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## Figures associated with MOD35 Cloud Mask Exploration
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setwd("~/acrobates/adamw/projects/MOD35C5")
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library(raster);beginCluster(10)
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library(rasterVis)
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library(rgdal)
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library(plotKML)
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library(Cairo)
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library(reshape)
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library(rgeos)
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## get % cloudy
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mod09=raster("data/MOD09_2009.tif")
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names(mod09)="MOD09CF"
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NAvalue(mod09)=0
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mod35c5=raster("data/MOD35_2009.tif")
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names(mod35c5)="C5MOD35CF"
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NAvalue(mod35c5)=0
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## mod35C6 annual
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if(!file.exists("data/MOD35C6_2009.tif")){
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system("/usr/local/gdal-1.10.0/bin/gdalbuildvrt -a_srs '+proj=sinu +lon_0=0 +x_0=0 +y_0=0 +a=6371007.181 +b=6371007.181 +units=m +no_defs' -sd 1 -b 1 data/MOD35C6.vrt /home/adamw/acrobates/adamw/projects/interp/data/modis/mod35/summary/*2009mean.nc ")
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system("align.sh data/MOD35C6.vrt data/MOD09_2009.tif data/MOD35C6_2009.tif")
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}
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mod35c6=raster("data/MOD35C6_2009.tif")
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names(mod35c6)="C6MOD35CF"
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NAvalue(mod35c6)=255
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## landcover
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if(!file.exists("data/MCD12Q1_IGBP_2009_051_wgs84_1km.tif")){
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system(paste("/usr/local/gdal-1.10.0/bin/gdalwarp -tr 0.008983153 0.008983153 -r mode -ot Byte -co \"COMPRESS=LZW\"",
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" /mnt/data/jetzlab/Data/environ/global/MODIS/MCD12Q1/051/MCD12Q1_051_2009.tif ",
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" -t_srs \"+proj=longlat +ellps=WGS84 +datum=WGS84 +no_defs\" ",
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" -te -180.0044166 -60.0074610 180.0044166 90.0022083 ",
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"data/MCD12Q1_IGBP_2009_051_wgs84_1km.tif -overwrite ",sep=""))}
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lulc=raster("data/MCD12Q1_IGBP_2009_051_wgs84_1km.tif")
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# lulc=ratify(lulc)
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data(worldgrids_pal) #load palette
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IGBP=data.frame(ID=0:16,col=worldgrids_pal$IGBP[-c(18,19)],
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lulc_levels2=c("Water","Forest","Forest","Forest","Forest","Forest","Shrublands","Shrublands","Savannas","Savannas","Grasslands","Permanent wetlands","Croplands","Urban and built-up","Cropland/Natural vegetation mosaic","Snow and ice","Barren or sparsely vegetated"),stringsAsFactors=F)
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IGBP$class=rownames(IGBP);rownames(IGBP)=1:nrow(IGBP)
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levels(lulc)=list(IGBP)
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#lulc=crop(lulc,mod09)
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names(lulc)="MCD12Q1"
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## make land mask
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if(!file.exists("data/land.tif"))
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land=calc(lulc,function(x) ifelse(x==0,NA,1),file="data/land.tif",options=c("COMPRESS=LZW","ZLEVEL=9","PREDICTOR=2"),datatype="INT1U",overwrite=T)
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land=raster("data/land.tif")
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## mask cloud masks to land pixels
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#mod09l=mask(mod09,land)
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#mod35l=mask(mod35,land)
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#####################################
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### compare MOD43 and MOD17 products
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## MOD17
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#extent(mod17)=alignExtent(mod17,mod09)
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if(!file.exists("data/MOD17.tif"))
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system("align.sh ~/acrobates/adamw/projects/interp/data/modis/MOD17/MOD17A3_Science_NPP_mean_00_12.tif data/MOD09_2009.tif data/MOD17.tif")
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mod17=raster("data/MOD17.tif",format="GTiff")
