用SciPy数值求解ODE
Raf*_*ael 4 python scipy ode differential-equations
我坚持申请scipy.integrate.odeint以下非常简单的ODE:
y(t)/dt = y(t) + t^2 and y(0) = 0
由SciPy计算的解决方案不正确(很可能b/c我在这里混淆了一些东西) - 特别是解决方案不符合初始条件.
import numpy as np
import scipy.integrate
import matplotlib.pyplot as plt
import math
# the definition of the ODE equation
def f(y,t):
return [t**2 + y[0]]
# computing the solution
ts = np.linspace(-3,3,1000)
res = scipy.integrate.odeint(f, [0], ts)
# the solution computed by WolframAlpha [1]
def y(t):
return -t**2 - 2*t + 2*math.exp(t) - 2
fig = plt.figure(1, figsize=(8,8))
ax1 = fig.add_subplot(211)
ax1.plot(ts, res[:,0])
ax1.text(0.5, 0.95,'SciPy solution', ha='center', va='top',
transform = ax1.transAxes)
ax1 = fig.add_subplot(212)
ax1.plot(ts, np.vectorize(y)(ts))
ax1.text(0.5, 0.95,'WolframAlpha solution', ha='center', va='top',
transform = ax1.transAxes)
plt.show()
1:WolframAlpha:"求解dy(t)/ dt = t ^ 2 + y(t),y(0)= 0"
哪里是我的错误?
你的scipy代码用初始条件解决了微分方程y(-3) = 0,而不是y(0) = 0.的y0的说法odeint是在给定的第一次价值t的说法.
在y(0)= 0的区间[-3,3]上解决此问题的一种方法是调用odeint两次,如下所示:
In [81]: from scipy.integrate import odeint
In [82]: def f(y,t):
....: return [t**2 + y[0]]
....:
In [83]: tneg = np.linspace(0, -3, 500)
In [84]: tpos = np.linspace(0, 3, 500)
In [85]: sol_neg = odeint(f, [0], tneg)
In [86]: sol_pos = odeint(f, [0], tpos)
In [87]: plot(tneg, sol_neg)
Out[87]: [<matplotlib.lines.Line2D at 0x10f890d90>]
In [88]: plot(tpos, sol_pos)
Out[88]: [<matplotlib.lines.Line2D at 0x107a43cd0>]
In [89]: grid(True)
这创造了
