Stationary Bootstrap

Versión 1.0.6 (3,95 KB) por Gregor Fabjan

Stationary bootstrap algorithm for resampling weakly-dependent stationary data. Based on the 1994 paper by Politis & Romano.

https://open-source.tools/

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A block resampling method used for weakly-dependent stationary time-series data proposed in the 1994 paper by Politis & Romano (https://www.jstor.org/stable/2290993).

Problem

When using non-parametric tools to generate counterfactual scenarios or empirical distributions, bootstrapping methods proved to be a powerful and easy-to-use tool. However the bootstrap in its simplest implementation assumes a time-series in which observations are independent. In a lot of applications this is not the case.

An example of this is interest rate modelling when business cycles need to be considered. The presence of business cycles makes the time-series weakly time dependent. To account for this, block-resampling techniques are used.

Solution

Stationary bootstrap is a block-resampling technique that relaxes the assumption of a fixed lenght of a sampling block. The user still needs to specify an average length, but because this is true only on average, shorter/longer blocks are also present in the final sample.

The algorithm works by randomly selecting a starting point in the time-series and at each step it either increases the block size by one or selects a new block with a new starting point. This choice happens with a fixed probability governed by the parametrisation.

Input

A time-series that you want to bootstrap
The parameter m describing the average duration of the blocks in the sample
The length of the output sample

Output

Vector of bootstrapped values of specified length

Getting started

Given the time-series with observed values 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, the user is looking to bootstrap a new sample of length 9 where the average block is of size 4.

data = [1; 2; 3; 4; 5; 6; 7; 8; 9; 10];
StationaryBootstrap(data, 4, 9)
>> ans = [6; 5; 6; 7; 8; 9; 9; 10; 1]

Calibration of m

For the calibration of the parameter, a really good source is Andrew J. Patton's implementation that can be found here: http://public.econ.duke.edu/~ap172/

Example script

Script IRS_Example.m contains an example of bootstraping the EURO denominated 6M interest-rate-swap rate. Data is obtained from the Italian stock exchange: https://www.teleborsa.it/Quotazioni/Tassi/Eurirs for date 12/11/2021

The missing maturities are interpolated using the Smith & Wilson algorithm found here:

https://www.mathworks.com/matlabcentral/fileexchange/100476-smith-wilson-algorithm

Citar como

Gregor Fabjan (2024). Stationary Bootstrap (https://github.com/qnity/stationary_bootstrap_matlab), GitHub. Recuperado 26 abril, 2024.

Dimitris N. Politis & Joseph P. Romano (1994) The Stationary Bootstrap, Journal of the American Statistical Association, 89:428, 1303-1313, DOI: 10.1080/01621459.1994.10476870

Compatibilidad con la versión de MATLAB

Se creó con R2021b

Compatible con cualquier versión

Compatibilidad con las plataformas

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Versión	Publicado	Notas de la versión
1.0.6	18 oct 2022	Project now has a website
1.0.5	18 oct 2022	Linked to GitHub
1.0.4	17 jul 2022	Link to new GitHub	Descargar
1.0.3	10 dic 2021	Redesign of the description.	Descargar
1.0.2	15 nov 2021	Added an example of bootstrapping Italian interest rate swaps	Descargar
1.0.1	12 nov 2021	Added a link to a Matlab code for calibrating the parameter "m".	Descargar
1.0.0	12 nov 2021		Descargar

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