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NAvalue(mod17)=65535
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names(mod17)="MOD17"
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if(!file.exists("data/MOD17qc.tif"))
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system("align.sh ~/acrobates/adamw/projects/interp/data/modis/MOD17/MOD17A3_Science_NPP_Qc_mean_00_12.tif data/MOD09_2009.tif data/MOD17qc.tif")
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mod17qc=raster("data/MOD17qc.tif",format="GTiff")
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NAvalue(mod17qc)=255
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names(mod17qc)="MOD17CF"
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## MOD11 via earth engine
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if(!file.exists("data/MOD11_2009.tif"))
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system("align.sh ~/acrobates/adamw/projects/interp/data/modis/mod11/2009/MOD11_LST_2009.tif data/MOD09_2009.tif data/MOD11_2009.tif")
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mod11=raster("data/MOD11_2009.tif",format="GTiff")
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names(mod11)="MOD11"
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NAvalue(mod11)=0
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if(!file.exists("data/MOD11qc_2009.tif"))
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system("align.sh ~/acrobates/adamw/projects/interp/data/modis/mod11/2009/MOD11_Pmiss_2009.tif data/MOD09_2009.tif data/MOD11qc_2009.tif")
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mod11qc=raster("data/MOD11qc_2009.tif",format="GTiff")
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names(mod11qc)="MOD11CF"
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### Create some summary objects for plotting
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#difm=v6m-v5m
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#v5v6compare=stack(v5m,v6m,difm)
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#names(v5v6compare)=c("Collection 5","Collection 6","Difference (C6-C5)")
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### Processing path
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if(!file.exists("data/MOD35pp.tif"))
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system("align.sh data/MOD35_ProcessPath.tif data/MOD09_2009.tif data/MOD35pp.tif")
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pp=raster("data/MOD35pp.tif")
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NAvalue(pp)=255
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names(pp)="MOD35pp"
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#hist(dif,maxsamp=1000000)
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## draw lulc-stratified random sample of mod35-mod09 differences
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#samp=sampleStratified(lulc, 1000, exp=10)
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#save(samp,file="LULC_StratifiedSample_10000.Rdata")
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#mean(dif[samp],na.rm=T)
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#Stats(dif,function(x) c(mean=mean(x),sd=sd(x)))
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###
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n=100
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at=seq(0,100,len=n)
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cols=grey(seq(0,1,len=n))
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cols=rainbow(n)
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bgyr=colorRampPalette(c("blue","green","yellow","red"))
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cols=bgyr(n)
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#levelplot(lulcf,margin=F,layers="LULC")
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### Transects
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r1=Lines(list(
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Line(matrix(c(
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-61.688,4.098,
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-59.251,3.430
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),ncol=2,byrow=T))),"Venezuela")
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r2=Lines(list(
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Line(matrix(c(
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133.746,-31.834,
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134.226,-32.143
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),ncol=2,byrow=T))),"Australia")
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r3=Lines(list(
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Line(matrix(c(
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73.943,27.419,
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74.369,26.877
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),ncol=2,byrow=T))),"India")
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r4=Lines(list(
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Line(matrix(c(
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-5.164,42.270,
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-4.948,42.162
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),ncol=2,byrow=T))),"Spain")
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r5=Lines(list(
