vineknockoffs.copulas.IndepCopula#

class vineknockoffs.copulas.IndepCopula#

Independence / product copula (bivariate).

Examples#

# ToDo: add an example here

Notes#

The cdf of the independence / product copula is given by

\[C(u, v) = u v.\]

Methods

aic(u, v)

Evaluate the copula AIC.

cdf(u, v)

Evaluate the copula cdf.

d_cdf_d_par(u, v)

Evaluate the derivative of the copula cdf wrt the parameter.

d_hfun_d_par(u, v)

Evaluate the derivative of the copula hfun wrt the parameter.

d_hfun_d_u(u, v)

Evaluate the derivative of the copula hfun wrt u.

d_hfun_d_v(u, v)

Evaluate the derivative of the copula hfun wrt v.

d_inv_hfun_d_par(u, v)

Evaluate the derivative of the inverse of the copula hfun wrt the parameter.

d_inv_hfun_d_u(u, v)

Evaluate the derivative of the inverse of the copula hfun wrt u.

d_inv_hfun_d_v(u, v)

Evaluate the derivative of the inverse of the copula hfun wrt v.

d_inv_vfun_d_par(u, v)

Evaluate the derivative of the inverse of the copula vfun wrt the parameter.

d_inv_vfun_d_u(u, v)

Evaluate the derivative of the inverse of the copula vfun wrt u.

d_inv_vfun_d_v(u, v)

Evaluate the derivative of the inverse of the copula vfun wrt v.

d_vfun_d_par(u, v)

Evaluate the derivative of the copula vfun wrt the parameter.

d_vfun_d_u(u, v)

Evaluate the derivative of the copula vfun wrt u.

d_vfun_d_v(u, v)

Evaluate the derivative of the copula vfun wrt v.

hfun(u, v)

Evaluate the copula hfun.

inv_hfun(u, v)

Evaluate the inverse of the copula hfun.

inv_vfun(u, v)

Evaluate the inverse of the copula vfun.

ll(u, v)

Evaluate the copula log-likelihood.

mle_est(u, v)

Estimation of the copula parameter with maximum likelihood.

par2tau(par)

Compute Kendall's tau associated with the given value for the copula parameter.

pdf(u, v)

Evaluate the copula pdf.

sim([n_obs])

Simulate random observations from the copula.

tau2par(tau)

Compute the copula parameter associated with the given value for Kendall's tau.

vfun(u, v[, u_])

Evaluate the copula vfun.

Attributes

n_pars

The number of copula parameters.

par

Parameter of the copula.

rotation

Rotation of the copula (0, 90, 180 or 270).
IndepCopula.aic(u, v)#

Evaluate the copula AIC.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.cdf(u, v)#

Evaluate the copula cdf.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.d_cdf_d_par(u, v)#

Evaluate the derivative of the copula cdf wrt the parameter.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.d_hfun_d_par(u, v)#

Evaluate the derivative of the copula hfun wrt the parameter.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.d_hfun_d_u(u, v)#

Evaluate the derivative of the copula hfun wrt u.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.d_hfun_d_v(u, v)#

Evaluate the derivative of the copula hfun wrt v.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.d_inv_hfun_d_par(u, v)#

Evaluate the derivative of the inverse of the copula hfun wrt the parameter.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.d_inv_hfun_d_u(u, v)#

Evaluate the derivative of the inverse of the copula hfun wrt u.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.d_inv_hfun_d_v(u, v)#

Evaluate the derivative of the inverse of the copula hfun wrt v.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.d_inv_vfun_d_par(u, v)#

Evaluate the derivative of the inverse of the copula vfun wrt the parameter.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.d_inv_vfun_d_u(u, v)#

Evaluate the derivative of the inverse of the copula vfun wrt u.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.d_inv_vfun_d_v(u, v)#

Evaluate the derivative of the inverse of the copula vfun wrt v.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.d_vfun_d_par(u, v)#

Evaluate the derivative of the copula vfun wrt the parameter.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.d_vfun_d_u(u, v)#

Evaluate the derivative of the copula vfun wrt u.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.d_vfun_d_v(u, v)#

Evaluate the derivative of the copula vfun wrt v.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.hfun(u, v)#

Evaluate the copula hfun.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.inv_hfun(u, v)#

Evaluate the inverse of the copula hfun.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.inv_vfun(u, v)#

Evaluate the inverse of the copula vfun.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.ll(u, v)#

Evaluate the copula log-likelihood.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.mle_est(u, v)#

Estimation of the copula parameter with maximum likelihood.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

self : object

IndepCopula.par2tau(par)#

Compute Kendall’s tau associated with the given value for the copula parameter.

Parameters#

parfloat

The copula parameter

Returns#

taufloat

Kendall’s tau.

IndepCopula.pdf(u, v)#

Evaluate the copula pdf.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.sim(n_obs=100)#

Simulate random observations from the copula.

Parameters#

n_obs :

The number of observations to simulate.

Returns#

resnumpy.ndarray

Result array.

IndepCopula.tau2par(tau)#

Compute the copula parameter associated with the given value for Kendall’s tau.

Parameters#

taufloat

Kendall’s tau.

Returns#

parfloat

The copula parameter.

IndepCopula.vfun(u, v, u_=None)#

Evaluate the copula vfun.

Parameters#

unumpy.ndarray

Array of observations for the first variable.

vnumpy.ndarray

Array of observations for the second variable.

Returns#

resnumpy.ndarray

Result array.