TIME SERIES

A time series is a sequence of observations recorded over time. Learn its components, how to decompose it, and why standard statistical methods are not directly applicable.

Stationarity is the key assumption behind most time series models. Learn how to detect and fix non-stationarity using formal tests and transformations.

The ACF and PACF are the primary tools for identifying the order of AR and MA components in time series models.

Explore the Autoregressive (AR) model, a key concept in time series analysis used for modeling and forecasting data by regressing the variable onto its own lagged values.

Learn about the Moving Average (MA) model, a fundamental concept in time series analysis used to capture the impact of past error terms on current values.

Explore the ARMA model, which integrates both autoregressive and moving average components to model and forecast stationary time series data.

ARIMA extends ARMA to non-stationary series by differencing the data d times before fitting an ARMA(p,q) model.

SARIMA adds seasonal AR, differencing and MA terms to ARIMA, making it the standard model for time series with repeating seasonal patterns.

Exponential smoothing is a family of forecasting methods that assign exponentially decreasing weights to past observations, balancing recency with history.

Explore the Holt-Winters method, a triple exponential smoothing technique that models level, trend and seasonality for accurate seasonal forecasting.

ARIMAX extends ARIMA by including external (exogenous) variables as regressors, combining the autocorrelation structure of ARIMA with the explanatory power of regression.

The Kalman filter estimates unobservable states from noisy measurements by alternating between prediction and update steps, optimal under Gaussian assumptions.

GARCH models time-varying conditional variance (volatility clustering) in financial returns, extending ARCH with a more parsimonious parameterization.

EGARCH extends GARCH to capture asymmetric volatility: negative shocks increase variance more than positive shocks of the same size, a key feature of equity markets.

VAR (Vector Autoregression) extends AR to multiple time series simultaneously, capturing cross-variable dynamics and enabling impulse response analysis.