s1 = Sys.time() library(MRG) library(sf) library(giscoR) #' # These are SYNTHETIC agricultural FSS data data(ifs_dk) # Census data ifs_weight = ifs_dk %>% dplyr::filter(Sample == 1) # Extract weighted subsample # Create spatial data ifg = fssgeo(ifs_dk, locAdj = "LL") fsg = fssgeo(ifs_weight, locAdj = "LL") # Read nuts borders, used for extracting smaller data set borders = gisco_get_nuts(nuts_level = 2) dkb = borders[borders$CNTR_CODE == "DK",] %>% st_transform(crs = 3035) ifg$dkb = st_join(ifg, dkb)$NUTS_ID ifg = ifg[!is.na(ifg$dkb) & ifg$dkb == "DK01",] fsg$dkb = st_join(fsg, dkb)$NUTS_ID fsg = fsg[!is.na(fsg$dkb) & fsg$dkb == "DK01",] s2 = Sys.time() #' # Set the base resolutions, and create a hierarchical list with gridded data ress = c(1,5,10,20,40)*1000 # Gridding Utilized agricultural area (UAA) ifl = gridData(ifg, "UAA", res = ress) # Gridding UAA and organic UAA together ifl3 = gridData(ifg, vars = c("UAA", "UAAXK0000_ORG"), res = ress) # Gridding the UAA from the survey - the survey weights are in the column EXT_MODULE fsl = gridData(fsg, vars = c("UAA"), weights = "EXT_MODULE", res = ress) # Create a multi-resolution grid only with farm number as confidentiality rule, then plot results himg0 = multiResGrid(ifl, checkReliability = FALSE, suppresslim = 0) # Create a multi-resolution grid of UAA, also based on the dominance rule (default) himg1 = multiResGrid(ifl, vars = "UAA", ifg = ifg) # Create joint multi-resolution grid of organic UAA and total UAA himg3 = multiResGrid(ifl3, vars = c("UAA", "UAAXK0000_ORG"), ifg = ifg, checkReliability = FALSE, suppresslim = 0) # Create joint multi-resolution grid of organic UAA and total UAA himg4 = multiResGrid(ifl3, vars = c("UAA", "UAAXK0000_ORG"), ifg = ifg, checkReliability = FALSE, suppresslim = 0.1) s3 = Sys.time() # Create multi-resolution grid of UAA and organic UAA, based on survey data, # also applying reliability check himg5 <- multiResGrid(fsl, vars = c("UAA"), weights = "EXT_MODULE", ifg = fsg, strat = "STRA_ID_CORE", checkReliability = TRUE, reliabilitySplit = 5) summary(himg0) summary(himg1) summary(himg3) summary(himg4) summary(himg5) s4 = Sys.time() MRGobject = createMRGobject(ifg = ifg, ress = ress, var = "UAA") himg1 = multiResGrid(MRGobject) # Parameters can be updated in the object or in the call to multiResGrid MRGobject$suppresslim = 0.02 himg2 = multiResGrid(MRGobject) himg3 = multiResGrid(MRGobject, suppresslim = 0.05) summary(himg1) summary(himg2) summary(himg3) s5 = Sys.time() ## IGNORE_RDIFF_BEGIN s5-s4 s4-s3 s3-s2 s2-s1 s5-s1 s4-s1 s3-s1 s2-s1 ## IGNORE_RDIFF_END