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I have a 3D array which has a time-series of air-sea carbon flux for each grid point on the earth's surface (model output). I want to remove the trend (linear) in the time series. I came across this code:

from matplotlib import mlab

for x in xrange(40):
    for y in xrange(182):
        cflux_detrended[:, x, y] = mlab.detrend_linear(cflux[:, x, y])

Can I speed this up by not using for loops?

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2  
Do you really want to remove separate trends at each gridpoint as in the double loop, or do you want to remove a common trend? Both can be done as one big linear model fit and predict, with stacking or reshaping. –  user333700 Dec 2 '11 at 16:40
    
@user333700 I guess I would like to have a look at both results. I see that removing the trend of the data would be more useful than removing the trend at each gridpoint. –  nicholaschris Dec 2 '11 at 17:44

3 Answers 3

up vote 1 down vote accepted

Here are two versions using numpy.linalg.lstsq. This version uses np.vander to create any polynomial trend.

Warning: not tested except on the example.

I think something like this will be added to scikits.statsmodels, which doesn't have yet a multivariate version for detrending either. For the common trend case, we could use scikits.statsmodels OLS and we would also get all the result statistics for the estimation.

# -*- coding: utf-8 -*-
"""Detrending multivariate array

Created on Fri Dec 02 15:08:42 2011

Author: Josef Perktold

http://stackoverflow.com/questions/8355197/detrending-a-time-series-of-a-multi-dimensional-array-without-the-for-loops

I should also add the multivariate version to statsmodels

"""

import numpy as np

import matplotlib.pyplot as plt


def detrend_common(y, order=1):
    '''detrend multivariate series by common trend

    Paramters
    ---------
    y : ndarray
       data, can be 1d or nd. if ndim is greater then 1, then observations
       are along zero axis
    order : int
       degree of polynomial trend, 1 is linear, 0 is constant

    Returns
    -------
    y_detrended : ndarray
       detrended data in same shape as original 

    '''
    nobs = y.shape[0]
    shape = y.shape
    y_ = y.ravel()
    nobs_ = len(y_)
    t = np.repeat(np.arange(nobs), nobs_ /float(nobs))
    exog = np.vander(t, order+1)
    params = np.linalg.lstsq(exog, y_)[0]
    fittedvalues = np.dot(exog, params)
    resid = (y_ - fittedvalues).reshape(*shape)
    return resid, params

def detrend_separate(y, order=1):
    '''detrend multivariate series by series specific trends

    Paramters
    ---------
    y : ndarray
       data, can be 1d or nd. if ndim is greater then 1, then observations
       are along zero axis
    order : int
       degree of polynomial trend, 1 is linear, 0 is constant

    Returns
    -------
    y_detrended : ndarray
       detrended data in same shape as original 

    '''
    nobs = y.shape[0]
    shape = y.shape
    y_ = y.reshape(nobs, -1)
    kvars_ = len(y_)
    t = np.arange(nobs)
    exog = np.vander(t, order+1)
    params = np.linalg.lstsq(exog, y_)[0]
    fittedvalues = np.dot(exog, params)
    resid = (y_ - fittedvalues).reshape(*shape)
    return resid, params

nobs = 30
sige = 0.1
y0 = 0.5 * np.random.randn(nobs,4,3)
t = np.arange(nobs)
y_observed = y0 + t[:,None,None]

for detrend_func, name in zip([detrend_common, detrend_separate], 
                               ['common', 'separate']):
    y_detrended, params = detrend_func(y_observed, order=1)
    print '\n\n', name 
    print 'params for detrending'
    print params
    print 'std of detrended', y_detrended.std()  #should be roughly sig=0.5 (var of y0)
    print 'maxabs', np.max(np.abs(y_detrended - y0))

    print 'observed'
    print y_observed[-1]
    print 'detrended'
    print y_detrended[-1]
    print 'original "true"'
    print y0[-1]

    plt.figure()
    for i in range(4):
        for j in range(3):
            plt.plot(y0[:,i,j], 'bo', alpha=0.75)
            plt.plot(y_detrended[:,i,j], 'ro', alpha=0.75)
    plt.title(name + ' detrending: blue - original, red - detrended')


plt.show()

Since Nicholas pointed out scipy.signal.detrend. My detrend separate is basically the same as scipy.signal.detrend with fewer (no axis or breaks) or different (with polynomial order) options.

>>> res = signal.detrend(y_observed, axis=0)
>>> (res - y0).var()
0.016931858083279336
>>> (y_detrended - y0).var()
0.01693185808327945
>>> (res - y_detrended).var()
8.402584948582852e-30
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@Thanks for your time. I have tried it and using detrend_seperate returns the same result as the original post and scipy.signal.detrend. I have tried using detrend_common but I have a masked array so I filled the masked values with zeros and it worked great. Thanks for the great answer! –  nicholaschris Dec 7 '11 at 13:29

I think a plain old list comprehension is easiest:

cflux_detrended = np.array([[mlab.detrend_linear(t) for t in kk] for kk in cflux.T])
share|improve this answer
    
Thanks, I need to remember about list comprehensions. –  nicholaschris Dec 2 '11 at 20:32
    
When I try this piece of code as is, the result is very different from using the method in the question. Any reasons why this would be? –  nicholaschris Dec 7 '11 at 12:14

Scipy has a lot of signal processing tools. Using scipy.signal.detrend will remove the linear trend along an axis of the data. From the documentation it looks like the linear trend of the complete data set will be subtracted from the time-series at each grid point.

from scipy import signal
cflux_detrended = scipy.signal.detrend(cflux, axis=0)

Using scipy.signal will get the same result as using the method in the original post. Using Josef's detrend_separate function will also return the same result.

detrending cflux

share|improve this answer
    
good to know. I didn't know or remember this one. I looked at the source and it looks similar to my separate trend version, restricted to linear trend (or constant), but more general otherwise. However, my numbers don't match up with signal.detrend. ??? –  user333700 Dec 2 '11 at 21:54
    
@user333700 The answers match up very well. –  nicholaschris Dec 7 '11 at 13:21

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