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Aula 2: Introdução ao sp. Pedro Ribeiro de Andrade DSA/CCST/INPE São José dos Campos, 2009. Apresentação baseada em: Pebesma & Bivand . S Classes and Methods for Spatial Data: the sp Package. Pacotes. KernSmooth MASS Matrix boot class cluster codetools foreign - PowerPoint PPT Presentation
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Aula 2:Introdução ao spPedro Ribeiro de AndradeDSA/CCST/INPESão José dos Campos, 2009
Apresentação baseada em:Pebesma & Bivand. S Classes and Methods for Spatial Data: the sp Package
Pacotes
install.packages() require()
base datasetsgrDevices graphicsgrid methods splines stats stats4 tcltktools utils
KernSmooth MASSMatrix bootclass clustercodetools foreignlattice mgcvnlme nnetrpart spatialsurvival
mais de 2000 pacotes no CRAN
outros pacotes fora do CRAN
Rproject -> CRAN -> Mirror ->TaskView-> Spatial
sp: Tipos de Dados Espaciais
SpatialPointsxc = round(runif(10), 2)
yc = round(runif(10), 2)
xy = cbind(xc, yc)xy.sp = SpatialPoints(xy)class(xy.sp)xy.sp[1:3,]xy.sp[1:3]bbox(xy.sp)summary(xy.sp)coordinates(xy.sp)as(xy.sp, "data.frame")plot(xy.sp)
SpatialPointsDataFrame
df = data.frame(ID=paste(1:10), z1 = round(5 + rnorm(10), 2), z2 = 20:29)xy.spdf = SpatialPointsDataFrame(xy, df)xy.spdf = SpatialPointsDataFrame(xy.sp, df)
names(xy.spdf)
coordinates(xy.spdf)
xy.spdf[1:2, ]
xy.spdf[,1]
xy.spdf[,"ID"]
xy.spdf[,c("ID","z2")]
xy.spdf[2:5,c("ID","z2")]
SpatialPointsDataFrame – plotrequire(lattice) trellis.par.set(sp.theme())
data(meuse)coordinates(meuse)=~x+yspplot(meuse)spplot(meuse[,"zinc"], scales=list(draw=T))spplot(meuse[1:100,"zinc"], do.log = T)spplot(meuse[,"zinc"], do.log = T, cuts = 3,
legendEntries = c("low", "intermediate", "high"))spplot(meuse[,c("cadmium", "copper")], do.log = T)bubble(meuse,"cadmium", maxsize = 1.5, key.entries =
2^(-1:4))
SpatialLinesl1 = cbind(c(1, 2, 3), c(3, 2, 2))
l1a = cbind(l1[, 1] + 0.05, l1[, 2] + 0.05)
l2 = cbind(c(1, 2, 3), c(1, 1.5, 1))
Sl1 = Line(l1)
Sl1a = Line(l1a)
Sl2 = Line(l2)
S1 = Lines(list(Sl1, Sl1a), ID = "a")
S2 = Lines(list(Sl2), ID = "b")
Sl = SpatialLines(list(S1, S2))
summary(Sl)
plot(Sl, col = c("red", "blue"))
SpatialLinesDataFrame
df = data.frame(z = c(1, 2), row.names = c("a", "b"))
Sldf = SpatialLinesDataFrame(Sl, data = df)
as.data.frame(Sldf)
as(Sldf, "data.frame")
summary(Sldf)
spplot(Sldf)
SpatialPolygons
Sr1 = Polygon(cbind(c(2, 4, 4, 1, 2), c(2, 3, 5, 4, 2)))
Sr2 = Polygon(cbind(c(5, 4, 2, 5), c(2, 3, 2, 2)))
Sr3 = Polygon(cbind(c(4, 4, 5, 10, 4), c(5, 3, 2, 5, 5)))
Sr4 = Polygon(cbind(c(5, 6, 6, 5, 5), c(4, 4, 3, 3, 4)),
hole = TRUE)
Srs1 = Polygons(list(Sr1), "s1")
Srs2 = Polygons(list(Sr2), "s2")
Srs3 = Polygons(list(Sr3, Sr4), "s34")
SpP = SpatialPolygons(list(Srs1, Srs2, Srs3), 1:3)
plot(SpP)
plot(SpP, col=c("red","blue","green"))
SpatialPolygonsDataFrame
attr = data.frame(a = 1:3, b = 3:1,
row.names = c("s34", "s2", "s1"))
SrDf = SpatialPolygonsDataFrame(SpP, attr)
as(SrDf, "data.frame")
summary(SrDf)
plot(SrDf)
spplot(SrDf)
spplot(SrDf[c("s1","s2"),])
