使用Python PyDDE求解器求解微分方程
[英]Solve Differential equation using Python PyDDE solver
问题描述
我试图使用python包PyDDE解决以下微分方程:
dy[i]/dt = w[i] + K/N * \sum{j=1toN} sin(y[j] -y[i]), where i = 1,2,3,4...N=50
下面是解决这个等式的python代码
from numpy import random, sin, arange, pi, array, zeros
import PyDDE.pydde as p
def odegrad(s, c, t):
global N
K = c[0]
theta = s[0]
w = random.standard_cauchy(N)
for i in range(N):
coup_sum = 0.0
for j in range(N):
coup_sum += sin(theta[j] - theta[i])
theta[i] = w[i] + (K*coup_sum)/(float (N))
return array([theta])
# constant parameters
global N
N = 50
K = 1.0
# initial values for state theta
theta0 = zeros(N, float)
for i in range(N):
theta0[i] = random.uniform(0, 2*pi)
odecons = array([K])
odeist = array([theta0])
odestsc = array([0.0])
ode_eg = p.dde()
ode_eg.dde(y=odeist, times=arange(0.0, 300.0, 1.0),
func=odegrad, parms=odecons,
tol=0.000005, dt=1.0, hbsize=0, nlag=0, ssc=odestsc)
ode_eg.solve()
print ode_eg.data
我收到以下错误:
DDE错误:有些问题:提供的变量之一可能是错误的类型?
DDE错误:问题初始化失败!
DDE错误:DDE未正确初始化!
没有
1 个解决方案
解决方案1
1 已采纳 2014-10-12 20:54:19
所以我看看内部发生了什么,以及两个错误
DDE Error: Something is wrong: perhaps one of the supplied variables has the wrong type?
DDE Error: Problem initialisation failed!
来自以下操作失败:map(float,initstate)(参见源代码 ,第162行)。 这来自Y和你的其他变量是向量的事实。 大多数情况下,这意味着你不应该使用array([theta])但你应该使用theta
完整脚本:
from numpy import random, sin, arange, pi, array, zeros
import PyDDE.pydde as p
def odegrad(s, c, t):
global N
K = c[0]
#Change here
theta = s
w = random.standard_cauchy(N)
for i in range(N):
coup_sum = 0.0
for j in range(N):
coup_sum += sin(theta[j] - theta[i])
theta[i] = w[i] + (K*coup_sum)/(float (N))
#Change here
return theta
# constant parameters
global N
N = 50
K = 1.0
# initial values for state theta
theta0 = zeros(N, float)
for i in range(N):
theta0[i] = random.uniform(0, 2*pi)
odecons = array([K])
#Change here
odeist = theta0
odestsc = array([0.0])
ode_eg = p.dde()
ode_eg.dde(y=odeist, times=arange(0.0, 300.0, 1.0),
func=odegrad, parms=odecons,
tol=0.000005, dt=1.0, hbsize=0, nlag=0, ssc=odestsc)
#You should not use this line, as the last step in ode_eg.dde() is solve.
#ode_eg.solve()
print ode_eg.data
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