org.apache.commons.math.optimization.fitting
Class HarmonicCoefficientsGuesser

java.lang.Object
  extended by org.apache.commons.math.optimization.fitting.HarmonicCoefficientsGuesser

public class HarmonicCoefficientsGuesser
extends Object

This class guesses harmonic coefficients from a sample.

The algorithm used to guess the coefficients is as follows:

We know f (t) at some sampling points ti and want to find a, ω and φ such that f (t) = a cos (ω t + φ).

From the analytical expression, we can compute two primitives :

     If2  (t) = ∫ f2  = a2 × [t + S (t)] / 2
     If'2 (t) = ∫ f'2 = a2 ω2 × [t - S (t)] / 2
     where S (t) = sin (2 (ω t + φ)) / (2 ω)
 

We can remove S between these expressions :

     If'2 (t) = a2 ω2 t - ω2 If2 (t)
 

The preceding expression shows that If'2 (t) is a linear combination of both t and If2 (t): If'2 (t) = A × t + B × If2 (t)

From the primitive, we can deduce the same form for definite integrals between t1 and ti for each ti :

   If2 (ti) - If2 (t1) = A × (ti - t1) + B × (If2 (ti) - If2 (t1))
 

We can find the coefficients A and B that best fit the sample to this linear expression by computing the definite integrals for each sample points.

For a bilinear expression z (xi, yi) = A × xi + B × yi, the coefficients A and B that minimize a least square criterion ∑ (zi - z (xi, yi))2 are given by these expressions:


         ∑yiyi ∑xizi - ∑xiyi ∑yizi
     A = ------------------------
         ∑xixi ∑yiyi - ∑xiyi ∑xiyi

         ∑xixi ∑yizi - ∑xiyi ∑xizi
     B = ------------------------
         ∑xixi ∑yiyi - ∑xiyi ∑xiyi
 

In fact, we can assume both a and ω are positive and compute them directly, knowing that A = a2 ω2 and that B = - ω2. The complete algorithm is therefore:


 for each ti from t1 to tn-1, compute:
   f  (ti)
   f' (ti) = (f (ti+1) - f(ti-1)) / (ti+1 - ti-1)
   xi = ti - t1
   yi = ∫ f2 from t1 to ti
   zi = ∫ f'2 from t1 to ti
   update the sums ∑xixi, ∑yiyi, ∑xiyi, ∑xizi and ∑yizi
 end for

            |--------------------------
         \  | ∑yiyi ∑xizi - ∑xiyi ∑yizi
 a     =  \ | ------------------------
           \| ∑xiyi ∑xizi - ∑xixi ∑yizi


            |--------------------------
         \  | ∑xiyi ∑xizi - ∑xixi ∑yizi
 ω     =  \ | ------------------------
           \| ∑xixi ∑yiyi - ∑xiyi ∑xiyi

 

Once we know ω, we can compute:

    fc = ω f (t) cos (ω t) - f' (t) sin (ω t)
    fs = ω f (t) sin (ω t) + f' (t) cos (ω t)
 

It appears that fc = a ω cos (φ) and fs = -a ω sin (φ), so we can use these expressions to compute φ. The best estimate over the sample is given by averaging these expressions.

Since integrals and means are involved in the preceding estimations, these operations run in O(n) time, where n is the number of measurements.

Since:
2.0
Version:
$Revision: 786479 $ $Date: 2009-06-19 08:36:16 -0400 (Fri, 19 Jun 2009) $

Constructor Summary
HarmonicCoefficientsGuesser(WeightedObservedPoint[] observations)
          Simple constructor.
 
Method Summary
 double getGuessedAmplitude()
          Get the guessed amplitude a.
 double getGuessedPhase()
          Get the guessed phase φ.
 double getGuessedPulsation()
          Get the guessed pulsation ω.
 void guess()
          Estimate a first guess of the coefficients.
 
Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
 

Constructor Detail

HarmonicCoefficientsGuesser

public HarmonicCoefficientsGuesser(WeightedObservedPoint[] observations)
Simple constructor.

Parameters:
observations - sampled observations
Method Detail

guess

public void guess()
           throws OptimizationException
Estimate a first guess of the coefficients.

Throws:
OptimizationException - if the sample is too short or if the first guess cannot be computed (when the elements under the square roots are negative).

getGuessedAmplitude

public double getGuessedAmplitude()
Get the guessed amplitude a.

Returns:
guessed amplitude a;

getGuessedPulsation

public double getGuessedPulsation()
Get the guessed pulsation ω.

Returns:
guessed pulsation ω

getGuessedPhase

public double getGuessedPhase()
Get the guessed phase φ.

Returns:
guessed phase φ


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