I have a set of data that I am trying to fit to an ODE model using scipy's leastsq function. My ODE has parameters `beta`

and `gamma`

, so that it looks for example like this:

```
# dS/dt = -betaSI
# dI/dt = betaSI - gammaI
# dR/dt = gammaI
# with y0 = y(t=0) = (S(0),I(0),R(0))
```

The idea is to find `beta`

and `gamma`

so that the numerical integration of my system of ODE's best approximates the data. I am able to do this just fine using leastsq if I know all the points in my initial condition `y0`

.

Now, I am trying to do the same thing but to pass now one of the entries of `y0`

as an extra parameter. Here is where the Python and me stop communicating...
I did a function so that now the first entry of the parameters that I pass to leastsq is the initial condition of my variable R.
I get the following message:

```
*Traceback (most recent call last):
File "/Users/Laura/Dropbox/SHIV/shivmodels/test.py", line 73, in <module>
p1,success = optimize.leastsq(errfunc, initguess, args=(simpleSIR,[y0[0]],[Tx],[mydata]))
File "/Library/Frameworks/Python.framework/Versions/7.2/lib/python2.7/site-packages/scipy/optimize/minpack.py", line 283, in leastsq
gtol, maxfev, epsfcn, factor, diag)
TypeError: array cannot be safely cast to required type*
```

Here is my code. It is a little more involved that what it needs to be for this example because in reality I want to fit another ode with 7 parameters and want to fit to several data sets at once. But I wanted to post here something simpler... Any help will be very very much appreciated! Thank you very much!

```
import numpy as np
from matplotlib import pyplot as plt
from scipy import optimize
from scipy.integrate import odeint
#define the time span for the ODE integration:
Tx = np.arange(0,50,1)
num_points = len(Tx)
#define a simple ODE to fit:
def simpleSIR(y,t,params):
dydt0 = -params[0]*y[0]*y[1]
dydt1 = params[0]*y[0]*y[1] - params[1]*y[1]
dydt2 = params[1]*y[1]
dydt = [dydt0,dydt1,dydt2]
return dydt
#generate noisy data:
y0 = [1000.,1.,0.]
beta = 12*0.06/1000.0
gamma = 0.25
myparam = [beta,gamma]
sir = odeint(simpleSIR, y0, Tx, (myparam,))
mydata0 = sir[:,0] + 0.05*(-1)**(np.random.randint(num_points,size=num_points))*sir[:,0]
mydata1 = sir[:,1] + 0.05*(-1)**(np.random.randint(num_points,size=num_points))*sir[:,1]
mydata2 = sir[:,2] + 0.05*(-1)**(np.random.randint(num_points,size=num_points))*sir[:,2]
mydata = np.array([mydata0,mydata1,mydata2]).transpose()
#define a function that will run the ode and fit it, the reason I am doing this
#is because I will use several ODE's to see which one fits the data the best.
def fitfunc(myfun,y0,Tx,params):
myfit = odeint(myfun, y0, Tx, args=(params,))
return myfit
#define a function that will measure the error between the fit and the real data:
def errfunc(params,myfun,y0,Tx,y):
"""
INPUTS:
params are the parameters for the ODE
myfun is the function to be integrated by odeint
y0 vector of initial conditions, so that y(t0) = y0
Tx is the vector over which integration occurs, since I have several data sets and each
one has its own vector of time points, Tx is a list of arrays.
y is the data, it is a list of arrays since I want to fit to multiple data sets at once
"""
res = []
for i in range(len(y)):
V0 = params[0][i]
myparams = params[1:]
initCond = np.zeros([3,])
initCond[:2] = y0[i]
initCond[2] = V0
myfit = fitfunc(myfun,initCond,Tx[i],myparams)
res.append(myfit[:,0] - y[i][:,0])
res.append(myfit[:,1] - y[i][:,1])
res.append(myfit[1:,2] - y[i][1:,2])
#end for
all_residuals = np.hstack(res).ravel()
return all_residuals
#end errfunc
#example of the problem:
V0 = [0]
params = [V0,beta,gamma]
y0 = [1000,1]
#this is just to test that my errfunc does work well.
errfunc(params,simpleSIR,[y0],[Tx],[mydata])
initguess = [V0,0.5,0.5]
p1,success = optimize.leastsq(errfunc, initguess, args=(simpleSIR,[y0[0]],[Tx],[mydata]))
```