I got code for coupled system and i need to see synchronization, but argmin is 0. How i can fixed it? For another c0 his working good, but result not what i want, when i use 0.2+, his break because np.argmin=0, i dont know what to do...

import numpy as np
import scipy.integrate as integrate
import matplotlib.pyplot as plt
from mpl_toolkits.mplot3d import Axes3D
с0 = 0.00313
c1 = 2.78
c11 = 2.89
c3 = 3
m0 = 1
m1 = 2
def f(x1):
    f = ((-m)*x1)+(1/2)*((m0+m1)/m1)*(abs(x1+1.0)-abs(x1-1.0))
    return f
def dH_dt(H, t=0):
        return np.array([(-c1/c3)*(f(H[1]-H[0])),
t = np.arange(0,1000, 0.01)
H0 = [0.001, 0.001, 0.001, 0.002, 0.002, 0.002]
H, infodict = integrate.odeint(dH_dt, H0, t, full_output=True)
def simFn(x1,x2, skew):
    if skew == 0:
        diff_skew = x1 - x2
        diff_skew = x1[skew:] - x2[:-skew]
    diff_skew_avg = np.average(diff_skew*diff_skew)
    x1_sq_avg = np.average(x1*x1)
    x2_sq_avg = np.average(x2*x2)
    factor = np.sqrt(x1_sq_avg*x2_sq_avg)
    return diff_skew_avg/factor
dt = 0.01
tau = np.arange(0,30,dt)
S = np.array([ simFn(x2,x1,int(_tau/dt)) for _tau in tau ])
minskew = np.argmin(S[:1000])
plt.plot(x1[:-minskew], x2[minskew:])
ax = plt.gca()
ax.set_xlabel('$x1(t + \Delta t)$')

error is:


Need to see oblique line as result


simFN expected this

  • Sorry, this code that you posted is working fine (it is reaching the end without exceptions). I tried changing c0 to 0.2, 0.21, etc but still working. – Amo Robb May 9 at 9:30
  • until 0.28 it works but then stops @AmoRobb – HUR1EY May 9 at 10:20
  • The code itself looks fine. Your algorithm is finding the minskew as the zero position in S and x1[:-minskew]will crash because it is expecting minskew greater than zero. So the problem is your algorithm or your assuptions. If it is mathematically impossible that minskew equals zero, then review the algorithm. If you tell us what it is expected for x1 and x2, and what simFn is expected to calculate in detail, maybe we can help with the algorithm – Amo Robb May 9 at 15:18
  • @AmoRobb i add simFn and what i expected – HUR1EY May 9 at 16:21

Actually, I think the solution is in your code already. From the article attached:

If x1(t) = ­ x2(t), as in the case of CS, S(tau) reaches its minimum sigma =­ 0 for tau =­ 0

So, without getting deeper in your algorithm, I would say that minskew == 0 means that both signals are almost completely coupled. The only thing missing is that precise condition that you did use in your simFn method, regarding the case of tau==0. Thus, I would simple rewrite your plotting to:

   minskew = np.argmin(S[:1000])
   if minskew == 0:
       plt.plot(x1, x2)
       plt.plot(x1[:-minskew], x2[minskew:])

In my case, I don't see a perfect straight line for c0=0.28 (although quite correlated), but I don't know if it is due to your samples generator, numeric precision or some issue in your algorithms, of if it is actually what you expect.

  • yes, its working, but system is dynamical, i need chaotic( – HUR1EY May 9 at 20:39
  • what do you mean? – Amo Robb May 10 at 11:01

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