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Line(matrix(c(
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33.195,12.512,
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33.802,12.894
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),ncol=2,byrow=T))),"Sudan")
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r6=Lines(list(
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Line(matrix(c(
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-63.353,-10.746,
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-63.376,-9.310
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),ncol=2,byrow=T))),"Brazil")
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trans=SpatialLines(list(r1,r2,r3,r5),CRS("+proj=longlat +ellps=WGS84 +datum=WGS84 +no_defs "))
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### write out shapefiles of transects
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writeOGR(SpatialLinesDataFrame(trans,data=data.frame(ID=names(trans)),match.ID=F),"output",layer="transects",driver="ESRI Shapefile",overwrite=T)
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## buffer transects to get regional values
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transb=gBuffer(trans,0.4)
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## make polygons of bounding boxes
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bb0 <- lapply(slot(transb, "polygons"), bbox)
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library(splancs)
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bb1 <- lapply(bb0, bboxx)
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# turn these into matrices using a helper function in splancs
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bb2 <- lapply(bb1, function(x) rbind(x, x[1,]))
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# close the matrix rings by appending the first coordinate
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rn <- row.names(transb)
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# get the IDs
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bb3 <- vector(mode="list", length=length(bb2))
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# make somewhere to keep the output
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for (i in seq(along=bb3)) bb3[[i]] <- Polygons(list(Polygon(bb2[[i]])),
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ID=rn[i])
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# loop over the closed matrix rings, adding the IDs
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bbs <- SpatialPolygons(bb3, proj4string=CRS(proj4string(transb)))
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trd1=lapply(1:length(transb),function(x) {
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td=crop(mod11,transb[x])
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tdd=lapply(list(mod35c5,mod35c6,mod09,mod17,mod17qc,mod11,mod11qc,lulc,pp),function(l) resample(crop(l,transb[x]),td,method="ngb"))
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## normalize MOD11 and MOD17
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for(j in which(do.call(c,lapply(tdd,function(i) names(i)))%in%c("MOD11","MOD17"))){
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trange=cellStats(tdd[[j]],range)
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tscaled=100*(tdd[[j]]-trange[1])/(trange[2]-trange[1])
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tscaled@history=list(range=trange)
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names(tscaled)=paste(names(tdd[[j]]),"scaled",collapse="_",sep="_")
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tdd=c(tdd,tscaled)
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}
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return(brick(tdd))
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})
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## bind all subregions into single dataframe for plotting
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trd=do.call(rbind.data.frame,lapply(1:length(trd1),function(i){
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d=as.data.frame(as.matrix(trd1[[i]]))
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d[,c("x","y")]=coordinates(trd1[[i]])
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d$trans=names(trans)[i]
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d=melt(d,id.vars=c("trans","x","y"))
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return(d)
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}))
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transd=do.call(rbind.data.frame,lapply(1:length(trans),function(l) {
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td=as.data.frame(extract(trd1[[l]],trans[l],along=T,cellnumbers=F)[[1]])
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td$loc=extract(trd1[[l]],trans[l],along=T,cellnumbers=T)[[1]][,1]
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td[,c("x","y")]=xyFromCell(trd1[[l]],td$loc)
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td$dist=spDistsN1(as.matrix(td[,c("x","y")]), as.matrix(td[1,c("x","y")]),longlat=T)
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td$transect=names(trans[l])
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td2=melt(td,id.vars=c("loc","x","y","dist","transect"))
