inst/Updates/LFA41/LFA41_2024/2d.stratifiedAnalysisCommercial.r
In LobsterScience/bio.lobster: Lobster Stock Assessment Tools for DFO Maritimes
require(bio.survey)
require(bio.lobster)
p=list()
p$libs = NULL
fp = file.path(project.datadirectory('bio.lobster'),"assessments",'LFA41','2024')
la()
#NEFSC Setup
p$current.assessment.year = 2024
assessment.year = p$current.assessment.year ########### check the year ############### !!!!!!!!!!!
p$reweight.strata = F #this subsets
p$years.to.estimate = c(1969:assessment.year)
p$length.based = T
p$size.class= c(83,300)
p$by.sex = T
p$sex = c(1,2) # male female berried c(1,2,3)
p$bootstrapped.ci=T
p$strata.files.return=F
p$strata.efficiencies=F
p$clusters = c( rep( "localhost", 7) )
p = make.list(list(yrs=p$years.to.estimate),Y=p)
# Spring survey All stations including adjacent
p$season =c('spring')# p$series =c('spring');p$series =c('fall')
#Spring restratified to lfa41
p$define.by.polygons = T
p$lobster.subunits=F
p$area = 'LFA41'
p$reweight.strata = T #this subsets
aout= nefsc.analysis_vh(DS='stratified.estimates.redo',p=p)
#
# #Figure
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.mean' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41NEFSCSpringrestratifiedweightscommercial.png'
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
# p$ylim=c(0,50)
#
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
# p$ylim=c(0,20)
# p$metric = 'numbers' #weights
# p$file.name = 'lfa41NEFSCSpringrestratifiednumberscommercial.png'
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
aout$subset = 'NEFSCSpringcommercial'
write.csv(aout,file=file.path(fp,'indicators','NEFSC.spring.restratified.commercial.csv'))
#
# #Figure
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.total' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41NEFSCSpringrestratifiedtotalweightscommercial.png'
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
# p$ylim=NULL
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
# rm(aout)
#Fall restratified to lfa41
p$season =c('fall')# p$series =c('spring');p$series =c('fall')
p$define.by.polygons = T
p$lobster.subunits=F
p$area = 'LFA41'
p$reweight.strata = T #this subsets
p$years.to.estimate = c(1969:assessment.year) # -1 because update is in the Fall
p = make.list(list(yrs=p$years.to.estimate),Y=p)
aout= nefsc.analysis_vh(DS='stratified.estimates.redo',p=p)
#
# #Figure
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.mean' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41NEFSCFallrestratifiedweightscommercial.png'
#
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
#
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
# p$ylim=c(0,30)
#
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
#
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
#
# p$ylim=c(0,15)
# p$metric = 'numbers' #weights
# p$file.name = 'lfa41NEFSCFallrestratifiednumberscommercial.png'
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
#
#
# #total
# #Figure
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.total' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41NEFSCFallrestratifiedtotalweightscommercial.png'
#
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
#
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
#
# p$ylim=NULL
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
#
#
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
aout$subset = 'NEFSCFallcommercial'
write.csv(aout,file=file.path(fp,'indicators','NEFSC.fall.restratified.commercial.csv'))
# rm(aout)
##############################################################
#DFO RV Setup
p$series =c('summer')# p$series =c('georges');p$series =c('fall')
p$define.by.polygons = F
p$lobster.subunits=F
p$area = 'LFA41'
p$years.to.estimate = c(1970:assessment.year)
p$length.based = T
p$by.sex = T
p$size.class = c(83,300)
p$sex = c(1,2)
p$bootstrapped.ci=T
p$strata.files.return=F
p$vessel.correction.fixed=1.2
p$strat = NULL
p$clusters = c( rep( "localhost", 7) )
p$strata.efficiencies = F
p = make.list(list(yrs=p$years.to.estimate),Y=p)
#DFO restratified to lfa41
p$define.by.polygons = T
p$lobster.subunits=F
p$area = 'LFA41'
p$reweight.strata = T #this subsets
aout= dfo.rv.analysis(DS='stratified.estimates.redo',p=p)
#
# #Figure
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.mean' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41DFOrestratifiedweightscommercial.png'
#
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
#
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
#
#
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
# p$ylim =c(0,30)
#
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
#
# p$ylim =c(0,25)
# p$metric = 'numbers' #weights
# p$file.name = 'lfa41DFOrestratifiednumberscommercial.png'
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
