Science > Physics > Quantum Gravity 227.3: More Re The Gumble Bivariate Exponential Case
| Topic: |
Science > Physics |
| User: |
"OsherD" |
| Date: |
23 Jan 2008 10:56:14 PM |
| Object: |
Quantum Gravity 227.3: More Re The Gumble Bivariate Exponential Case |
From Osher Doctorow
Another form of the bivariate Gumble exponential distribution is for
example in K. Balasubromian & Mi. I. Beg, Sankya: The Indian Journal
of Statistics, 1996, 60, Series B, part 3, 99-406, "Concomitant of
order statistics in Gumbel's bivariate exponential distribution":
1) f(x, y) = [(1 + kx)(1 + ky) - k]exp(-x - y - kxy)
with x, y > 0, which has most of the same bracket terms (when
multiplied out) of the previous f(x, y) (in the last post) but with
some having opposite signs.
Osher Doctorow
.
|
|
| User: "Duatcher" |
|
| Title: Re: Quantum Gravity 227.3: More Re The Gumble Bivariate Exponential Case |
24 Jan 2008 10:58:13 AM |
|
|
"OsherD" <mdoctorow@ca.rr.com> wrote in message
news:eccd95f4-70a6-4d1d-afdc-26c66bd92255@t1g2000pra.googlegroups.com...
From Osher Doctorow
Another form of the bivariate Gumble exponential distribution is for
example in K. Balasubromian & Mi. I. Beg, Sankya: The Indian Journal
of Statistics, 1996, 60, Series B, part 3, 99-406, "Concomitant of
order statistics in Gumbel's bivariate exponential distribution":
1) f(x, y) = [(1 + kx)(1 + ky) - k]exp(-x - y - kxy)
with x, y > 0, which has most of the same bracket terms (when
multiplied out) of the previous f(x, y) (in the last post) but with
some having opposite signs.
Osher Doctorow
trivial.
.
|
|
|
|
|
Related Articles |
|
|
