer off-period allows recovery from demanding environments. Rotating blocks within the cycle can incorporate day and night shifts, but the emphasizes predictability to limit accumulation. 12-day plans, exemplified by 6-on-6-off schedules, feature six consecutive workdays mixed with day and night shifts, followed by six days off. This minimizes the number of teams needed—often three for 24/7 operations—but heightens risks due to prolonged consecutive shifts, as evidenced by field studies showing increased sleepiness during night work in such systems. Despite the efficiency in staffing, guidelines recommend monitoring for circadian disruption and incorporating recovery strategies. Overall, extended cycles of 8-12 days exhibit slower rotation speeds that reduce the frequency of adjustments to new shift times, thereby lowering the incidence of sleep disturbances and performance errors relative to faster weekly patterns. These traits make them preferable for moderate-continuity operations, though individual implementation must prioritize mitigation.

Fortnight Cycles (14 Days)

cycles, or 14-day shift plans, are structured to coincide with bi-weekly periods, offering employees greater predictability in work and rest patterns while ensuring continuous coverage in operational environments. These schedules typically average 40 to 84 hours over two weeks, depending on shift length and rotation, and are favored in industries requiring balanced staffing without daily fluctuations. By grouping workdays into longer blocks, cycles support employee recovery and personal planning, though they may involve extended consecutive shifts that demand careful management. Note that some patterns described as fortnightly may extend to 28-day full rotations for day/night swaps. The Panama Schedule is a rotating pattern commonly used for 24/7 operations with two teams alternating 12-hour day and night shifts, often following a 2-2-3 sequence (two on, two off, three on) that repeats every 28 days to complete the full rotation, though basic blocks align bi-weekly. In this system, employees follow sequences resulting in approximately 84 hours worked over two weeks and ensuring full coverage through team overlaps. Developed originally for continuous operations like those at the , it provides longer rest periods after intense work stretches, making it suitable for manufacturing and utilities. A 7-day fortnight plan alternates full weeks of 7-on followed by 7-off, creating a simple 14-day cycle where employees work seven consecutive days—often 10- or 12-hour shifts—then enjoy a complete week of rest. This pattern suits remote sites such as , camps, and offshore platforms, where fly-in-fly-out align with the extended off-period for travel and recovery. It averages 70 to 84 hours bi-weekly and promotes work-life balance by concentrating work into isolated blocks, though it requires robust support for isolation during on-periods. The 10-day fortnight involves 10-on-4-off blocks of consecutive workdays, typically 10-hour shifts, repeating every 14 days to total 80 hours bi-weekly. Prevalent in the industry, this schedule accommodates remote operations with rostered travel, allowing workers to spend four days off at home after intensive site work. It emphasizes productivity during on-blocks while providing sufficient rest to mitigate in high-risk environments. The five-and-two schedule repeats a 5 days on, 2 off pattern bi-weekly, often using 8-hour shifts for a standard 40-hour average, but a common variant is the 5/4/9 compressed plan where employees work five 9-hour days one week and four 9-hour days the next, plus one 8-hour day, totaling 80 hours over 14 days with an extra day off every other week. This approach aligns with and industrial settings, offering flexibility for compressed workweeks that enhance weekend recovery without exceeding thresholds.

Long-Term Rotating Plans

DuPont 12-Hour Schedule

The 12-hour schedule is a rotating shift system designed for continuous 24/7 operations, particularly in industrial and chemical plants requiring round-the-clock . Developed by the chemical company in the , it addresses the challenges of maintaining production without excessive while providing employees with extended rest periods. The schedule ensures an average of 42 hours per week per employee, calculated from 14 twelve-hour shifts over a four-week cycle, balancing operational needs with fair labor distribution. At its core, the schedule follows a 2-2-3 rotating pattern using twelve-hour shifts: two consecutive day shifts, two consecutive night shifts, followed by three days off, repeating in a 28-day cycle across four teams. This structure provides full coverage with two teams working days and two working nights at any given time, minimizing gaps in staffing for facilities like refineries or plants. The pattern limits consecutive night shifts to a maximum of four, helping to mitigate accumulation while allowing for predictable time off. Implementation typically involves labeling the four teams as A, B, C, and D, with teams A and B assigned to day shifts and teams C and D to night shifts, rotating slowly through the 2-2-3 sequence to ensure even workload distribution. For example, Team A might work two days, then two nights, and three off, while offsetting teams cover the intervals, creating seamless transitions. This setup was originally tailored for DuPont's 24/7 chemical processing plants, where uninterrupted operations are critical. Variations of the DuPont schedule often include adjustments for holidays, such as swapping shifts or adding compensatory days off to maintain and compliance with labor laws. Additionally, modern implementations use scheduling software to model rotations, simulate risks, and ensure regulatory adherence, allowing customization like shorter 21-day cycles or altered off-day spacing for specific industries.