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td2=td2[order(td2$variable,td2$dist),]
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# get per variable ranges to normalize
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tr=cast(melt.list(tapply(td2$value,td2$variable,function(x) data.frame(min=min(x,na.rm=T),max=max(x,na.rm=T)))),L1~variable)
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td2$min=tr$min[match(td2$variable,tr$L1)]
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td2$max=tr$max[match(td2$variable,tr$L1)]
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print(paste("Finished ",names(trans[l])))
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return(td2)}
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))
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transd$type=ifelse(grepl("MOD35|MOD09|CF",transd$variable),"CF","Data")
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## comparison of % cloudy days
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dif_c5_09=mod35c5-mod09
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dif_c6_09=mod35c6-mod09
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dif_c5_c6=mod35c5-mod35c6
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t1=trd1[[1]]
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dif_p=calc(trd1[[1]], function(x) (x[1]-x[3])/(1-x[1]))
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edge=edge(subset(t1,"MCD12Q1"),classes=T,type="inner")
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names(edge)="edge"
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td1=as.data.frame(stack(t1,edge))
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cor(td1$MOD17,td1$C5MOD35,use="complete",method="spearman")
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cor(td1$MOD17[td1$edge==1],td1$C5MOD35[td1$edge==1],use="complete",method="spearman")
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cor(td1,use="complete",method="spearman")
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splom(t1)
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plot(mod17,mod17qc)
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xyplot(MOD17~C5MOD35CF|edge,data=td1)
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, function(x) (x[1]-x[3])/(1-x[1]))
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plot(dif_p)
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#rondonia=trd[trd$trans=="Brazil",]
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#trd=trd[trd$trans!="Brazil",]
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at=seq(0,100,leng=100)
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bgyr=colorRampPalette(c("purple","blue","green","yellow","orange","red","red"))
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bgrayr=colorRampPalette(c("purple","blue","grey","red","red"))
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cols=bgyr(100)
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## global map
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library(maptools)
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coast=map2SpatialLines(map("world", interior=FALSE, plot=FALSE),proj4string=CRS("+proj=longlat +ellps=WGS84 +datum=WGS84 +no_defs"))
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g1=levelplot(stack(mod35c5,mod09),xlab=" ",scales=list(x=list(draw=F),y=list(alternating=1)),col.regions=cols,at=at)+layer(sp.polygons(bbs[1:4],lwd=2))+layer(sp.lines(coast,lwd=.5))
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g2=levelplot(dif,col.regions=bgrayr(100),at=seq(-70,70,len=100),margin=F,ylab=" ",colorkey=list("right"))+layer(sp.polygons(bbs[1:4],lwd=2))+layer(sp.lines(coast,lwd=.5))
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trellis.par.set(background=list(fill="white"),panel.background=list(fill="white"))
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#g3=histogram(dif,bg="white",col="black",border=NA,scales=list(x=list(at=c(-50,0,50)),y=list(draw=F),cex=1))+layer(panel.abline(v=0,col="red",lwd=2))
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267
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### regional plots
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p1=useOuterStrips(levelplot(value~x*y|variable+trans,data=trd[!trd$variable%in%c("MCD12Q1","MOD35pp"),],asp=1,scales=list(draw=F,rot=0,relation="free"),
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at=at,col.regions=cols,maxpixels=7e6,
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ylab="Latitude",xlab="Longitude"),strip = strip.custom(par.strip.text=list(cex=.75)))+layer(sp.lines(trans,lwd=2))
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272
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p2=useOuterStrips(
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levelplot(value~x*y|variable+trans,data=trd[trd$variable%in%c("MCD12Q1"),],
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asp=1,scales=list(draw=F,rot=0,relation="free"),colorkey=F,
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275
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at=c(-1,IGBP$ID),col.regions=IGBP$col,maxpixels=7e7,
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276
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legend=list(
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277
