lppier/frac-diff_sk

## frac-diff_sk
"""
Python code for fractional differencing of pandas time series
illustrating the concepts of the article "Preserving Memory in Stationary Time Series"
by Simon Kuttruf

While this code is dedicated to the public domain for use without permission, the author disclaims any liability in connection with the use of this code.
"""

import numpy as np
import pandas as pd
import matplotlib.pyplot as plt

def getWeights(d,lags):
    # return the weights from the series expansion of the differencing operator
    # for real orders d and up to lags coefficients
    w=[1]
    for k in range(1,lags):
        w.append(-w[-1]*((d-k+1))/k)
    w=np.array(w).reshape(-1,1)
    return w

def plotWeights(dRange, lags, numberPlots):
    weights=pd.DataFrame(np.zeros((lags, numberPlots)))
    interval=np.linspace(dRange[0],dRange[1],numberPlots)
    for i, diff_order in enumerate(interval):
        weights[i]=getWeights(diff_order,lags)
    weights.columns = [round(x,2) for x in interval]
    fig=weights.plot()
    plt.legend(title='Order of differencing')
    plt.title('Lag coefficients for various orders of differencing')
    plt.xlabel('lag coefficients')
    #plt.grid(False)
    plt.show()

plotWeights([0,1],7,6)

def ts_differencing(series, order, lag_cutoff):
    # return the time series resulting from (fractional) differencing
    # for real orders order up to lag_cutoff coefficients

    weights=getWeights(order, lag_cutoff)
    res=0
    for k in range(lag_cutoff):
        res += weights[k]*series.shift(k).fillna(0)
    return res[lag_cutoff:]


def plotMemoryVsCorr(result, seriesName):
    fig, ax = plt.subplots()
    ax2 = ax.twinx()
    color1='xkcd:deep red'; color2='xkcd:cornflower blue'
    ax.plot(result.order,result['adf'],color=color1)
    ax.plot(result.order, result['5%'], color='xkcd:slate')
    ax2.plot(result.order,result['corr'], color=color2)
    ax.set_xlabel('order of differencing')
    ax.set_ylabel('adf', color=color1);ax.tick_params(axis='y', labelcolor=color1)
    ax2.set_ylabel('corr', color=color2); ax2.tick_params(axis='y', labelcolor=color2)
    plt.title('ADF test statistics and correlation for %s' % (seriesName))
    plt.show()


from statsmodels.tsa.stattools import adfuller
def MemoryVsCorr(series, dRange, numberPlots, lag_cutoff, seriesName):
    # return a data frame and plot comparing adf statistics and linear correlation
    # for numberPlots orders of differencing in the interval dRange up to a lag_cutoff coefficients

    interval=np.linspace(dRange[0], dRange[1],numberPlots)
    result=pd.DataFrame(np.zeros((len(interval),4)))
    result.columns = ['order','adf','corr', '5%']
    result['order']=interval
    for counter,order in enumerate(interval):
        seq_traf=ts_differencing(series,order,lag_cutoff)
        res=adfuller(seq_traf, maxlag=1, regression='c') #autolag='AIC'
        result.loc[counter,'adf']=res[0]
        result.loc[counter,'5%']=res[4]['5%']
        result.loc[counter,'corr']= np.corrcoef(series[lag_cutoff:].fillna(0),seq_traf)[0,1]
    plotMemoryVsCorr(result, seriesName)
    return result
	"""
	Python code for fractional differencing of pandas time series
	illustrating the concepts of the article "Preserving Memory in Stationary Time Series"
	by Simon Kuttruf

	While this code is dedicated to the public domain for use without permission, the author disclaims any liability in connection with the use of this code.
	"""

	import numpy as np
	import pandas as pd
	import matplotlib.pyplot as plt

	def getWeights(d,lags):
	# return the weights from the series expansion of the differencing operator
	# for real orders d and up to lags coefficients
	w=[1]
	for k in range(1,lags):
	w.append(-w[-1]*((d-k+1))/k)
	w=np.array(w).reshape(-1,1)
	return w

	def plotWeights(dRange, lags, numberPlots):
	weights=pd.DataFrame(np.zeros((lags, numberPlots)))
	interval=np.linspace(dRange[0],dRange[1],numberPlots)
	for i, diff_order in enumerate(interval):
	weights[i]=getWeights(diff_order,lags)
	weights.columns = [round(x,2) for x in interval]
	fig=weights.plot()
	plt.legend(title='Order of differencing')
	plt.title('Lag coefficients for various orders of differencing')
	plt.xlabel('lag coefficients')
	#plt.grid(False)
	plt.show()

	plotWeights([0,1],7,6)

	def ts_differencing(series, order, lag_cutoff):
	# return the time series resulting from (fractional) differencing
	# for real orders order up to lag_cutoff coefficients

	weights=getWeights(order, lag_cutoff)
	res=0
	for k in range(lag_cutoff):
	res += weights[k]*series.shift(k).fillna(0)
	return res[lag_cutoff:]


	def plotMemoryVsCorr(result, seriesName):
	fig, ax = plt.subplots()
	ax2 = ax.twinx()
	color1='xkcd:deep red'; color2='xkcd:cornflower blue'
	ax.plot(result.order,result['adf'],color=color1)
	ax.plot(result.order, result['5%'], color='xkcd:slate')
	ax2.plot(result.order,result['corr'], color=color2)
	ax.set_xlabel('order of differencing')
	ax.set_ylabel('adf', color=color1);ax.tick_params(axis='y', labelcolor=color1)
	ax2.set_ylabel('corr', color=color2); ax2.tick_params(axis='y', labelcolor=color2)
	plt.title('ADF test statistics and correlation for %s' % (seriesName))
	plt.show()


	from statsmodels.tsa.stattools import adfuller
	def MemoryVsCorr(series, dRange, numberPlots, lag_cutoff, seriesName):
	# return a data frame and plot comparing adf statistics and linear correlation
	# for numberPlots orders of differencing in the interval dRange up to a lag_cutoff coefficients

	interval=np.linspace(dRange[0], dRange[1],numberPlots)
	result=pd.DataFrame(np.zeros((len(interval),4)))
	result.columns = ['order','adf','corr', '5%']
	result['order']=interval
	for counter,order in enumerate(interval):
	seq_traf=ts_differencing(series,order,lag_cutoff)
	res=adfuller(seq_traf, maxlag=1, regression='c') #autolag='AIC'
	result.loc[counter,'adf']=res[0]
	result.loc[counter,'5%']=res[4]['5%']
	result.loc[counter,'corr']= np.corrcoef(series[lag_cutoff:].fillna(0),seq_traf)[0,1]
	plotMemoryVsCorr(result, seriesName)
	return result