DynCon: Dynamically Visualized Continuous Probability Distributions...
In DynamicDistribution: Dynamically visualized probability distributions and their moments
Description
Usage
Arguments
Details
Value
Note
Author(s)
References
Examples
Description
This function is aimed at dynamically visualizing continuous probability distributions and their moments when the parameters changed.
Usage
1
2
Arguments
name
A discrete probability distribution that you want to plot.
par_matrix
A matrix shows the ranges of the parameters. The column number of the matrix indicates the number of parameters in the distribution and the row number of the matrix is 2 for all the distributions. The first column shows the range for the first parameter, the second column accordingly show the ranges for the second parameter in distributions. All the elements in the first row indicate the minimum for the parameters and those in the second row show the maximum ones.
total
A vector and its elements indicate the step length for parameters by order, with the default value c(100,100).
choice
A vector and its elements indicate the plot you want to show, with a default value "cdf".
interval
A value to show the speed of changing plots.
const_par
A vector and its elements indicate the value of the parameters that do not change.
Details
For name, you can choose among Continuous Uniform('Con_Uniform'), Normal('Normal'), Chi-Square('Chi_Square'), F('F_dis'), Student's t('Student_t'), Exponential('Exponential'), Gamma('Gamma_dis'), Beta('Beta_dis'), Laplace('Laplace'), Logistic('Logistic'), Lognormal('Lognormal'), Pareto('Pareto'), Cauchy('Cauchy'), Inverse Gaussian('Inverse_Gaussian'), Rayleigh('Rayleigh'). For choice, you can choose among Cumulative Probability Function('cdf'), Mean('Mean'), Variance('Variance'), Mode('Mode'), Skewness('Skewness') and Kurtosis('Kurtosis').
More details about distributions and parameters are as follows:
Beta: Beta distribution. Shape parameters a, b, a>0, b>0.
Cauchy: Cauchy distribution. Location parameter a. Scale
parameter b, b>0.The order of parameters is a, b. See
Note Below.
Con_Uniform: Continuous Uniform distribution. Location
parameter a, the lower bound of the range. Parameter b,
the upper bound of the range. The order of parameters is
a, b. See Note Below.
Chi_Square: Chi-squared Distribution. Shape parameter n,
degrees of freedom.
Exponential: Exponential Distribution. The scale
parameter b, b>0.
F_Dis: F(central) Distribution. Shape parameters m, n,
positive integers.
Gamma: Gamma distribution. Shape parameter a, a>0.Scale
parameter b, b>0.The order of parameters is a, b. See
Note below.
Inverse_Gaussian: Inverse Gaussian (Wald) distribution.
Scale parameter lamda, lamda>0. Location parameter mu,
mu>0. The order of parameters is lamda,mu. See Note
below.
Laplace: Laplace distribution. Location parameter a.
Scale parameter b, b>0.The order of parameters is a, b.
See Note below.
Logistic: Logistic distribution. Location parameter a,
scale parameter b, b>0.The order of parameters is a, b.
See Note below.
Lognormal: Lognormal distribution. Scale parameter mu,
mu>0.Shape parameter sigma, sigma>0.The order of
parameters is mu, sigma. See Note below.
Normal: Normal distribution. Location parameter mu. Scale
parameter sigma, sigma>0. The order of parameters is mu,
sigma. See Note below.
Pareto: Pareto distribution. Location parameter a,
a>0.shape parameter b, b>0.The order of parameters is a,
b. See Note below.
Rayleigh: Rayleigh distribution. Scale parameter b>0.
Student_t:Student's t distribution. Shape parameter n,
degrees of freedom, n is a positive integer.
Value
A dynamic graph which includes probability density function graph and 'choice' graph.
Note
When you assign the parameter matrix to the argument
par_matrix , you must follow the input sequence of parameters.
Author(s)
Lei ZHANG, Hao JIANG and Chen XUE (Equally contributed, the order is
decided by the time the author joined the project.)
References
K. Krishnamoorthy(2006) Handbook of Statistical Distributions with Applications University of Louisiana at Lafayette.
Examples
1
2
3
4
5
6
7
8
9
10
11
12
13
14
DynCon(name=Lognormal,par_matrix=matrix(c(0,2,1,2),2,2),
choice='cdf',const_par=c(0,1))
DynCon(name=Inverse_Gaussian,par_matrix=matrix(c(1,12,10,20),2,2)
,choice='Kurtosis',const_par=c(2,3))
DynCon(name=Exponential,par_matrix=matrix(c(1,20),2,1),choice=
'Skewness')
DynCon(name=Normal,par_matrix=matrix(c(1,20,10,20),2,2),choice=
'Variance',const_par=c(0,1))
DynCon(name=Logistic,par_matrix=matrix(c(1,12,10,20),2,2),choice
='Kurtosis',const_par=c(2,3))
DynamicDistribution documentation built on May 2, 2019, 5:16 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Description Usage Arguments Details Value Note Author(s) References Examples
Description
This function is aimed at dynamically visualizing continuous probability distributions and their moments when the parameters changed.
