Table 1.
Important entropy measures of a distribution with pdf f(x;φ) at δ.
Table 2.
Numerical values of the considered entropy measures of the Kumaraswamy distribution at a = 2 and δ = 0.5.
Table 3.
Numerical values of the considered entropy measures of the Kumaraswamy distribution at a = 2 and δ = 1.5.
Table 4.
Numerical values of the considered entropy measures of the Kumaraswamy distribution at a = 2 and δ = 2.5.
Table 5.
Numerical values of the considered entropy measures of the Kumaraswamy distribution at b = 2 and δ = 0.5.
Table 6.
Numerical values of the considered entropy measures of the Kumaraswamy distribution at b = 2 and δ = 1.5.
Table 7.
Numerical values of the considered entropy measures of the Kumaraswamy distribution at b = 2 and δ = 2.5.
Table 8.
Numerical values of the simulation related to the Rényi entropy for Configuration 1 (a = 3, b = 3).
Table 9.
Numerical values of the simulation related to the Rényi entropy for Configuration 2 (a = 3, b = 5).
Table 10.
Numerical values of the simulation related to the Havrda and Charvat entropy for Configuration 1 (a = 3, b = 3).
Table 11.
Numerical values of the simulation related to the Havrda and Charvat entropy for Configuration 2 (a = 3, b = 5).
Table 12.
Numerical values of the simulation related to the Arimoto entropy for Configuration 1 (a = 3, b = 3).
Table 13.
Numerical values of the simulation related to the Arimoto entropy for Configuration 2 (a = 3, b = 5).
Table 14.
Numerical values of the simulation related to the Tsallis entropy for Configuration 1 (a = 3, b = 3).
Table 15.
Numerical values of the simulation related to the Tsallis entropy for Configuration 2 (a = 3, b = 5).
Table 16.
Numerical values of the simulation related to the Awad and Alawneh 1 entropy for Configuration 1 (a = 3, b = 3).
Table 17.
Numerical values of the simulation related to the Awad and Alawneh 1 entropy for Configuration 2 (a = 3, b = 5).
Table 18.
Numerical values of the simulation related to the Awad and Alawneh 2 entropy for Configuration 1 (a = 3, b = 3).
Table 19.
Numerical values of the simulation related to the Awad and Alawneh 2 entropy for Configuration 2 (a = 3, b = 5).
Fig 1.
Plots of the (a) MSEs and (b) MDs for the Rényi entropy in the setting of Table 8.
Fig 2.
Plots of the (a) MSEs and (b) MDs for the Rényi entropy in the setting of Table 9.
Fig 3.
Plots of the (a) MSEs and (b) MDs for the Havrda and Chardat entropy in the setting of Table 10.
Fig 4.
Plots of the (a) MSEs and (b) MDs for the Havrda and Chardat entropy in the setting of Table 11.
Fig 5.
Plots of the (a) MSEs and (b) MDs for the Arimoto entropy in the setting of Table 12.
Fig 6.
Plots of the (a) MSEs and (b) MDs for the Arimoto entropy in the setting of Table 13.
Fig 7.
Plots of the (a) MSEs and (b) MDs for the Tsallis entropy in the setting of Table 14.
Fig 8.
Plots of the (a) MSEs and (b) MDs for the Tsallis entropy in the setting of Table 15.
Fig 9.
Plots of the (a) MSEs and (b) MDs for the Awad and Alawneh 1 entropy in the setting of Table 16.
Fig 10.
Plots of the (a) MSEs and (b) MDs for the Awad and Alawneh 1 entropy in the setting of Table 17.
Fig 11.
Plots of the (a) MSEs and (b) MDs for the Awad and Alawneh 2 entropy in the setting of Table 18.
Fig 12.
Plots of the (a) MSEs and (b) MDs for the Awad and Alawneh 2 entropy in the setting of Table 19.
Table 20.
Estimates of the considered entropy measures with different values of δ for the first data set.
Table 21.
Estimates of the considered entropy measures with different values of δ for the second data set.