| version 1.5, 2016/02/15 07:42:07 |
version 1.8, 2016/10/28 02:27:39 |
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| % $OpenXM: OpenXM/src/R/r-packages/hgm/man/hgm.c2wishart.Rd,v 1.4 2016/02/14 00:21:50 takayama Exp $ |
% $OpenXM: OpenXM/src/R/r-packages/hgm/man/hgm.c2wishart.Rd,v 1.7 2016/03/01 07:29:18 takayama Exp $ |
| \name{hgm.p2wishart} |
\name{hgm.p2wishart} |
| \alias{hgm.p2wishart} |
\alias{hgm.p2wishart} |
| %- Also NEED an '\alias' for EACH other topic documented here. |
%- Also NEED an '\alias' for EACH other topic documented here. |
| Line 34 hgm.p2wishart(m,n1,n2,beta,q0,approxdeg,h,dp,q,mode,me |
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| Line 34 hgm.p2wishart(m,n1,n2,beta,q0,approxdeg,h,dp,q,mode,me |
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| } |
} |
| \item{dp}{ |
\item{dp}{ |
| Sampling interval of solutions by the Runge-Kutta method. |
Sampling interval of solutions by the Runge-Kutta method. |
| When autoplot=1, dp is automatically set. |
When autoplot=1 or dp is negative, it is automatically set. |
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if it is 0, no sample is stored. |
| } |
} |
| \item{q}{ |
\item{q}{ |
| The second value y[0] of this function is the Prob(L1 < q) |
The second value y[0] of this function is the Prob(L1 < q) |
| Line 56 hgm.p2wishart(m,n1,n2,beta,q0,approxdeg,h,dp,q,mode,me |
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| Line 57 hgm.p2wishart(m,n1,n2,beta,q0,approxdeg,h,dp,q,mode,me |
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| When err=c(e1,e2), e1 is the absolute error and e2 is the relative error. |
When err=c(e1,e2), e1 is the absolute error and e2 is the relative error. |
| This parameter controls the adative Runge-Kutta method. |
This parameter controls the adative Runge-Kutta method. |
| If the output is absurd, you may get a correct answer by setting, e.g., |
If the output is absurd, you may get a correct answer by setting, e.g., |
| err=c(1e-(xy+5), 1e-10) when initial value at q0 is very small as 1e-xy. |
err=c(1e-(xy+5), 1e-10) or by increasing q0 when initial value at q0 is very small as 1e-xy. |
| } |
} |
| \item{automatic}{ |
\item{automatic}{ |
| automatic=1 is the default value. |
automatic=1 is the default value. |
| Line 77 hgm.p2wishart(m,n1,n2,beta,q0,approxdeg,h,dp,q,mode,me |
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| Line 78 hgm.p2wishart(m,n1,n2,beta,q0,approxdeg,h,dp,q,mode,me |
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| } |
} |
| \item{autoplot}{ |
\item{autoplot}{ |
| autoplot=0 is the default value. |
autoplot=0 is the default value. |
| If it is 1, then it outputs an input for plot. |
If it is 1, then this function outputs an input for plot |
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(which is equivalent to setting the 3rd argument of the mode parameter properly). |
| When ans is the output, ans[1,] is c(q,prob at q,...), ans[2,] is c(q0,prob at q0,...), and ans[3,] is c(q0+q/100,prob at q/100,...), ... |
When ans is the output, ans[1,] is c(q,prob at q,...), ans[2,] is c(q0,prob at q0,...), and ans[3,] is c(q0+q/100,prob at q/100,...), ... |
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When the adaptive Runge-Kutta method is used, the step size h may change |
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automatically, |
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which makes the sampling period change, in other words, the sampling points |
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q0+q/100, q0+2*q/100, q0+3*q/100, ... may change. |
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In this case, the output matrix may contain zero rows in the tail or overfull. |
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In case of the overful, use the mode option to get the all result. |
| } |
} |
| } |
} |
| \details{ |
\details{ |
| Line 99 See the reference below. |
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| Line 107 See the reference below. |
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| } |
} |
| \references{ |
\references{ |
| H.Hashiguchi, N.Takayama, A.Takemura, |
H.Hashiguchi, N.Takayama, A.Takemura, |
| in preparation. |
Distribution of ratio of two Wishart matrices and evaluation of cumulative probability by holonomic gradient method. |
| } |
} |
| \author{ |
\author{ |
| Nobuki Takayama |
Nobuki Takayama |
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