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right=list(fun=draw.key(list(columns=1,#title="MCD12Q1 \n IGBP Land \n Cover",
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278
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rectangles=list(col=IGBP$col,size=1),
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text=list(as.character(IGBP$ID),at=IGBP$ID-.5))))),
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ylab="",xlab=" "),strip = strip.custom(par.strip.text=list(cex=.75)),strip.left=F)+layer(sp.lines(trans,lwd=2))
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p3=useOuterStrips(
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levelplot(value~x*y|variable+trans,data=trd[trd$variable%in%c("MOD35pp"),],
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283
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asp=1,scales=list(draw=F,rot=0,relation="free"),colorkey=F,
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284
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at=c(-1:4),col.regions=c("blue","cyan","tan","darkgreen"),maxpixels=7e7,
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285
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legend=list(
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286
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right=list(fun=draw.key(list(columns=1,#title="MOD35 \n Processing \n Path",
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287
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rectangles=list(col=c("blue","cyan","tan","darkgreen"),size=1),
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288
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text=list(c("Water","Coast","Desert","Land")))))),
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289
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ylab="",xlab=" "),strip = strip.custom(par.strip.text=list(cex=.75)),strip.left=F)+layer(sp.lines(trans,lwd=2))
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290
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|
291
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## transects
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292
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p4=xyplot(value~dist|transect,groups=variable,type=c("smooth","p"),
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293
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data=transd,panel=function(...,subscripts=subscripts) {
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294
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td=transd[subscripts,]
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295
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## mod09
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296
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imod09=td$variable=="MOD09CF"
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297
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panel.xyplot(td$dist[imod09],td$value[imod09],type=c("p","smooth"),span=0.2,subscripts=1:sum(imod09),col="red",pch=16,cex=.25)
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298
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## mod35C5
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299
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imod35=td$variable=="C5MOD35CF"
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300
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panel.xyplot(td$dist[imod35],td$value[imod35],type=c("p","smooth"),span=0.09,subscripts=1:sum(imod35),col="blue",pch=16,cex=.25)
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301
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## mod35C6
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302
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imod35c6=td$variable=="C6MOD35CF"
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303
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panel.xyplot(td$dist[imod35c6],td$value[imod35c6],type=c("p","smooth"),span=0.09,subscripts=1:sum(imod35c6),col="black",pch=16,cex=.25)
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304
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## mod17
|
305
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imod17=td$variable=="MOD17"
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306
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panel.xyplot(td$dist[imod17],100*((td$value[imod17]-td$min[imod17][1])/(td$max[imod17][1]-td$min[imod17][1])),
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307
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type=c("smooth"),span=0.09,subscripts=1:sum(imod17),col="darkgreen",lty=5,pch=1,cex=.25)
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308
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imod17qc=td$variable=="MOD17CF"
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309
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panel.xyplot(td$dist[imod17qc],td$value[imod17qc],type=c("p","smooth"),span=0.09,subscripts=1:sum(imod17qc),col="darkgreen",pch=16,cex=.25)
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310
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## mod11
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311
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imod11=td$variable=="MOD11"
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312
