# linear interpolation with interp2d or scipy.interpolate.RectBivariateSpline

I'm quite new to python and want to interpolate in a regular grid. First, i tried it with interp2d. This worked for most cases, however for some cases (the only difference were the values) there was a warning and the result was not as expected. This is the code:

``````img=sys.argv[1]

n=int(sys.argv[2])

rows=int(sys.argv[3])
cols=int(sys.argv[4])

m=len(latitude)/n

#Latitude
column=latitude[:,0].reshape((m,n))
row=latitude[:,1].reshape((m,n))
val=latitude[:,2].reshape((m,n))

# create interpolation object
interp=interp2d(column,row,val)

# interpolate values
lattmp=interp(np.arange(cols),np.arange(rows))
``````

This is the warning I get occasionally:

``````Warning:     No more knots can be added because the number of B-spline coefficients
already exceeds the number of data points m. Probably causes: either
s or m too small. (fp>s)
kx,ky=1,1 nx,ny=14,14 m=143 fp=0.000000 s=0.000000
``````

This is how the input looks like:

``````In [174]: shape(column)
Out[174]: (13, 11)
In [175]: shape(row)
Out[175]: (13, 11)
In [176]: shape(val)
Out[176]: (13, 11)
``````

The only difference between warning and no warning are the values in val. After reading in several threads, I tried also scipy.interpolate.RectBivariateSpline:

``````ttt=scipy.interpolate.RectBivariateSpline(rr,cc,val,bbox=[0,4199, 0,4099],kx=1,ky=1)
lattmp=ttt(np.arange(cols),np.arange(rows))
In [181]: shape(cc)
Out[181]: (11,)
In [182]: shape(rr)
Out[182]: (13,)
In [183]: shape(val)
Out[183]: (13, 11)
``````

But i only get this:

``````In [170]: lattmp
Out[170]:
array([[ NaN,  NaN,  NaN, ...,  NaN,  NaN,  NaN],
[ NaN,  Inf,  Inf, ...,  Inf,  Inf,  Inf],
[ NaN,  Inf,  Inf, ...,  Inf,  Inf,  Inf],
...,
[ NaN,  Inf,  Inf, ...,  Inf,  Inf,  Inf],
[ NaN,  Inf,  Inf, ...,  Inf,  Inf,  Inf],
[ NaN,  Inf,  Inf, ...,  Inf,  Inf,  Inf]])
``````

Could anyone tell me, what I can do?

Best regards and thank you, Mathias

-
Ok,now it works. The solution was not to use the bounding box parameter. But I don't know why... –  Mathias Feb 27 at 14:25