alright this is what you want to do.
install.packages("fields", dependencies=TRUE)
tim.colors is in this package and it has a blue to red color scheme-
blue being the lowest and red being the highest. This color scheme
makes sense to me and is a common thing that a people (read engineers)
familar with matlab or the like will understand.
USE the morlet wavelet it is compactly supported which means that it
quickly goes to zero once it gets out of the scale that it is fitting.
Making it good for a localized fit.
what you are looking at is the modulus (absolute value) of the
convolution of the wavelet with the signal at a particular scale (kind
of like frequency in fourier analysis) on the y-axis through time
(local fitting) on the x-axis. Your are trying to find periodicity?
I kind of think of wavelet analysis as the partitioning of variance of
the signal into continuous scale.
because of algorithm calculation the scale is in log2(value of the
time series) so to get to your time units (which you set in the deltat
or frequency argument when you create a timeseries with ts() )
2^(value of the scale).
I hope this helps
Stephen
2008/9/21 yuankun shi <shiyuankun.debian at
gmail.com>:> Thanks, I have succeeded to do this, first wavCWTPeaks to get every
peaks'
> coordinate, then calculated their horizontal distance, finally,bkde output
> the distance's distribution, that's what I want.
> On the contrary, picture of wavCWT seems hard to understand, I am not sure
> what the y axis and the color mean. Could you do me a favor?
>
> 2008/9/19 stephen sefick <ssefick at gmail.com>
>>
>> I would suggest wavelet analysis-
>> library wmtsa
>> wavCWT
>> This will tell you if there is a periodicity localized in time which
>> fourier analysis canno tell you- if the variance is not constant
>> through time then you should use this.
>>
>> 2008/9/19 yuankun shi <shiyuankun.debian at gmail.com>:
>> > I have spent lots of time to download the code you have mentioned.
But
>> > all
>> > of them is not I wanted, except the latest one, I have not found
it
>> > anywhere.
>> > Maybe I have not make my problem clearly, sorry for that.
>> > I have a series data, it consists of time and rate. To plot rate
vs time
>> > in
>> > picture, I found it has perodicity to some extent. The rate rise
and
>> > fall
>> > with time, but not with fixed cycle and fixed amplitude.
>> > So I am wondering, is there any tools to get the cycle? and
furthmore,
>> > to
>> > draw it's density picture?
>> > Since there is bkde in package KernSmooth, so the 2nd is not
strict
>> > needed
>> >
>> > 2008/9/11 stephen sefick <ssefick at gmail.com>
>> >>
>> >> all of the functions that I listed are time series tools for
looking
>> >> at what I think you want. this can be done you just have to
>> >> understand the methodology. So, look at some of the things
that I
>> >> suggested, If these don't help then I don't
understand what you want,
>> >> and it is necissary for you to help me figure out what it is
that you
>> >> want.
>> >> good luck
>> >>
>> >> 2008/9/11 yk <shiyuankun.debian at gmail.com>:
>> >> > The data I mentioned above is oscilating vs time?but
there are not
>> >> > obersevable fixed cycle if I just plot this data.
>> >> > How to get the average cycle?or the most probable range
of cycle
>> >> > with
>> >> > statistical methods?
>> >> > I don't know how to achieve it by R, is there any
command?
>> >> >
>> >> > On Sep 11, 10:52 am, "stephen sefick"
<ssef... at gmail.com> wrote:
>> >> >> ?spectrum
>> >> >> ?acf
>> >> >> ?ccf
>> >> >> library(wmtsa)
>> >> >> ?wavCWT
>> >> >> library(sowas)
>> >> >> ?wsp
>> >> >>
>> >> >> you could also look at lagged plots to look for
periodicity.
>> >> >> if you elaborate on the problem and include
executable sample code
>> >> >> you
>> >> >> will probably recieve more help.
>> >> >>
>> >> >> On Wed, Sep 10, 2008 at 10:02 PM, yk
<shiyuankun.deb... at gmail.com>
>> >> >> wrote:
>> >> >> > There is a series of data contains time in fixed
step and energy
>> >> >> > varying with time, how to test its
periodicity?In R, it seems
>> >> >> > there
>> >> >> > is
>> >> >> > no direct tools since I have search the R manual
with periodic and
>> >> >> > I
>> >> >> > have not found any related topic.
>> >> >> > Thanks a lot
>> >> >>
>> >> >> > ______________________________________________
>> >> >> > R-h... at r-project.org mailing list
>> >> >> >https://stat.ethz.ch/mailman/listinfo/r-help
>> >> >> > PLEASE do read the posting
>> >> >> > guidehttp://www.R-project.org/posting-guide.html
>> >> >> > and provide commented, minimal, self-contained,
reproducible code.
>> >> >>
>> >> >> --
>> >> >> Stephen Sefick
>> >> >> Research Scientist
>> >> >> Southeastern Natural Sciences Academy
>> >> >>
>> >> >> Let's not spend our time and resources thinking
about things that
>> >> >> are
>> >> >> so little or so large that all they really do for us
is puff us up
>> >> >> and
>> >> >> make us feel like gods. We are mammals, and have not
exhausted the
>> >> >> annoying little problems of being mammals.
>> >> >>
>> >> >> -K. Mullis
>> >> >>
>> >> >> ______________________________________________
>> >> >> R-h... at r-project.org mailing
>> >> >> listhttps://stat.ethz.ch/mailman/listinfo/r-help
>> >> >> PLEASE do read the posting
>> >> >> guidehttp://www.R-project.org/posting-guide.html
>> >> >> and provide commented, minimal, self-contained,
reproducible code.
>> >> >
>> >> > ______________________________________________
>> >> > R-help at r-project.org mailing list
>> >> > https://stat.ethz.ch/mailman/listinfo/r-help
>> >> > PLEASE do read the posting guide
>> >> > http://www.R-project.org/posting-guide.html
>> >> > and provide commented, minimal, self-contained,
reproducible code.
>> >> >
>> >>
>> >>
>> >>
>> >> --
>> >> Stephen Sefick
>> >> Research Scientist
>> >> Southeastern Natural Sciences Academy
>> >>
>> >> Let's not spend our time and resources thinking about
things that are
>> >> so little or so large that all they really do for us is puff
us up and
>> >> make us feel like gods. We are mammals, and have not exhausted
the
>> >> annoying little problems of being mammals.
>> >>
>> >> -K. Mullis
>> >
>> >
>>
>>
>>
>> --
>> Stephen Sefick
>> Research Scientist
>> Southeastern Natural Sciences Academy
>>
>> Let's not spend our time and resources thinking about things that
are
>> so little or so large that all they really do for us is puff us up and
>> make us feel like gods. We are mammals, and have not exhausted the
>> annoying little problems of being mammals.
>>
>> -K. Mullis
>
>
--
Stephen Sefick
Research Scientist
Southeastern Natural Sciences Academy
Let's not spend our time and resources thinking about things that are
so little or so large that all they really do for us is puff us up and
make us feel like gods. We are mammals, and have not exhausted the
annoying little problems of being mammals.
-K. Mullis