Seven-Day Eight-Hour Rotation

The seven-day eight-hour rotation employs four teams that cycle through day, evening, and night shifts, each lasting eight hours, to achieve balanced 24/7 coverage while averaging 42 hours per week per employee. This structure uses a 28-day cycle with slower rotations to distribute shift types equitably and minimize long-term exposure to any single time period. This schedule became a standard in the utilities sector during the early , as industries requiring continuous operations adopted the eight-hour day in response to labor reforms aimed at reducing excessive work hours from the prior 10- to 12-hour norms prevalent in the late . In practice, the mechanics involve a forward-rotating pattern where teams work seven consecutive days on one shift type before two days off, progressing through day (e.g., 7:00 a.m. to 3:00 p.m.), evening (3:00 p.m. to 11:00 p.m.), and night (11:00 p.m. to 7:00 a.m.) over the cycle; for instance, Team 1 might cover day shifts Monday through Sunday, then two off, followed by evening shifts, while other teams offset to fill all slots without gaps. This progression ensures an even allocation of night shifts—approximately one-third for each team over the cycle—promoting fairness and reducing fatigue from prolonged night work. Adaptations for non-continuous operations include compressing the to align with five-day work weeks, where off days and shift cycles are condensed to fit standard , often resulting in adjusted weekly totals closer to 40 hours. The plan is widely applied in call centers, where it supports round-the-clock service demands through predictable rotations that aid in staffing forecasts and .

Special Shift Arrangements

On-Call Duties

On-call duties refer to arrangements in shift plans where employees remain available outside their regular working hours to respond to unforeseen needs or emergencies, typically without performing active work unless called upon. These duties place workers in a standby status, requiring them to be reachable via phone or other devices and prepared to report to work within a specified timeframe, such as 15 to 30 minutes, depending on organizational policies and legal requirements. Under the U.S. Fair Labor Standards Act (FLSA), on-call time is considered compensable hours worked only if the employee's is substantially restricted, preventing effective use for personal activities; otherwise, it may qualify as non-compensable waiting time. Compensation for on-call duties often includes stipends, flat fees, or hourly rates for the availability period, separate from pay for actual response time, to acknowledge the readiness . Integration of on-call duties into regular shift plans typically occurs as a supplemental layer, such as assigning them following a standard shift like a night rotation, to ensure continuous coverage without overlapping active hours. Employers must define clear response protocols, including maximum allowable delay times, to balance operational needs with employee rest periods, aligning with broader principles of work-life separation. In practice, these duties are scheduled in rotations to distribute the burden equitably, often using software tools for automated notifications and tracking to monitor compliance and availability. For instance, in healthcare settings, on-call assignments for nurses or physicians are layered onto weekly shifts to provide 24/7 patient care, with legal mandates under FLSA requiring if the employee must remain on premises or nearby. Similarly, IT support teams integrate on-call rotations for nights and weekends, where workers monitor systems remotely and respond to alerts, compensated via per-incident fees or monthly allowances in addition to base pay. Challenges associated with on-call duties include the erosion of boundaries between work and personal life, leading to heightened , stress, and interference with home responsibilities, as employees must forgo certain activities to maintain readiness. indicates that the unpredictability of calls exacerbates these issues, potentially increasing turnover and reducing performance, particularly in high-stakes fields like healthcare where on-call work correlates with elevated disruption. To mitigate this, organizations increasingly rely on digital tracking applications, such as platforms, to log on-call periods, automate escalations, and ensure fair rotation, thereby supporting compliance with labor laws like FLSA while preserving employee well-being.

