7

I have some points in 3-space and I'd like to fit a quadratic surface through them.

I tried this code

import itertools
import numpy as np
import matplotlib.pyplot as plt


def main():
    points = [ [ 175697888, -411724928, 0.429621160030365 ], [ 175697888, -411725144, 0.6078286170959473 ], [ 175698072, -411724640, 0.060898926109075546 ], [ 175698008, -411725360, 0.6184252500534058 ], [ 175698248, -411725720, 0.0771455243229866 ], [ 175698448, -411724456, -0.5925689935684204 ], [ 175698432, -411725936, -0.17584866285324097 ], [ 175698608, -411726152, -0.24736160039901733 ], [ 175698840, -411724360, -1.27967369556427 ], [ 175698800, -411726440, -0.21100902557373047 ], [ 175699016, -411726744, -0.12785470485687256 ], [ 175699280, -411724208, -2.472576856613159 ], [ 175699536, -411726688, -0.19858847558498383 ], [ 175699760, -411724104, -3.5765910148620605 ], [ 175699976, -411726504, -0.7432857155799866 ], [ 175700224, -411723960, -4.770215034484863 ], [ 175700368, -411726304, -1.2959377765655518 ], [ 175700688, -411723760, -6.518451690673828 ], [ 175700848, -411726080, -3.02254056930542 ], [ 175701160, -411723744, -7.941056251525879 ], [ 175701112, -411725896, -3.884831428527832 ], [ 175701448, -411723824, -8.661275863647461 ], [ 175701384, -411725720, -5.21607780456543 ], [ 175701704, -411725496, -6.181706428527832 ], [ 175701800, -411724096, -9.490276336669922 ], [ 175702072, -411724344, -10.066594123840332 ], [ 175702216, -411724560, -10.098011016845703 ], [ 175702256, -411724864, -9.619892120361328 ], [ 175702032, -411725160, -6.936516284942627 ] ]

    n = len(points)
    x, y, z = map(np.array, zip(*points))

    plt.figure()
    plt.subplot(1, 1, 1)

    # Fit a 3rd order, 2d polynomial
    m = polyfit2d(x,y,z, order=2)

    # Evaluate it on a grid...
    nx, ny = 100, 100
    xx, yy = np.meshgrid(np.linspace(x.min(), x.max(), nx), np.linspace(y.min(), y.max(), ny))
    zz = polyval2d(xx, yy, m)

    plt.scatter(xx, yy, c=zz, marker=2)
    plt.scatter(x, y, c=z)
    plt.show()

def polyfit2d(x, y, z, order=2):
    ncols = (order + 1)**2
    G = np.zeros((x.size, ncols))
    ij = itertools.product(range(order+1), range(order+1))
    for k, (i,j) in enumerate(ij):
        G[:,k] = x**i * y**j
    m, _, _, _ = np.linalg.lstsq(G, z)
    return m

def polyval2d(x, y, m):
    order = int(np.sqrt(len(m))) - 1
    ij = itertools.product(range(order+1), range(order+1))
    z = np.zeros_like(x)
    for a, (i,j) in zip(m, ij):
        z += a * x**i * y**j
    return z

main()

based on this answer: Python 3D polynomial surface fit, order dependent

But it actually gives the opposite result:

enter image description here

Look at the colour of the points compared to the surface. Any idea what I'm doing wrong?

EDIT: Update the code to remove the imshow showing that isn't the issue.

8
  • Looks like your coordinate system is flipped from bottom-left to top-right Jan 27, 2016 at 19:26
  • 1
    The extent kwarg to imshow should be [xmin, xmax, ymax, ymin], not [xmin, xmax, ymin, ymax], unless you change the origin parameter. I had a typo w.r.t. extent in the linked answer, but despite the x/y mixup, note that the second half is max, min, not min, max. Jan 27, 2016 at 19:27
  • What is polyval2d? Jan 27, 2016 at 19:32
  • Also, I have a mistake somewhere in the original answer. Your example will work if you take out the y = -y and use the extent=[xmax, xmin, ymax, ymin] that's in the original answer... However, that shouldn't be correct. Jan 27, 2016 at 19:36
  • @JoeKington I don't think so, I got rid of the imshow totally and the y=-y and just used another scatter plt.scatter(xx, yy, c=zz, marker=1) but I get this: dropbox.com/s/s2gn53u6cxl4kir/… Jan 27, 2016 at 19:40

