借助sympy.stats.Benini()方法,我们可以获得代表贝尼尼分布的连续随机变量。
用法:sympy.stats.Benini(name, alpha, beta, sigma)
Where, aplha, beta and sigma are real number and greater than 0.
返回:Return the continuous random variable.
范例1:
在这个例子中,我们可以通过使用sympy.stats.Benini()方法,我们能够使用该方法获得代表贝尼尼分布的连续随机变量。
# Import sympy and Benini
from sympy.stats import Benini, density, cdf
from sympy import Symbol, simplify, pprint
alpha = Symbol("alpha", positive = True)
beta = Symbol("beta", positive = True)
sigma = Symbol("sigma", positive = True)
z = Symbol("z")
# Using sympy.stats.Benini() method
X = Benini("x", alpha, beta, sigma)
GFG = density(X)(z)
pprint(GFG, use_unicode = False)输出:
/ / z \\ / z \ 2/ z \
| 2*beta*log|—-|| - alpha*log|—-| - beta*log |—-|
|alpha \sigma/| \sigma/ \sigma/
|—- + —————-|*e
\ z z /
范例2:
# Import sympy and Benini
from sympy.stats import Benini, density, cdf
from sympy import Symbol, simplify, pprint
alpha = 4
beta = 6
sigma = 3
z = 0.2
# Using sympy.stats.Benini() method
X = Benini("x", alpha, beta, sigma)
GFG = density(X)(z)
pprint(GFG, use_unicode = False)输出:
-5.60587100451865e-13
相关用法
注:本文由纯净天空筛选整理自Jitender_1998大神的英文原创作品 sympy.stats.Benini() in Python。非经特殊声明,原始代码版权归原作者所有,本译文未经允许或授权,请勿转载或复制。