Finish ARMA
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main.tex
49
main.tex
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\usepackage{ifthen}
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\usepackage[a4paper, landscape]{geometry}
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\usepackage{hyperref}
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\usepackage{ccicons}
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\usepackage{amsmath, amsfonts, amssymb, amsthm}
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\usepackage{listings}
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\usepackage{graphicx}
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\usepackage{fontawesome5}
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\usepackage{xcolor}
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\usepackage{float}
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\usepackage[
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type={CC},
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modifier={by-sa},
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version={3.0}
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]{doclicense}
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\graphicspath{{./img/}}
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@ -139,7 +133,6 @@
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\Large{Applied Time Series } \\
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\small{\href{http://vvz.ethz.ch/Vorlesungsverzeichnis/lerneinheit.view?semkez=2021S&ansicht=LEHRVERANSTALTUNGEN&lerneinheitId=149645&lang=de}{401-6624-11L}} \\
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\small{Jannis Portmann \the\year} \\
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{\ccbysa}
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\rule{\linewidth}{0.25pt}
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\end{center}
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@ -784,7 +777,7 @@ As with AR(p) models, there are three main steps:
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\end{itemize}
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\end{enumerate}
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\subsubsection{Parameter estimation}
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\subsubsection{Parameter estimation}\label{ma-parameter-estimation}
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The simplest idea is to exploit the relation between model parameters and autocorrelation coefficients («Yule-Walker») after the global mean $m$ has been estimated and subtracted. \\
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In contrast to the Yule-Walker method for AR(p) models, this yields an inefficient estimator that generally generates poor results and hence should not be used in practice.
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@ -862,8 +855,48 @@ May be more difficult in reality than in theory:
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\item In many cases, an AIC grid search over all $ARMA(p,q)$ with $p+q < 5$ may help to identify promising models.
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\end{itemize}
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\subsubsection{Parameter estimation}
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See \ref{ma-parameter-estimation}, with
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$$E_0 = E_{-1} = E_{-2} = \dots = 0$$
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and
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$$X_t = \alpha_1 X_{t-1} + \dots + \alpha_p X_{t-p} + E_t + \beta_1 E_{t-1} + \dots + \beta_q X_{t-q}$$
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respectively.
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\subsubsection{R example}
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\begin{lstlisting}[language=R]
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> fit0 <- arima(nao, order=c(1,0,1));
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Coefficients:
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ar1 ma1 intercept
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0.3273 -0.1285 -0.0012
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s.e. 0.1495 0.1565 0.0446
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sigma^2=0.9974; log-likelihood=-1192.28, aic=2392.55
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\end{lstlisting}
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\subsubsection{Residual analysis}
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See \ref{residual-analysis} again
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\subsubsection{AIC-based model choice}
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In R, finding the AIC-minimizing $ARMA(p,q)$-model is convenient with the use of \verb|auto.arima()| from \verb|library(forecast)|. \\
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\vspace{.2cm}
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\textbf{Beware}: Handle this function with care! It will always identify a «best fitting» $ARMA(p,q)$, but there is no guarantee that this model provides an adequate fit! \\
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\vspace{.2cm}
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Using \verb|auto.arima()| should always be complemented by visual inspection of the time series for assessing stationarity, verifying the ACF/PACF plots for a second thought on suitable models. Finally, model diagnostics with the usual residual plots will decide whether the model is useful in practice.
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\section{General concepts}
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\subsection{AIC}
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The \textit{Akaike-information-criterion} is useful for determining the order of an $ARMA(p,q)$ model. The formula is as follows:
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$$AIC = -2 \log (L) + 2(p+q+k+1)$$
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where
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\begin{itemize}
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\item $\log(L)$: Goodness-of-fit criterion: Log-likelihood function
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\item $p+q+k+1$: Penalty for model complexity: $p, q$ are the $AR$- resp. $MA$-orders; $k = 1$ if a global mean is in use, else $0$ . The final $+1$ is for the innovation variance
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\end{itemize}
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For small samples $n$, often a corrected version is used:
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$$AICc = AIC + \frac{2(p + q + k + 1)(p + q + k + 2)}{n - p - q - k - 2}$$
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\scriptsize
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\newpage
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\section*{Copyright}
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Nearly everything is copy paste from the slides or the script. Copyright belongs to M. Dettling \\
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\faGlobeEurope \kern 1em \url{https://n.ethz.ch/~jannisp/ats-zf} \\
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