I will take a look but the hdrcde package appears to give me the plots I was
looking for.
Thanks
Bernard
Sent from my iPhone so please excuse the spelling!"
> On Mar 28, 2019, at 10:16 PM, Jeff Newmiller wrote:
>
> I just found the "ks" package which looks promising... [1]
>
> https://cran.r
I just found the "ks" package which looks promising... [1]
https://cran.r-project.org/web/packages/ks/vignettes/kde.pdf
On March 28, 2019 12:16:12 PM PDT, David Winsemius
wrote:
>
>On 3/28/19 11:33 AM, Bernard McGarvey wrote:
>> pracma meets my needs - thanks - this is an amazing package with l
On 3/28/19 11:33 AM, Bernard McGarvey wrote:
pracma meets my needs - thanks - this is an amazing package with lots of very
very useful functions. Thanks for bringing it to my attention.
Excellent. I'll mention also the hdrcde package which addresses some of
your questions as well. It also
pracma meets my needs - thanks - this is an amazing package with lots of very
very useful functions. Thanks for bringing it to my attention.
Bernard McGarvey
Director, Fort Myers Beach Lions Foundation, Inc.
Retired (Lilly Engineering Fellow).
> On March 28, 2019 at 1:40 PM David Winsemius
On 3/27/19 3:43 PM, Bernard Comcast wrote:
To follow on Jeff, is there a function to do 2-D (double) numerical integration
in R?
Packages pracma and cubature offer a variety of solutions to that task.
--
David.
Bernard
Sent from my iPhone so please excuse the spelling!"
On Mar 27, 2
rell ; John Kane
>>
>> Cc: R. Help Mailing List
>> Subject: Re: [R] [FORGED] Re: Quantile Density Contours
>>
>> If I understand correctly the ContourLines function gives you the contour
>> lines
>> when you put in the data. But before this I need to
lp On Behalf Of Bernard McGarvey
> Sent: Wednesday, March 27, 2019 9:55 PM
> To: Paul Murrell ; John Kane
>
> Cc: R. Help Mailing List
> Subject: Re: [R] [FORGED] Re: Quantile Density Contours
>
> If I understand correctly the ContourLines function gives you the contour
> li
https://cran.r-project.org/web/views/Multivariate.html
https://cran.r-project.org/web/views/
On March 27, 2019 4:05:31 PM PDT, Bernard Comcast
wrote:
>No - how do I access that?
>
>Bernard
>Sent from my iPhone so please excuse the spelling!"
>
>> On Mar 27, 2019, at 6:57 PM, Jeff Newmiller
> wr
You might be wishing for a contour plot of the density, labeled by the
probability mass outside of each contour, but there is no general simple
connection between density contours and the mass inside of them. You can work
it out (I think) for elliptically contoured distributions, but I suspect t
No - how do I access that?
Bernard
Sent from my iPhone so please excuse the spelling!"
> On Mar 27, 2019, at 6:57 PM, Jeff Newmiller wrote:
>
> I don't know. Have you looked at the Multivariate Task View?
>
>> On March 27, 2019 3:43:52 PM PDT, Bernard Comcast
>> wrote:
>> To follow on Jeff,
I don't know. Have you looked at the Multivariate Task View?
On March 27, 2019 3:43:52 PM PDT, Bernard Comcast
wrote:
>To follow on Jeff, is there a function to do 2-D (double) numerical
>integration in R?
>
>Bernard
>Sent from my iPhone so please excuse the spelling!"
>
>> On Mar 27, 2019, at 6
To follow on Jeff, is there a function to do 2-D (double) numerical integration
in R?
Bernard
Sent from my iPhone so please excuse the spelling!"
> On Mar 27, 2019, at 6:38 PM, Jeff Newmiller wrote:
>
> Regardless of how many dimensions you have for independent variables, the
> density is one
Regardless of how many dimensions you have for independent variables, the
density is one-dimensional, and if you assume the density function has been
determined (e.g. by kernel estimation or by a Gaussian copula) then if you
integrate the density function along that dimension there will be uniqu
That thought had crossed my mind so thanks for that clarification Bert. i think
you are correct and so the plot I am looking at must be doing something
different than I was thinking.
Thanks
Bernard
Sent from my iPhone so please excuse the spelling!"
> On Mar 27, 2019, at 5:18 PM, Bert Gunter
You are missing a crucial point. The reals are well ordered; higher
dimensions are not. Therefore 2d quantile contours are not unique.
Of course assuming I understand your query correctly.
Bert
On Wed, Mar 27, 2019, 13:55 Bernard McGarvey
wrote:
> If I understand correctly the ContourLines fu
If I understand correctly the ContourLines function gives you the contour lines
when you put in the data. But before this I need to data to put into that
function. I think this is something like a 2D CDF of the data that then leads
to the 2D quantiles but I am not 100% sure. What I am basically
Are you looking for the contourLines() function ?
Paul
On 28/03/19 8:37 AM, Bernard McGarvey wrote:
John, I have attached a pdf of the plot. Hopefully you can read this.
If I understand correctly, this plot is basically the 2-D version of the 1-D
quantile plot.
Thanks
Bernard McGarvey
D
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