Usage
1 2 |
Arguments
name |
A discrete probability distribution that you want to plot. |
par_matrix |
A matrix shows the ranges of the parameters. The column number of the matrix indicates the number of parameters in the distribution and the row number of the matrix is 2 for all the distributions. The first column shows the range for the first parameter, the second column accordingly show the ranges for the second parameter in distributions. All the elements in the first row indicate the minimum for the parameters and those in the second row show the maximum ones. |
total |
A vector and its elements indicate the step length for parameters by order, with the default value c(100,100). |
choice |
A vector and its elements indicate the plot you want to show, with a default value "cdf". |
interval |
A value to show the speed of changing plots. |
const_par |
A vector and its elements indicate the value of the parameters that do not change. |
Details
For name, you can choose among Continuous Uniform('Con_Uniform'), Normal('Normal'), Chi-Square('Chi_Square'), F('F_dis'), Student's t('Student_t'), Exponential('Exponential'), Gamma('Gamma_dis'), Beta('Beta_dis'), Laplace('Laplace'), Logistic('Logistic'), Lognormal('Lognormal'), Pareto('Pareto'), Cauchy('Cauchy'), Inverse Gaussian('Inverse_Gaussian'), Rayleigh('Rayleigh'). For choice, you can choose among Cumulative Probability Function('cdf'), Mean('Mean'), Variance('Variance'), Mode('Mode'), Skewness('Skewness') and Kurtosis('Kurtosis').
More details about distributions and parameters are as follows:
Beta: Beta distribution. Shape parameters a, b, a>0, b>0.
Cauchy: Cauchy distribution. Location parameter a. Scale parameter b, b>0.The order of parameters is a, b. See Note Below.
Con_Uniform: Continuous Uniform distribution. Location parameter a, the lower bound of the range. Parameter b, the upper bound of the range. The order of parameters is a, b. See Note Below.
Chi_Square: Chi-squared Distribution. Shape parameter n, degrees of freedom.
Exponential: Exponential Distribution. The scale parameter b, b>0.
F_Dis: F(central) Distribution. Shape parameters m, n, positive integers.
Gamma: Gamma distribution. Shape parameter a, a>0.Scale parameter b, b>0.The order of parameters is a, b. See Note below.
Inverse_Gaussian: Inverse Gaussian (Wald) distribution. Scale parameter lamda, lamda>0. Location parameter mu, mu>0. The order of parameters is lamda,mu. See Note below.
Laplace: Laplace distribution. Location parameter a. Scale parameter b, b>0.The order of parameters is a, b. See Note below.
Logistic: Logistic distribution. Location parameter a, scale parameter b, b>0.The order of parameters is a, b. See Note below.
Lognormal: Lognormal distribution. Scale parameter mu, mu>0.Shape parameter sigma, sigma>0.The order of parameters is mu, sigma. See Note below.
Normal: Normal distribution. Location parameter mu. Scale parameter sigma, sigma>0. The order of parameters is mu, sigma. See Note below.
Pareto: Pareto distribution. Location parameter a, a>0.shape parameter b, b>0.The order of parameters is a, b. See Note below.
Rayleigh: Rayleigh distribution. Scale parameter b>0.
Student_t:Student's t distribution. Shape parameter n, degrees of freedom, n is a positive integer.
Value
A dynamic graph which includes probability density function graph and 'choice' graph.
Note
When you assign the parameter matrix to the argument par_matrix , you must follow the input sequence of parameters.
Author(s)
Lei ZHANG, Hao JIANG and Chen XUE (Equally contributed, the order is decided by the time the author joined the project.)
References
K. Krishnamoorthy(2006) Handbook of Statistical Distributions with Applications University of Louisiana at Lafayette.
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 | DynCon(name=Lognormal,par_matrix=matrix(c(0,2,1,2),2,2),
choice='cdf',const_par=c(0,1))
DynCon(name=Inverse_Gaussian,par_matrix=matrix(c(1,12,10,20),2,2)
,choice='Kurtosis',const_par=c(2,3))
DynCon(name=Exponential,par_matrix=matrix(c(1,20),2,1),choice=
'Skewness')
DynCon(name=Normal,par_matrix=matrix(c(1,20,10,20),2,2),choice=
'Variance',const_par=c(0,1))
DynCon(name=Logistic,par_matrix=matrix(c(1,12,10,20),2,2),choice
='Kurtosis',const_par=c(2,3))
|
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.