2 Answers 2

8

There seems to be a problem with the floating point accuracy. I played with your code a bit and change the range of x and y made the least square solution work. Doing

x, y = x - x[0], y - y[0]  

solved the accuracy issue. You can try:

import itertools
import numpy as np
import matplotlib.pyplot as plt
from mpl_toolkits.mplot3d import Axes3D
# from matplotlib import cbook
from matplotlib import cm
from matplotlib.colors import LightSource


def poly_matrix(x, y, order=2):
    """ generate Matrix use with lstsq """
    ncols = (order + 1)**2
    G = np.zeros((x.size, ncols))
    ij = itertools.product(range(order+1), range(order+1))
    for k, (i, j) in enumerate(ij):
        G[:, k] = x**i * y**j
    return G


points = np.array([[175697888, -411724928, 0.429621160030365],
                   [175697888, -411725144, 0.6078286170959473],
                   [175698072, -411724640, 0.060898926109075546],
                   [175698008, -411725360, 0.6184252500534058],
                   [175698248, -411725720, 0.0771455243229866],
                   [175698448, -411724456, -0.5925689935684204],
                   [175698432, -411725936, -0.17584866285324097],
                   [175698608, -411726152, -0.24736160039901733],
                   [175698840, -411724360, -1.27967369556427],
                   [175698800, -411726440, -0.21100902557373047],
                   [175699016, -411726744, -0.12785470485687256],
                   [175699280, -411724208, -2.472576856613159],
                   [175699536, -411726688, -0.19858847558498383],
                   [175699760, -411724104, -3.5765910148620605],
                   [175699976, -411726504, -0.7432857155799866],
                   [175700224, -411723960, -4.770215034484863],
                   [175700368, -411726304, -1.2959377765655518],
                   [175700688, -411723760, -6.518451690673828],
                   [175700848, -411726080, -3.02254056930542],
                   [175701160, -411723744, -7.941056251525879],
                   [175701112, -411725896, -3.884831428527832],
                   [175701448, -411723824, -8.661275863647461],
                   [175701384, -411725720, -5.21607780456543],
                   [175701704, -411725496, -6.181706428527832],
                   [175701800, -411724096, -9.490276336669922],
                   [175702072, -411724344, -10.066594123840332],
                   [175702216, -411724560, -10.098011016845703],
                   [175702256, -411724864, -9.619892120361328],
                   [175702032, -411725160, -6.936516284942627]])

ordr = 2  # order of polynomial
x, y, z = points.T
x, y = x - x[0], y - y[0]  # this improves accuracy

# make Matrix:
G = poly_matrix(x, y, ordr)
# Solve for np.dot(G, m) = z:
m = np.linalg.lstsq(G, z)[0]


# Evaluate it on a grid...
nx, ny = 30, 30
xx, yy = np.meshgrid(np.linspace(x.min(), x.max(), nx),
                     np.linspace(y.min(), y.max(), ny))
GG = poly_matrix(xx.ravel(), yy.ravel(), ordr)
zz = np.reshape(np.dot(GG, m), xx.shape)

# Plotting (see http://matplotlib.org/examples/mplot3d/custom_shaded_3d_surface.html):
fg, ax = plt.subplots(subplot_kw=dict(projection='3d'))
ls = LightSource(270, 45)
rgb = ls.shade(zz, cmap=cm.gist_earth, vert_exag=0.1, blend_mode='soft')
surf = ax.plot_surface(xx, yy, zz, rstride=1, cstride=1, facecolors=rgb,
                       linewidth=0, antialiased=False, shade=False)
ax.plot3D(x, y, z, "o")

fg.canvas.draw()
plt.show()

which gives 3DResult Plot]

To evaluate the quality of you fit read the documentation for np.linalg.lstsq(). The rank should be the size of your result vector and the residual divided by the number of data points gives the average error (distance between point and plane).

0

The expression on the right in

G[:,k] = x**i * y**j

is silently overflowing. x and y numpy arrays of integers, and therefore the result x**i * y**j is also an integer array. But when i and j are both 2, some of the products overflow, and wrap around to negative values.

Change your code to make x and y floating point. For example,

    points = np.array([ [ 175697888, -411724928, 0.429621160030365 ], [ 175697888, -411725144, 0.6078286170959473 ], [ 175698072, -411724640, 0.060898926109075546 ], [ 175698008, -411725360, 0.6184252500534058 ], [ 175698248, -411725720, 0.0771455243229866 ], [ 175698448, -411724456, -0.5925689935684204 ], [ 175698432, -411725936, -0.17584866285324097 ], [ 175698608, -411726152, -0.24736160039901733 ], [ 175698840, -411724360, -1.27967369556427 ], [ 175698800, -411726440, -0.21100902557373047 ], [ 175699016, -411726744, -0.12785470485687256 ], [ 175699280, -411724208, -2.472576856613159 ], [ 175699536, -411726688, -0.19858847558498383 ], [ 175699760, -411724104, -3.5765910148620605 ], [ 175699976, -411726504, -0.7432857155799866 ], [ 175700224, -411723960, -4.770215034484863 ], [ 175700368, -411726304, -1.2959377765655518 ], [ 175700688, -411723760, -6.518451690673828 ], [ 175700848, -411726080, -3.02254056930542 ], [ 175701160, -411723744, -7.941056251525879 ], [ 175701112, -411725896, -3.884831428527832 ], [ 175701448, -411723824, -8.661275863647461 ], [ 175701384, -411725720, -5.21607780456543 ], [ 175701704, -411725496, -6.181706428527832 ], [ 175701800, -411724096, -9.490276336669922 ], [ 175702072, -411724344, -10.066594123840332 ], [ 175702216, -411724560, -10.098011016845703 ], [ 175702256, -411724864, -9.619892120361328 ], [ 175702032, -411725160, -6.936516284942627 ] ])
    x, y, z = points.T

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