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The Algorithm
The FSRS (Free Spaced Repetition Scheduler) algorithm is based on a variant of the DSR (Difficulty, Stability, Retrievability) model, which is used to predict memory states.
Here is a visualizer to preview the interval with specific parameters and review history: Anki FSRS Visualizer (open-spaced-repetition.github.io)
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$R$ : Retrievability (probability of recall) -
$S$ : Stability (interval when R=90%)-
$S^\prime_r$ : new stability after recall -
$S^\prime_f$ : new stability after forgetting
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$D$ : Difficulty ($D \in [1, 10]$ ) -
$G$ : Grade (rating at Anki):-
$1$ :again
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$2$ :hard
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$3$ :good
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$4$ :easy
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[0.4197, 1.1869, 3.0412, 15.2441, 7.1434, 0.6477, 1.0007, 0.0674, 1.6597, 0.1712, 1.1178, 2.0225, 0.0904, 0.3025, 2.1214, 0.2498, 2.9466, 0.4891, 0.6468]
For short-term memory, the formula of stability is:
The initial difficulty after the first rating:
where the again
.
It is noteworthy that the target for mean reversion is also adjusted to good
grade.
[0.4872, 1.4003, 3.7145, 13.8206, 5.1618, 1.2298, 0.8975, 0.031, 1.6474, 0.1367, 1.0461, 2.1072, 0.0793, 0.3246, 1.587, 0.2272, 2.8755]
The formula of forgetting curve is changed in this update.
The retrievability after
where
The next interval can be calculated by solving for t in the above equation after putting the request retention in place of R:
where
In FSRS v4,
In FSRS-4.5,
The new forgetting curve drops sharply before
[0.4, 0.6, 2.4, 5.8, 4.93, 0.94, 0.86, 0.01, 1.49, 0.14, 0.94, 2.18, 0.05, 0.34, 1.26, 0.29, 2.61]
The
$w_i$ denotes w[i].
The initial stability after the first rating:
For example, again
. When the first rating is easy
, the initial stability is
The initial difficulty after the first rating:
where the good
.
The new difficulty after review:
It will calculate the new difficulty with
The retrievability after
where
The next interval can be calculated by solving for t in the above equation after putting the request retention in place of R:
where
The new stability after a successful review (the user pressed "Hard", "Good" or "Easy"):
Let
- The larger the value of D, the smaller the SInc value. This means that the increase in memory stability for difficult material is smaller than for easy material.
- The larger the value of S, the smaller the SInc value. This means that the higher the stability of the memory, the harder it becomes to make the memory even more stable.
- The smaller the value of R, the larger the SInc value. This means that the best time to review your material is when you almost forgot it (provided that you succeeded in recalling it).
- The value of SInc is always greater than or equal to 1 if the review was successful.
In FSRS, a delay in reviewing (i.e., overdue reviews) affects the next interval as follows:
As the delay increases, retention (R) decreases. If the review was successful, the subsequent stability (S) would be higher, according to point 3 above. However, instead of increasing linearly with the delay like the SM-2/Anki algorithm, the subsequent stability converges to an upper limit, which depends on your FSRS parameters.
You can modify them in this playground: https://www.geogebra.org/calculator/ahqmqjvx.
The stability after forgetting (i.e., post-lapse stability):
For example, if
[0.9605, 1.7234, 4.8527, -1.1917, -1.2956, 0.0573, 1.7352, -0.1673, 1.065, 1.8907, -0.3832, 0.5867, 1.0721]
The
$w_i$ denotes w[i].
The initial stability after the first rating:
where the again
. When the first rating is easy
, the initial stability is
The initial difficulty after the first rating:
where the good
.
The new difficulty after review:
It will calculate the new difficulty with
The retrievability of
where
The next interval can be calculated by solving for t in the above equation after putting the request retention in place of R.
where
Note: the intervals after Hard and Easy ratings are calculated differently. The interval after Easy rating will multiply easyBonus
. The interval after Hard rating is lastInterval
multiplied hardInterval
.
The new stability after recall:
Let
- The larger the value of D, the smaller the SInc value. This means that the increase in memory stability for difficult material is smaller than for easy material.
- The larger the value of S, the smaller the SInc value. This means that the higher the stability of the memory, the harder it becomes to make the memory even more stable.
- The smaller the value of R, the larger the SInc value. This means that the best time to review your material is when you almost forgot it (provided that you succeeded in recalling it).
- The value of SInc is always greater than or equal to 1 if the review was successful.
The following 3D visualization could help understand.
In FSRS, a delay in reviewing (i.e., overdue reviews) affects the next interval as follows:
As the delay increases, retention (R) decreases. If the review was successful, the subsequent stability (S) would be higher, according to point 3 above. However, instead of increasing linearly with the delay like the SM-2/Anki algorithm, the subsequent stability converges to an upper limit, which depends on your FSRS parameters.
The stability after forgetting (i.e., post-lapse stability):
For example, if
You can play the function in post-lapse stability - GeoGebra.
My representative paper at ACMKDD: A Stochastic Shortest Path Algorithm for Optimizing Spaced Repetition Scheduling
My fantastic research experience on spaced repetition algorithm: How did I publish a paper in ACMKDD as an undergraduate?
The largest open-source dataset on spaced repetition with time-series features: open-spaced-repetition/FSRS-Anki-20k