Graveyard and Split Shifts

Graveyard shifts, commonly defined as late-night work periods spanning approximately 11 p.m. to 7 a.m., are essential for industries requiring continuous operations during off-peak hours. These shifts often lead to significant risks, including disruption and misalignment, which elevate the likelihood of chronic conditions such as , , and gastrointestinal disorders. To compensate for these demands, workers on graveyard shifts typically receive a pay premium ranging from 5% to 20% above standard rates, varying by and collective agreements. Split shifts, by contrast, divide an employee's workday into two or more segments within the same day, separated by an extended unpaid break exceeding a typical period, such as from 10 a.m. to 2 p.m. followed by 5 p.m. to 9 p.m. This arrangement is prevalent in the sector, where it aligns staffing with peak times while allowing downtime in quieter periods, as seen in schedules covering and rushes. For part-time employees, split shifts may consist of shorter blocks, like two 4-hour segments, to provide flexibility without full-day commitment. To equitably distribute the challenges of graveyard shifts, many organizations employ rotation systems, where employees cycle through day, evening, and night assignments over set intervals, ensuring no single worker bears the burden indefinitely. Such rotations can help alleviate some long-term health impacts associated with prolonged night work, though detailed effects are addressed in broader health considerations. In the European Union, regulations under the Working Time Directive cap night work at an average of 8 hours per 24-hour period and impose limits on consecutive shifts, with member states like the Netherlands restricting them to a maximum of 7 (or exceptionally 8) in a row to protect worker well-being.

Industry-Specific Applications

Firefighting and Emergency Services

In firefighting and emergency services, shift plans are tailored to ensure continuous 24-hour coverage for unpredictable, high-stress responses while balancing personnel availability and recovery time. These schedules typically divide crews into platoons that rotate through extended on-duty periods, allowing for rapid mobilization during incidents like structure fires or medical emergencies. The structures emphasize reliability in to maintain operational readiness, often adapting to department size and local demands. Three-platoon schedules remain a for many fire departments, organizing crews into A, B, and C s that provide overlapping coverage. A standard rotation involves 24 hours on duty followed by 48 to 72 hours off, enabling firefighters to recharge while ensuring no gaps in service. The Kelly schedule, a widely adopted variant within this system, follows a repeating 9-day cycle: each works 24 hours on, 24 hours off, another 24 hours on, and then 96 hours off, incorporating an extra "Kelly day" for additional rest. This pattern averages 56 hours per week and has been used by departments like the Mishawaka Fire Department to optimize work-life balance. Four-platoon schedules are employed by larger departments to distribute workload and enhance coverage, often featuring rotations with varying shift lengths to reduce . For instance, the Redmond Fire & Rescue Department evaluated a four-platoon model with 24-hour shifts (24 on/24 off/24 on/120 off) to manage staffing costs and improve response efficiency, finding it suitable for high-volume areas. This approach allows for greater flexibility in assigning personnel to specialized units like hazmat or rescue teams. Split day/night rotations, commonly using 12-hour shifts, alternate between daylight (e.g., 7 a.m. to 7 p.m.) and nighttime (7 p.m. to 7 a.m.) duties to simulate natural circadian rhythms and incorporate dedicated training days. Firefighters might work two to three consecutive 12-hour days before rotating, with schedules like four on and four off providing extended recovery periods. This format supports integrated operations, such as joint fire-EMS responses, and is prevalent in departments balancing suppression and prevention activities. As of 2024, the (IAFF) notes that 12-hour shifts are associated with mixed sleep quality outcomes, with recommendations to monitor per NIOSH guidelines. Adaptations for paramedics within emergency services often build on 12-hour shifts, with crews working four consecutive days followed by four off, resulting in 48 hours weekly, below the 53-hour FLSA overtime threshold for public safety employees under Section 7(k). These schedules accommodate high call volumes by allowing seamless handoffs and supplemental staffing during peaks. Post-9/11, enhancements to shift plans focused on response readiness, including streamlined off-duty recall procedures and increased training integration, as recommended in the FDNY's operational review to address mobilization challenges during major incidents.

Manufacturing and Continuous Operations

In manufacturing and continuous operations, shift plans are designed to ensure uninterrupted production in facilities such as factories, chemical plants, and utilities, where downtime can lead to significant financial losses. Standard setups include the 12-hour rotating schedule, commonly used in chemical plants to provide 24/7 coverage with four crews alternating between day and night shifts over a 28-day cycle, allowing workers to average 42 hours per week while minimizing shift handovers. In contrast, assembly lines often employ a three-shift system of eight-hour rotations—day, evening, and night—to cover full operational capacity without overlap, as a single eight-hour shift utilizes less than one-third of available time in round-the-clock environments. Key traits of these plans emphasize zero downtime through overlapping or seamless transitions between shifts and just-in-time staffing to align workforce levels with production needs, preventing bottlenecks in high-volume settings. For instance, in the auto industry, Ford Motor Company's adoption of a three eight-hour shift model in 1914 enabled continuous operations, transforming by reducing daily shifts from two nine-hour periods to three balanced ones, which supported the Model T's output and set a precedent for modern automotive manufacturing. These approaches prioritize predictability and efficiency in machine-paced environments, differing from long-term rotating plans by focusing on daily continuity rather than extended cycles. Variations in shift plans accommodate fluctuations, such as adding extra weekend shifts during seasonal demand peaks in industries like consumer goods , where production ramps up for cycles without disrupting core rotations. Automation further influences these plans by reducing required team sizes in routine tasks; for example, robotic systems in assembly lines can significantly shrink needs, allowing smaller crews to handle continuous operations while reallocating labor to oversight roles. To manage such dynamics, (ERP) software enables real-time adjustments, integrating production data to automatically reschedule shifts based on demand changes, machine availability, or absences, thereby optimizing staffing in volatile manufacturing contexts.

