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This vignette explains some special topics regarding the use of
TimeGPT
via nixtlar
.
Before using TimeGPT
, you need to ensure that:
NA
).Regarding the second point, it is worth mentioning that it is possible to have multiple time series that start and end on different dates, but each series must contain uninterrupted data for its given time frame.
There are several ways to check for missing values in R. One method
is with the any
and is.na
functions from base
R.
df <- nixtlar::electricity # load data
# create some missing values at random
index <- sample(nrow(df), 10)
df$y[index] <- NA
# check for missing values
any(is.na(df)) # will return TRUE if there are missing values
#> [1] TRUE
If you find missing values in your data, you need to decide how to fill them, which is very context-dependent. For example, if you are dealing with daily retail data, a missing value most likely indicates that there were no sales on that day, and you can probably fill it with zero. However, if you are working with hourly temperature data, a missing value likely means that the thermometer was not functioning correctly, and you might prefer to use interpolation to fill the missing values. Whatever you decide to do, always keep in mind the nature of your data.
Checking if there are missing dates is more complicated since it
depends on the frequency of the data. Sometimes plotting can help spot
large gaps. nixtlar
has a plotting function called
nixtla_client_plot
that can be used for this.
However, this method is ineffective when the missing dates are not continuous. One possible solution is to compare the dates for every unique id with a vector of dates generated using the start date, the end date, and the frequency of your data. This requires knowing such information, which can become tricky when working with hundreds or thousands of time series.
The frequency parameter is crucial when working with time series data
because it informs the model about the expected intervals between data
points. The core functions of nixtlar
that interface with
TimeGPT
, such as nixtla_client_forecast
,
nixtla_client_historic
,
nixtla_client_detect_anomalies
, and
nixtla_client_cross_validation
, include a frequency
parameter called freq
, which has a default value of
NULL
. If you know the frequency of your data, please
specify it. If you don’t, nixtlar
will try to deduce it
from the data using the nixtlar::infer_frequency
function.
The freq
parameter supports the following aliases:
Frequency | Alias |
---|---|
Yearly | Y |
Quarterly | Q, QS, or QE |
Monthly | M, MS, or MS |
Weekly (starting Sundays) | W |
Daily | d |
Hourly | h |
Minute-level | min |
Second-level | s |
Business day | B |
In this table, QS and MS stand for quarter and month start, while QE and ME stand for quarter and month end. For quarter-end, the following dates are used.
End of Quarter Dates |
---|
YYYY-03-31 |
YYYY-06-30 |
YYYY-09-30 |
YYYY-12-31 |
For month-end, the last day of each month is used.
Hourly and sub-hourly frequencies can be preceded by an integer, such as “6h”, “10min” or “30s”. Only the aliases “min” and “s” are allowed for minute and second-level frequencies.
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.