#
#
# #total
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.total' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41DFOrestratifiedtotalweightscommercial.png'
#
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
#
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
#
#
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
# p$ylim=NULL
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
aout$subset = 'DFOcommercial'
write.csv(aout,file=file.path(fp,'indicators','DFO.restratified.commercial.csv'))
# rm(aout)
#DFO Georges
p$series =c('georges')# p$series =c('georges');p$series =c('fall')
p$define.by.polygons = F
p$lobster.subunits=F
p$years.to.estimate = c(2007:assessment.year)
p$length.based = T
p$by.sex = T
p$sex = c(1,2)
p$size.class = c(83,300)
p$bootstrapped.ci=T
p$strata.files.return=F
p$vessel.correction.fixed=1.2
p$strat = NULL
p$clusters = c( rep( "localhost", 7) )
p$strata.efficiencies = F
p = make.list(list(yrs=p$years.to.estimate),Y=p)
# DFO survey All stations including adjacent
p$lobster.subunits=F
p$area = 'Georges.Canada'
p$reweight.strata = F #this subsets
aout= dfo.rv.analysis(DS='stratified.estimates.redo',p=p)
#
# #Figure
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.mean' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41georgesweightscommercial.png'
#
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
#
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
#
#
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
#
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
# p$metric = 'numbers'
# p$file.name = 'lfa41georgesnumberscommercial.png'
# p$ylim =c(0,10)
#
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
#
#
# #total
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.total' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41georgestotalweightscommercial.png'
#
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
#
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
#
#
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
#
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
#
aout$subset = 'DFOcommercial'
write.csv(aout,file=file.path(fp,'indicators','DFO.Georges.commercial.csv'))
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require(bio.survey)
require(bio.lobster)
p=list()
p$libs = NULL
fp = file.path(project.datadirectory('bio.lobster'),"assessments",'LFA41','2024')
la()
#NEFSC Setup
p$current.assessment.year = 2024
assessment.year = p$current.assessment.year ########### check the year ############### !!!!!!!!!!!
p$reweight.strata = F #this subsets
p$years.to.estimate = c(1969:assessment.year)
p$length.based = T
p$size.class= c(83,300)
p$by.sex = T
p$sex = c(1,2) # male female berried c(1,2,3)
p$bootstrapped.ci=T
p$strata.files.return=F
p$strata.efficiencies=F
p$clusters = c( rep( "localhost", 7) )
p = make.list(list(yrs=p$years.to.estimate),Y=p)
# Spring survey All stations including adjacent
p$season =c('spring')# p$series =c('spring');p$series =c('fall')
#Spring restratified to lfa41
p$define.by.polygons = T
p$lobster.subunits=F
p$area = 'LFA41'
p$reweight.strata = T #this subsets
aout= nefsc.analysis_vh(DS='stratified.estimates.redo',p=p)
#
# #Figure
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.mean' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41NEFSCSpringrestratifiedweightscommercial.png'
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
# p$ylim=c(0,50)
#
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
# p$ylim=c(0,20)
# p$metric = 'numbers' #weights
# p$file.name = 'lfa41NEFSCSpringrestratifiednumberscommercial.png'
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
aout$subset = 'NEFSCSpringcommercial'
write.csv(aout,file=file.path(fp,'indicators','NEFSC.spring.restratified.commercial.csv'))
#
# #Figure
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.total' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41NEFSCSpringrestratifiedtotalweightscommercial.png'
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
# p$ylim=NULL
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
# rm(aout)
#Fall restratified to lfa41
p$season =c('fall')# p$series =c('spring');p$series =c('fall')
p$define.by.polygons = T
p$lobster.subunits=F
p$area = 'LFA41'
p$reweight.strata = T #this subsets
p$years.to.estimate = c(1969:assessment.year) # -1 because update is in the Fall
p = make.list(list(yrs=p$years.to.estimate),Y=p)
aout= nefsc.analysis_vh(DS='stratified.estimates.redo',p=p)
#
# #Figure
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.mean' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41NEFSCFallrestratifiedweightscommercial.png'
#
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
#
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
# p$ylim=c(0,30)
#
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