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panel.xyplot(td$dist[imod11],100*((td$value[imod11]-td$min[imod11][1])/(td$max[imod11][1]-td$min[imod11][1])),
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313
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type=c("smooth"),span=0.09,subscripts=1:sum(imod17),col="orange",lty="dashed",pch=1,cex=.25)
|
314
|
imod11qc=td$variable=="MOD11CF"
|
315
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qcspan=ifelse(td$transect[1]=="Australia",0.2,0.05)
|
316
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panel.xyplot(td$dist[imod11qc],td$value[imod11qc],type=c("p","smooth"),npoints=100,span=qcspan,subscripts=1:sum(imod11qc),col="orange",pch=16,cex=.25)
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317
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## land
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318
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path=td[td$variable=="MOD35pp",]
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319
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panel.segments(path$dist,-5,c(path$dist[-1],max(path$dist,na.rm=T)),-5,col=c("blue","cyan","tan","darkgreen")[path$value+1],subscripts=1:nrow(path),lwd=15,type="l")
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320
|
land=td[td$variable=="MCD12Q1",]
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321
|
panel.segments(land$dist,-10,c(land$dist[-1],max(land$dist,na.rm=T)),-10,col=IGBP$col[land$value+1],subscripts=1:nrow(land),lwd=15,type="l")
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322
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},subscripts=T,par.settings = list(grid.pars = list(lineend = "butt")),
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323
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scales=list(
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324
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x=list(alternating=1,relation="free"),#, lim=c(0,70)),
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325
|
y=list(at=c(-10,-5,seq(0,100,len=5)),
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326
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labels=c("IGBP","MOD35",seq(0,100,len=5)),
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327
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lim=c(-15,100))),
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328
|
xlab="Distance Along Transect (km)", ylab="% Missing Data / % of Maximum Value",
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329
|
legend=list(
|
330
|
bottom=list(fun=draw.key(list( rep=FALSE,columns=1,title=" ",
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331
|
## text=list(c("MOD09 % Cloudy","C5 MOD35 % Cloudy","C6 MOD35 % Cloudy","MOD17 % Missing","MOD17 (scaled)","MOD11 % Missing","MOD11 (scaled)")),
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332
|
lines=list(type=c("b","b","b","b","b","l","b","l"),pch=16,cex=.5,lty=c(0,1,1,1,1,5,1,5),col=c("transparent","red","blue","black","darkgreen","darkgreen","orange","orange")),
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333
|
text=list(c("MODIS Products","MOD09 % Cloudy","C5 MOD35 % Cloudy","C6 MOD35 % Cloudy","MOD17 % Missing","MOD17 (scaled)","MOD11 % Missing","MOD11 (scaled)")),
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334
|
rectangles=list(border=NA,col=c(NA,"tan","darkgreen")),
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335
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text=list(c("C5 MOD35 Processing Path","Desert","Land")),
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336
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rectangles=list(border=NA,col=c(NA,IGBP$col[sort(unique(transd$value[transd$variable=="MCD12Q1"]+1))])),
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337
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text=list(c("MCD12Q1 IGBP Land Cover",IGBP$class[sort(unique(transd$value[transd$variable=="MCD12Q1"]+1))])))))),
|
338
|
strip = strip.custom(par.strip.text=list(cex=.75)))
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339
|
print(p4)
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340
|
|
341
|
trdw=cast(trd,trans+x+y~variable,value="value")
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342
|
transdw=cast(transd,transect+dist~variable,value="value")
|
343
|
|
344
|
xyplot(MOD11CF~C5MOD35CF|transect,groups=MCD12Q1,data=transdw,pch=16,cex=1,scales=list(relation="free"))
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345
|
xyplot(MOD17~C5MOD35CF|trans,groups=MCD12Q1,data=trdw,pch=16,cex=1,scales=list(relation="free"))
|
346
|
|
347
|
#p5=levelplot(value~x*y|variable,data=rondonia,asp=1,scales=list(draw=F,rot=0,relation="free"),colorkey=T)#,
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348
|
#print(p5)
|
349
|
|
350
|
|
351
|
CairoPDF("output/mod35compare.pdf",width=11,height=7)
|
352
|
#CairoPNG("output/mod35compare_%d.png",units="in", width=11,height=8.5,pointsize=4000,dpi=1200,antialias="subpixel")
|
353
|
### Global Comparison
|
354
|
print(g1)
|
355
|
#print(g1,position=c(0,.33,1,1),more=T)
|
356
|
#print(g2,position=c(0,0,1,0.394),more=T)
|
357
|
#print(g3,position=c(0.31,0.06,.42,0.27),more=F)
|
358
|
### MOD35 Desert Processing path
|
359
|
levelplot(pp,asp=1,scales=list(draw=T,rot=0),maxpixels=1e6,
|
360
|