SpatialPolygonsDataFrame – plot
data(meuse.riv)meuse.rivp=Polygon(meuse.riv)P=Polygons(list(p), "meuse.riv")meuse.sr =SpatialPolygons(list(P))rv = list("sp.polygons", meuse.sr, fill = "lightblue")spplot(meuse[,"zinc"], do.log=TRUE, sp.layout=list(rv))
SpatialPolygonsDataFrame – plot
library(maptools)
nc <- readShapePoly(system.file("shapes/sids.shp", package="maptools")[1], proj4string=CRS("+proj=longlat +datum=NAD27"))
summary(nc)
nc2=nc[c(67:71,84:86),]
plot(nc2,asp=1)
invisible(text(getSpPPolygonsLabptSlots(nc), labels=as.character(nc$NAME), cex=0.75))
plot(nc, add=T,asp=1)
box()
SpatialPolygonsDataFrame – plot
spplot(nc[c("SID74", "SID79")])
rrt <- nc$SID74/nc$BIR74
brks <- quantile(rrt, seq(0,1,1/7))
dens <- (2:length(brks))*15
plot(nc, density=dens[findInterval(rrt, brks, all.inside=TRUE)])
box()
S4 – objetos
getSlots("SpatialPoints")slotNames(xy.sp)slot(xy.sp,"bbox")xy.sp@bbox
getSlots("Line")getSlots("Lines")getSlots("SpatialLines")sapply(slot(Sl, "lines"), function(x) slot(x, "ID"))
Grids e Pixelsgt = GridTopology(cellcentre.offset = c(1, 1),
cellsize = c(1, 1), cells.dim = c(3, 4))
grd = SpatialGrid(gt)
summary(grd)
gridparameters(grd)
plot(grd)
pts = expand.grid(x = 1:3, y = 1:4)
grd.pts = SpatialPixels(SpatialPoints(pts))
summary(grd.pts)
grd = as(grd.pts, "SpatialGrid")
summary(grd)
Grids e Pixelsattr = expand.grid(xc = 1:3, yc = 1:3)
grd.attr = data.frame(attr, z1 = 1:9, z2 = 9:1)
coordinates(grd.attr) = ~xc + yc
gridded(grd.attr)
gridded(grd.attr) = TRUE
gridded(grd.attr)
summary(grd.attr)
Pontos ou Matrizes?
fullgrid(grd); fullgrid(grd.pts); fullgrid(grd.attr)
fullgrid(grd.pts) = TRUE
fullgrid(grd.attr) = TRUE
fullgrid(grd.pts)
fullgrid(grd.attr)
fullgrid(grd.attr) = FALSE
image(grd.attr[1:5, "z1"])
fullgrid(grd.attr) = TRUE
image(grd.attr[1])
image(grd.attr["z2"])
SpatialGridsrequire(splancs)
data(bodmin)
b.xy <- coordinates(bodmin[1:2])
r = apply(bodmin$poly, 2, range)
(r[2,]-r[1,])/0.2
grd1 <- GridTopology(cellcentre.offset=c(-5.2, -11.5), cellsize=c(0.2, 0.2), cells.dim=c(75,100))
(r[2,]-r[1,])/0.1
grd1 <- GridTopology(cellcentre.offset=c(-5.2, -11.5), cellsize=c(0.1, 0.1), cells.dim=c(150,200))
SpatialGridsk100 <- spkernel2d(b.xy, bodmin$poly, h0=1, grd1)
k150 <- spkernel2d(b.xy, bodmin$poly, h0=1.5, grd1)
k200 <- spkernel2d(b.xy, bodmin$poly, h0=2, grd1)
k250 <- spkernel2d(b.xy, bodmin$poly, h0=2.5, grd1)
df <- data.frame(k100, k150, k200, k250)
kernels <- SpatialGridDataFrame(grd1, data=df)
spplot(kernels, col.regions=terrain.colors(16), cut=15)
image(kernels[1])
contour(kernels[1],add=T, nlev=5)
Aula 2:Introdução ao spPedro Ribeiro de AndradeDSA/CCST/INPESão José dos Campos, 2009
Apresentação baseada em:Pebesma & Bivand. S Classes and Methods for Spatial Data: the sp Package
Projeções: rgdal com PROJ.4
require(rgdal)
data(state)
states <- data.frame(state.x77, state.center)
states <- states[states$x > -121,]
coordinates(states) <- c("x", "y")
proj4string(states) <- CRS("+proj=longlat +ellps=clrk66")
summary(states)
state.merc <- spTransform(states, CRS=CRS("+proj=merc +ellps=GRS80"))
summary(state.merc)
