Python | ARIMA Model for Time Series Forecasting Last Updated : 19 Feb, 2020 Comments Improve Suggest changes Like Article Like Report A Time Series is defined as a series of data points indexed in time order. The time order can be daily, monthly, or even yearly. Given below is an example of a Time Series that illustrates the number of passengers of an airline per month from the year 1949 to 1960. Time Series Forecasting Time Series forecasting is the process of using a statistical model to predict future values of a time series based on past results. Some Use Cases To predict the number of incoming or churning customers. To explaining seasonal patterns in sales. To detect unusual events and estimate the magnitude of their effect. To Estimate the effect of a newly launched product on number of sold units. Components of a Time Series: Trend:The trend shows a general direction of the time series data over a long period of time. A trend can be increasing(upward), decreasing(downward), or horizontal(stationary). Seasonality:The seasonality component exhibits a trend that repeats with respect to timing, direction, and magnitude. Some examples include an increase in water consumption in summer due to hot weather conditions, or an increase in the number of airline passengers during holidays each year. Cyclical Component: These are the trends with no set repetition over a particular period of time. A cycle refers to the period of ups and downs, booms and slums of a time series, mostly observed in business cycles. These cycles do not exhibit a seasonal variation but generally occur over a time period of 3 to 12 years depending on the nature of the time series. Irregular Variation: These are the fluctuations in the time series data which become evident when trend and cyclical variations are removed. These variations are unpredictable, erratic, and may or may not be random. ETS Decomposition ETS Decomposition is used to separate different components of a time series. The term ETS stands for Error, Trend, and Seasonality. Code: ETS Decomposition of Airline Passengers Dataset: Python3 1== # Importing required libraries import numpy as np import pandas as pd import matplotlib.pylot as plt from statsmodels.tsa.seasonal import seasonal_decompose # Read the AirPassengers dataset airline = pd.read_csv('AirPassengers.csv', index_col ='Month', parse_dates = True) # Print the first five rows of the dataset airline.head() # ETS Decomposition result = seasonal_decompose(airline['# Passengers'], model ='multiplicative') # ETS plot result.plot() Output: ARIMA Model for Time Series Forecasting ARIMA stands for autoregressive integrated moving average model and is specified by three order parameters: (p, d, q). AR(p) Autoregression - a regression model that utilizes the dependent relationship between a current observation and observations over a previous period.An auto regressive (AR(p)) component refers to the use of past values in the regression equation for the time series. I(d) Integration - uses differencing of observations (subtracting an observation from observation at the previous time step) in order to make the time series stationary. Differencing involves the subtraction of the current values of a series with its previous values d number of times. MA(q) Moving Average - a model that uses the dependency between an observation and a residual error from a moving average model applied to lagged observations. A moving average component depicts the error of the model as a combination of previous error terms. The order q represents the number of terms to be included in the model. Types of ARIMA Model ARIMA:Non-seasonal Autoregressive Integrated Moving Averages SARIMA:Seasonal ARIMA SARIMAX:Seasonal ARIMA with exogenous variables Pyramid Auto-ARIMA The 'auto_arima' function from the 'pmdarima' library helps us to identify the most optimal parameters for an ARIMA model and returns a fitted ARIMA model. Code : Parameter Analysis for the ARIMA model Python3 1== # To install the library pip install pmdarima # Import the library from pmdarima import auto_arima # Ignore harmless warnings import warnings warnings.filterwarnings("ignore") # Fit auto_arima function to AirPassengers dataset stepwise_fit = auto_arima(airline['# Passengers'], start_p = 1, start_q = 1, max_p = 3, max_q = 3, m = 12, start_P = 0, seasonal = True, d = None, D = 1, trace = True, error_action ='ignore', # we don't want to know if an order does not work suppress_warnings = True, # we don't want convergence warnings stepwise = True) # set to stepwise # To print the summary stepwise_fit.summary() Output: Code : Fit ARIMA Model to AirPassengers dataset Python3 1== # Split data into train / test sets train = airline.iloc[:len(airline)-12] test = airline.iloc[len(airline)-12:] # set one year(12 months) for testing # Fit a SARIMAX(0, 1, 1)x(2, 1, 1, 12) on the training set from statsmodels.tsa.statespace.sarimax import SARIMAX model = SARIMAX(train['# Passengers'], order = (0, 1, 1), seasonal_order =(2, 1, 1, 12)) result = model.fit() result.summary() Output: Code : Predictions of ARIMA Model against the test set Python3 1== start = len(train) end = len(train) + len(test) - 1 # Predictions for one-year against the test set predictions = result.predict(start, end, typ = 'levels').rename("Predictions") # plot predictions and actual values predictions.plot(legend = True) test['# Passengers'].plot(legend = True) Output: Code : Evaluate the model using MSE and RMSE Python3 1== # Load specific evaluation tools from sklearn.metrics import mean_squared_error from statsmodels.tools.eval_measures import rmse # Calculate root mean squared error rmse(test["# Passengers"], predictions) # Calculate mean squared error mean_squared_error(test["# Passengers"], predictions) Output: Code : Forecast using ARIMA Model Python3 1== # Train the model on the full dataset model = model = SARIMAX(airline['# Passengers'], order = (0, 1, 1), seasonal_order =(2, 1, 1, 12)) result = model.fit() # Forecast for the next 3 years forecast = result.predict(start = len(airline), end = (len(airline)-1) + 3 * 12, typ = 'levels').rename('Forecast') # Plot the forecast values airline['# Passengers'].plot(figsize = (12, 5), legend = True) forecast.plot(legend = True) Output: Comment More infoAdvertise with us Next Article Introduction to Machine Learning S samishawl Follow Improve Article Tags : Machine Learning AI-ML-DS AI-ML-DS With Python Practice Tags : Machine Learning Similar Reads Machine Learning Tutorial Machine learning is a branch of Artificial Intelligence that focuses on developing models and algorithms that let computers learn from data without being explicitly programmed for every task. 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