#
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
#
# p$ylim=c(0,15)
# p$metric = 'numbers' #weights
# p$file.name = 'lfa41NEFSCFallrestratifiednumberscommercial.png'
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
#
#
# #total
# #Figure
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.total' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41NEFSCFallrestratifiedtotalweightscommercial.png'
#
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
#
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
#
# p$ylim=NULL
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
#
#
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
aout$subset = 'NEFSCFallcommercial'
write.csv(aout,file=file.path(fp,'indicators','NEFSC.fall.restratified.commercial.csv'))
# rm(aout)
##############################################################
#DFO RV Setup
p$series =c('summer')# p$series =c('georges');p$series =c('fall')
p$define.by.polygons = F
p$lobster.subunits=F
p$area = 'LFA41'
p$years.to.estimate = c(1970:assessment.year)
p$length.based = T
p$by.sex = T
p$size.class = c(83,300)
p$sex = c(1,2)
p$bootstrapped.ci=T
p$strata.files.return=F
p$vessel.correction.fixed=1.2
p$strat = NULL
p$clusters = c( rep( "localhost", 7) )
p$strata.efficiencies = F
p = make.list(list(yrs=p$years.to.estimate),Y=p)
#DFO restratified to lfa41
p$define.by.polygons = T
p$lobster.subunits=F
p$area = 'LFA41'
p$reweight.strata = T #this subsets
aout= dfo.rv.analysis(DS='stratified.estimates.redo',p=p)
#
# #Figure
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.mean' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41DFOrestratifiedweightscommercial.png'
#
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
#
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
#
#
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
# p$ylim =c(0,30)
#
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
#
# p$ylim =c(0,25)
# p$metric = 'numbers' #weights
# p$file.name = 'lfa41DFOrestratifiednumberscommercial.png'
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
#
#
# #total
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.total' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41DFOrestratifiedtotalweightscommercial.png'
#
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
#
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
#
#
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
# p$ylim=NULL
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
aout$subset = 'DFOcommercial'
write.csv(aout,file=file.path(fp,'indicators','DFO.restratified.commercial.csv'))
# rm(aout)
#DFO Georges
p$series =c('georges')# p$series =c('georges');p$series =c('fall')
p$define.by.polygons = F
p$lobster.subunits=F
p$years.to.estimate = c(2007:assessment.year)
p$length.based = T
p$by.sex = T
p$sex = c(1,2)
p$size.class = c(83,300)
p$bootstrapped.ci=T
p$strata.files.return=F
p$vessel.correction.fixed=1.2
p$strat = NULL
p$clusters = c( rep( "localhost", 7) )
p$strata.efficiencies = F
p = make.list(list(yrs=p$years.to.estimate),Y=p)
# DFO survey All stations including adjacent
p$lobster.subunits=F
p$area = 'Georges.Canada'
p$reweight.strata = F #this subsets
aout= dfo.rv.analysis(DS='stratified.estimates.redo',p=p)
#
# #Figure
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.mean' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41georgesweightscommercial.png'
#
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
#
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
#
#
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
#
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
# p$metric = 'numbers'
# p$file.name = 'lfa41georgesnumberscommercial.png'
# p$ylim =c(0,10)
#
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
#
#
# #total
# p$add.reference.lines = F
# p$time.series.start.year = p$years.to.estimate[1]
# p$time.series.end.year = p$years.to.estimate[length(p$years.to.estimate)]
# p$metric = 'weights' #weights
# p$measure = 'stratified.total' #'stratified.total'
# p$figure.title = ""
# p$reference.measure = 'median' # mean, geomean
# p$file.name = 'lfa41georgestotalweightscommercial.png'
#
# p$y.maximum = NULL # NULL # if ymax is too high for one year
# p$show.truncated.weights = F #if using ymax and want to show the weights that are cut off as values on figure
#
# p$legend = FALSE
# p$running.median = T
# p$running.length = 3
# p$running.mean = F #can only have rmedian or rmean
# p$error.polygon=F
# p$error.bars=T
#
#
# p$ylim2 = c(0,500)
# xx = aggregate(ObsLobs~yr,data=aout,FUN=sum)
# names(xx) =c('x','y')
#
# ref.out= figure.stratified.analysis(x=aout,out.dir = 'bio.lobster', p=p, x2 = xx, sampleSizes=T)
#
aout$subset = 'DFOcommercial'
write.csv(aout,file=file.path(fp,'indicators','DFO.Georges.commercial.csv'))
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