Advantages and Challenges

Benefits of Shift Planning

Well-designed shift plans offer significant operational benefits by optimizing staffing levels to match demand fluctuations, thereby enhancing flexibility and reducing unnecessary labor expenses. For instance, in a at , implementing predictable scheduling practices led to a 1.8% reduction in labor hours while maintaining coverage, translating to direct cost savings on without compromising . Additionally, efficient shift planning minimizes overstaffing during low-demand periods and understaffing during peaks, allowing organizations to achieve up to 5% improvements in labor , as measured by sales per labor hour in the same study. For workers, shift planning provides predictability that lowers levels and supports better work-life balance through structured rotations. on participatory scheduling software shows that it increases employee control over scheduling but is not associated with changes in psychological distress, self-rated , or work-life conflict, while enabling alignment of work with personal commitments such as family or . Rotational schedules also create opportunities for , offering voluntary additional hours that can boost earnings without mandatory extensions, while fostering a sense of fairness in distribution. At the organizational level, effective shift planning drives higher and overall gains from better-rested staff. A comprehensive analysis of fair scheduling practices found that accommodating employee availability in shifts results in 22.9% lower turnover rates, equating to substantial savings since replacing low-wage workers costs about 20% of their annual in and . benefits include a 5.1% increase in output , alongside reports from 64% of workers and 74% of managers noting reduced due to more reliable routines. These outcomes contribute to positive ROI, with stable scheduling yielding a 7% median sales uplift in intervention groups, far outweighing minimal implementation costs. Shift work, particularly night shifts, disrupts the body's circadian rhythms, leading to sleep disorders such as shift work sleep disorder (SWSD), characterized by insomnia and excessive daytime sleepiness. This misalignment increases the risk of cardiovascular diseases, including hypertension and coronary heart disease, with studies showing an 8-20% higher risk of cardiovascular mortality among shift workers due to interrelated factors like stress and poor sleep. The International Agency for Research on Cancer (IARC), part of the World Health Organization (WHO), classifies night shift work as "probably carcinogenic to humans" (Group 2A), based on limited evidence from human studies linking long-term exposure to increased breast and prostate cancer risks. Recent 2025 research further associates night shift work with elevated risks of irritable bowel syndrome and mental health issues like anxiety, stress, and depression, with rotating shifts showing higher overall cancer and cardiovascular risks compared to fixed night shifts. Fatigue is a key concern, with NASA's biomathematical models, such as the Fatigue Avoidance Task Scheduler (FACTS), predicting performance impairments from sleep loss and circadian desynchrony in irregular schedules. To mitigate these health effects, interventions like bright light therapy during night shifts can help realign circadian rhythms by suppressing and boosting alertness, while strategic naps (20-30 minutes) before or during shifts reduce sleepiness without causing . The European Union's Directive limits average weekly working hours to 48, including , to prevent excessive fatigue, with mandatory 11-hour daily rest periods and four weeks' . In the United States, the (OSHA) provides guidelines for extended shifts, recommending additional breaks, meal periods, and recovery time to maintain alertness, though it does not mandate specific rest durations. Legally, many jurisdictions require or incentivize wage premiums for night work to compensate for risks; for instance, U.S. federal employees receive a 10% differential for regularly scheduled night shifts under Office of Personnel Management rules. Union agreements often negotiate these premiums, such as percentage-based increases for evening or night hours, to address the demands of . Shift assignments must comply with anti-discrimination laws; under U.S. Title VII of the , employers cannot base assignments on protected characteristics like or race, as this could constitute adverse action if it results in tangible harm. Recent 2020s research highlights how symptoms, such as persistent and cognitive dysfunction, exacerbate challenges, with studies showing up to 38% prevalence of among workers leading to reduced work ability and increased . Emerging AI tools for predictive risk management analyze sleep patterns and schedules to assess and mitigate risks through optimized rostering.

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