How can I integrate the Ordinary differential equation using odeint from scipy.integrate?

I am trying to integrate function defined as f in the code using odeint from scipy. The function f takes theta, t, and K as arguments, which are defined below the function f. y is the result, for which I am getting error. The reason for error is theta which is 2 dimensional. I am not able to perform integration. Could somebody help me in this ?

``````import numpy as np
import random
from scipy.integrate import odeint
``````

`f` is function to be integrated

``````def f(theta, t, K):
global N
tau = 1.5
dtheta = np.zeros([T,N], float)
for i in range(N):
s = 0.
for j in range(i+1,N):
s = s + np.sin(theta[t-tau,j] - theta[t,i])
dtheta[t,i] = K*s
return dtheta

# Number of nodes
N = 10
# Constant
K = 1.0
# Number of time steps
T = 100
t = np.linspace(0, T, 100, endpoint=False)
theta = np.zeros([T,N], float)
``````

Uniformly generates random number

``````for i in range(N):
theta[0,i] = random.uniform(-180, 180)
``````

Integrate function `f` using `odeint` from `scipy`

``````y = odeint(f, theta, t, args=(K,))
print y
``````
-
What is your question? –  SilentGhost Oct 26 '12 at 10:17
@SilentGhost it's in the title –  gokcehan Oct 26 '12 at 11:17
@gokcehan: if you understand what it means, why don't you post an explanation, instead of snarky comment? –  SilentGhost Oct 26 '12 at 11:18
@SilentGhost I wasn't trying to be a jerk it's just I didn't see the question at first too. I don't know the answer to the question.. –  gokcehan Oct 26 '12 at 11:20
@gokcehan: but do you understand it? I see some code where function in question is used. I don't know what integrating using `odeint` from `scipy` means. –  SilentGhost Oct 26 '12 at 11:23
show 1 more comment

Write

``````y = odeint(f, theta.ravel(), t, args=(K,))
``````

and

``````def f(theta, t, K):
global N
theta = theta.reshape(T, N)
...
return dtheta.ravel()
``````
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Tanks a lot buddy. After impelementing your idea of reshaping and flattening the array does not impart any error, but it does not yield correct result. –  iajay Nov 2 '12 at 5:31
It works, and solves a differential equation theta' = f(theta). You have made some different mistake if you do not get the results you expect. –  pv. Nov 2 '12 at 13:05
Yes, I made some silly mistakes. Thanks, it works fine. –  iajay Nov 3 '12 at 12:55