Resampling overview

The resampling infrastructure is described in ResamplingAlgorithms (for its API). The goal of this page is to give an overview of the available resampling algorithms and their usage.

The resampling is specified for each parameter in the [Interpol1D] section. This section contains a list of the various meteo parameters with their associated choice of resampling algorithm and optional parameters. If a meteo parameter is not listed in this section, a linear resampling would be assumed. An example of such section is given below:

[Interpolations1D]

WINDOW_SIZE = 86400

TA::resample = linear

RH::resample = linear

RH::linear::window_size = 172800

VW::resample = nearest

VW::nearest::extrapolate = true

PSUM::resample = accumulate

PSUM::accumulate::period = 3600

Most of the resampling algorithms allow you to define per-meteo parameter and per-algorithm the WINDOW_SIZE. Otherwise, the section's WINDOW_SIZE is used as default window size. This represents the biggest gap that can be interpolated (in seconds). Therefore if two valid points are less than WINDOW_SIZE seconds apart, points in between will be interpolated. If they are further apart, all points in between will remain IOUtils::nodata. If using the "extrapolate" optional argument, points at WINDOW_SIZE distance of only one valid point will be extrapolated, otherwise they will remain IOUtils::nodata. Please keep in mind that allowing extrapolated values can lead to grossly out of range data: using the slope between two hourly measurements to extrapolate a point 10 days ahead is obviously risky!

By default, WINDOW_SIZE is set to 2 days. This key has a **potentially large impact on run time/performance**.

Several algorithms for the resampling are implemented:

- none: do not perform resampling, see NoResampling
- nearest: nearest neighbor data resampling, see NearestNeighbour
- linear: linear data resampling, see LinearResampling
- accumulate: data re-accumulation as suitable for precipitations, see Accumulate
- solar: resample solar radiation by interpolating an atmospheric loss factor, see Solar
- daily_solar: generate solar radiation (ISWR or RSWR) from daily sums, see Daily_solar
- daily_avg: generate a sinusoidal variation around the measurement taken as daily average and of a given amplitude, see DailyAverage

- Note
- By default a linear resampling will be performed. It is possible to turn off all resampling by setting the
*Enable_Resampling*key to*false*in the [Interpolations1D] section.