R help - Aug 2007 - Age-Length key with kimura algorith

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Hi Jorge

In fact I have been working with that method. I made a simple R function to 
apply it, and I'm sending you the code below. If you have any questions
about
it just send me a message.
Cheers

Alberto


On Tuesday 28 August 2007 8:44 pm, Jorge Cornejo Donoso
wrote:
> Hi, I?m looking for information to implement the kimura method (kimura
&
> Chikuni. 1987. Mixtures of empirical distributions: an interative
> application of the age length key) for calculation of fisheries age-length
> key.
>
> If someone have a manuals, methodology or examples about it I will be
> really gratefull if you could share it.
>
>
>
> Thanks in advance
>
>
>
> Jorge Cornejo Donoso
>
> Bi?logo Marino Menci?n Oceanograf?a y Calidad Ambiental
>
> Centro Trapananda, Universidad Austral de Chile
>
> Portales 73, Coyhaique, Chile
>
> Fono: +56(67)244520 fax: +56(67)239377
>
>
>
>
> 	[[alternative HTML version deleted]]
-- 
 Alberto G. Murta
IPIMAR - National Institute of Fisheries and Marine Research
Avenida de Brasilia s/n; 1449-006 - Lisboa; Portugal
Tel: +351 213027000; Fax: +351 21 3015948; email: amurta at ipimar.pt
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## Function to apply the method by Kimura and Chikuni (1987):
## Kimura, D.K. and Chikuni, S. (1987) Mixtures of empirical distributions:
##  an iterative application of the age-length key. Biometrics. 43, 23-35. 
## 'freq.mat' is a matrix with the number of fish in each length (row)
and age (column) class.
## This matrix can be obtained by simple random sampling or length-stratified
random sampling.
## 'length.vec1' and 'length.vec2' are vectors with the number
of fish in each length-class in population 1
##  and population 2, respectively.

iterativeALK <- function(freq.mat, length.vec1, length.vec2,
stop.value=0.001){
  if(length(length.vec1) != length(length.vec2) || length(length.vec2) !=
nrow(freq.mat) ||
     c(length.vec1, length.vec2, apply(freq.mat, 1, sum)) <= 0){
    stop("The number of length-classes must be the same in all data sets
and all length-classes
          must have been sampled.")
  }
  nij1.temp <- length.vec1 * freq.mat/apply(freq.mat, 1, sum)
  denom <- apply(nij1.temp, 2, sum)
  denom[denom==0] <- 1
  ialk.temp <- sweep(nij1.temp, 2, denom,"/")
  pj2.temp <- rep(1/length(age.class), length(age.class))
  criterion <- 10
  iterations <- 0
  while(criterion > stop.value){
    iterations <- iterations + 1
    pj2.temp.old <- pj2.temp
    denom <- apply(sweep(ialk.temp, 2, pj2.temp, "*"),1, sum)
    denom[denom==0] <- 1
    alk.temp <- sweep(ialk.temp, 2, pj2.temp, "*")/denom
    nij2.temp <- length.vec2 * alk.temp
    pj2.temp <- apply(nij2.temp, 2, sum)/sum(nij2.temp)
    criterion <- sum(abs(pj2.temp - pj2.temp.old))
  }
  output <- list("Number of fish in each length and age-class in
population 2" = nij2.temp,
                 "Number of iterations to convergence" = iterations)
  return(output)
}