at=c(-1:3),col.regions=c("blue","cyan","tan","darkgreen"),margin=F,
|
361
|
colorkey=list(space="bottom",title="MOD35 Processing Path",labels=list(labels=c("Water","Coast","Desert","Land"),at=0:4-.5)))+layer(sp.polygons(bbs,lwd=2))+layer(sp.lines(coast,lwd=.5))
|
362
|
### levelplot of regions
|
363
|
print(p1,position=c(0,0,.62,1),more=T)
|
364
|
print(p2,position=c(0.6,0.21,0.78,0.79),more=T)
|
365
|
print(p3,position=c(0.76,0.21,1,0.79))
|
366
|
### profile plots
|
367
|
print(p4)
|
368
|
dev.off()
|
369
|
|
370
|
### summary stats for paper
|
371
|
td=cast(transect+loc+dist~variable,value="value",data=transd)
|
372
|
td2=melt.data.frame(td,id.vars=c("transect","dist","loc","MOD35pp","MCD12Q1"))
|
373
|
|
374
|
## function to prettyprint mean/sd's
|
375
|
msd= function(x) paste(round(mean(x,na.rm=T),1),"% ±",round(sd(x,na.rm=T),1),sep="")
|
376
|
|
377
|
cast(td2,transect+variable~MOD35pp,value="value",fun=msd)
|
378
|
cast(td2,transect+variable~MOD35pp+MCD12Q1,value="value",fun=msd)
|
379
|
cast(td2,transect+variable~.,value="value",fun=msd)
|
380
|
|
381
|
cast(td2,transect+variable~.,value="value",fun=msd)
|
382
|
|
383
|
cast(td2,variable~MOD35pp,value="value",fun=msd)
|
384
|
cast(td2,variable~.,value="value",fun=msd)
|
385
|
|
386
|
td[td$transect=="Venezuela",]
|
387
|
|
388
|
|
389
|
|
390
|
|
391
|
## scatterplot of MOD35 vs MOD09
|
392
|
trdl=cast(trans+x+y~variable,value="value",data=trd)
|
393
|
xyplot(MOD35C5qc~MOD09qc|trans+as.factor(MOD35pp),pch=16,cex=.2,data=trdl,auto.key=T)+layer(panel.abline(0,1))
|
394
|
|
395
|
|
396
|
### LANDCOVER
|
397
|
levelplot(lulc,col.regions=IGBP$col,scales=list(cex=2),colorkey=list(space="right",at=0:17,labels=list(at=seq(0.5,16.5,by=1),labels=levels(lulc)[[1]]$class,cex=2)),margin=F)
|
398
|
|
399
|
levelplot(mcompare,col.regions=cols,at=at,margin=F,sub="Frequency of MOD35 Clouds in March")
|
400
|
#levelplot(dif,col.regions=bgyr(20),margin=F)
|
401
|
levelplot(mdiff,col.regions=bgyr(100),at=seq(mdiff@data@min,mdiff@data@max,len=100),margin=F)
|
402
|
|
403
|
|
404
|
boxplot(as.matrix(subset(dif,subset=1))~forest,varwidth=T,notch=T);abline(h=0)
|
405
|
|
406
|
|
407
|
levelplot(modprod,main="Missing Data (%) in MOD17 (NPP) and MOD43 (BRDF Reflectance)",
|
408
|
sub="Tile H11v08 (Venezuela)",col.regions=cols,at=at)
|
409
|
|
410
|
|
411
|
|
412
|
|
413
|
levelplot(modprod,main="Missing Data (%) in MOD17 (NPP) and MOD43 (BRDF Reflectance)",
|
414
|
sub="Tile H11v08 (Venezuela)",col.regions=cols,at=at,
|
415
|
xlim=c(-7300000,-6670000),ylim=c(0,600000))
|
416
|
|
417
|
levelplot(v5m,main="Missing Data (%) in MOD17 (NPP) and MOD43 (BRDF Reflectance)",
|
418
|
sub="Tile H11v08 (Venezuela)",col.regions=cols,at=at,
|
419
|
xlim=c(-7200000,-6670000),ylim=c(0,400000),margin=F)
|
420
|
|
421
|
|
422
|
levelplot(subset(v5v6compare,1:2),main="Proportion Cloudy Days (%) in Collection 5 and 6 MOD35",
|
423
|
sub="Tile H11v08 (Venezuela)",col.regions=cols,at=at,
|
424
|
margin=F)
|
425
|
|
426
|
levelplot(subset(v5v6compare,1:2),main="Proportion Cloudy Days (%) in Collection 5 and 6 MOD35",
|
427
|
sub="Tile H11v08 (Venezuela)",col.regions=cols,at=at,
|
428
|
xlim=c(-7200000,-6670000),ylim=c(0,400000),margin=F)
|
429
|
|
430
|
levelplot(subset(v5v6compare,1:2),main="Proportion Cloudy Days (%) in Collection 5 and 6 MOD35",
|
431
|
sub="Tile H11v08 (Venezuela)",col.regions=cols,at=at,
|
432
|
xlim=c(-7500000,-7200000),ylim=c(700000,1000000),margin=F)
|
433
|
|
434
|
|
435
|
dev.off()
|
436
|
|
437
|
### smoothing plots
|
438
|
## explore smoothed version
|
439
|
td=subset(v6,m)
|
440
|
## build weight matrix
|
441
|
s=3
|
442
|
w=matrix(1/(s*s),nrow=s,ncol=s)
|
443
|
#w[s-1,s-1]=4/12; w
|
444
|
td2=focal(td,w=w)
|
445
|
td3=stack(td,td2)
|
446
|
|
447
|
levelplot(td3,col.regions=cols,at=at,margin=F)
|
448
|
|
449
|
dev.off()
|
450
|
plot(stack(difm,lulc))
|
451
|
|
452
|
### ROI
|
453
|
tile_ll=projectExtent(v6, "+proj=longlat +ellps=WGS84 +datum=WGS84 +no_defs")
|
454
|
|
455
|
62,59
|
456
|
0,3
|
457
|
|
458
|
|
459
|
|
460
|
#### export KML timeseries
|
461
|
library(plotKML)
|
462
|
tile="h11v08"
|
463
|
file=paste("summary/MOD35_",tile,".nc",sep="")
|
464
|
system(paste("gdalwarp -overwrite -multi -ot INT16 -r cubicspline -srcnodata 255 -dstnodata 255 -s_srs '+proj=sinu +lon_0=0 +x_0=0 +y_0=0 +a=6371007.181 +b=6371007.181 +units=m +no_defs' -t_srs 'EPSG:4326' NETCDF:",file,":PCloud MOD35_",tile,".tif",sep=""))
|
465
|
|
466
|
v6sp=brick(paste("MOD35_",tile,".tif",sep=""))
|
467
|
v6sp=readAll(v6sp)
|
468
|
|
469
|
## wasn't working with line below, perhaps Z should just be text? not date?
|
470
|
v6sp=setZ(v6sp,as.Date(paste("2011-",1:12,"-15",sep="")))
|
471
|
names(v6sp)=month.name
|
472
|
|
473
|
kml_open("output/mod35.kml")
|
474
|
|
475
|
|
476
|
kml_layer.RasterBrick(v6sp,
|
477
|
plot.legend = TRUE, dtime = "", tz = "GMT",
|
478
|
z.lim = c(0,100),colour_scale = get("colour_scale_numeric", envir = plotKML.opts))
|
479
|
# home_url = get("home_url", envir = plotKML.opts),
|
480
|
# metadata = NULL, html.table = NULL,
|
481
|
# altitudeMode = "clampToGround", balloon = FALSE,
|
482
|
)
|
483
|
|
484
|
logo = "http://static.tumblr.com/t0afs9f/KWTm94tpm/yale_logo.png"
|
485
|
kml_screen(image.file = logo, position = "UL", sname = "YALE logo",size=c(.1,.1))
|
486
|
kml_close("mod35.kml")
|
487
|
kml_compress("mod35.kml",files=c(paste(month.name,".png",sep=""),"obj_legend.png"),zip="/usr/bin/zip")
|