Scipy's Optimize Curve Fit Limits

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无人及你
无人及你 2021-01-06 04:07

Is there any way I can provide limits for the Scipy\'s Optimize Curve Fit?

My example:

    def optimized_formula(x, m_1, m_2, y_1, y_2, ratio_2):
            


        
4条回答
  •  轻奢々
    轻奢々 (楼主)
    2021-01-06 04:55

    As suggested in another answer, you could use lmfit for these kind of problems. Therefore, I add an example on how to use it in case someone is interested in this topic, too.

    Let's say you have a dataset as follows:

    xdata = np.array([177.,180.,183.,187.,189.,190.,196.,197.,201.,202.,203.,204.,206.,218.,225.,231.,234.,
              252.,262.,266.,267.,268.,277.,286.,303.])
    
    ydata = np.array([0.81,0.74,0.78,0.75,0.77,0.81,0.73,0.76,0.71,0.74,0.81,0.71,0.74,0.71,
          0.72,0.69,0.75,0.59,0.61,0.63,0.64,0.63,0.35,0.27,0.26])
    

    and you want to fit a model to the data which looks like this:

    model = n1 + (n2 * x + n3) * 1./ (1. + np.exp(n4 * (n5 - x)))
    

    with the constraints that

    0.2 < n1 < 0.8
    -0.3 < n2 < 0
    

    Using lmfit (version 0.8.3) you then obtain the following output:

    n1:   0.26564921 +/- 0.024765 (9.32%) (init= 0.2)
    n2:  -0.00195398 +/- 0.000311 (15.93%) (init=-0.005)
    n3:   0.87261892 +/- 0.068601 (7.86%) (init= 1.0766)
    n4:  -1.43507072 +/- 1.223086 (85.23%) (init=-0.36379)
    n5:   277.684530 +/- 3.768676 (1.36%) (init= 274)
    

    As you can see, the fit reproduces the data very well and the parameters are in the requested ranges.

    Here is the entire code that reproduces the plot with a few additional comments:

    from lmfit import minimize, Parameters, Parameter, report_fit
    import numpy as np
    
    xdata = np.array([177.,180.,183.,187.,189.,190.,196.,197.,201.,202.,203.,204.,206.,218.,225.,231.,234.,
          252.,262.,266.,267.,268.,277.,286.,303.])
    
    ydata = np.array([0.81,0.74,0.78,0.75,0.77,0.81,0.73,0.76,0.71,0.74,0.81,0.71,0.74,0.71,
          0.72,0.69,0.75,0.59,0.61,0.63,0.64,0.63,0.35,0.27,0.26])
    
    def fit_fc(params, x, data):
    
        n1 = params['n1'].value
        n2 = params['n2'].value
        n3 = params['n3'].value
        n4 = params['n4'].value
        n5 = params['n5'].value
    
        model = n1 + (n2 * x + n3) * 1./ (1. + np.exp(n4 * (n5 - x)))
    
        return model - data #that's what you want to minimize
    
    # create a set of Parameters
    # 'value' is the initial condition
    # 'min' and 'max' define your boundaries
    params = Parameters()
    params.add('n1', value= 0.2, min=0.2, max=0.8)
    params.add('n2', value= -0.005, min=-0.3, max=10**(-10))
    params.add('n3', value= 1.0766, min=-1000., max=1000.)
    params.add('n4', value= -0.36379, min=-1000., max=1000.)
    params.add('n5', value= 274.0, min=0., max=1000.)
    
    # do fit, here with leastsq model
    result = minimize(fit_fc, params, args=(xdata, ydata))
    
    # write error report
    report_fit(params)
    
    xplot = np.linspace(min(xdata), max(xdata), 1000)
    yplot = result.values['n1'] + (result.values['n2'] * xplot + result.values['n3']) * \
                                  1./ (1. + np.exp(result.values['n4'] * (result.values['n5'] - xplot)))
    #plot results
    try:
        import pylab
        pylab.plot(xdata, ydata, 'k+')
        pylab.plot(xplot, yplot, 'r')
        pylab.show()
    except:
        pass
    

    EDIT:

    If you use version 0.9.x you need to adjust the code accordingly; check here which changes have been made from 0.8.3 to 0.9.x.

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