Nothing
#SINGLE VALUES OF AGROMETEOROLOGICAL DATA
#LANDSAT-8
#' Crop coefficient (ETa / ET0) using Landsat-8 images with single agrometeorological data.
#'
#' @param doy is the Day of Year (DOY)
#' @param RG is the global solar radiation
#' @param Ta is the average air temperature
#' @param a is one of the regression coefficients of SAFER algorithm
#' @param b is one of the regression coefficients of SAFER algorithm
#' @export
#' @import terra
#' @importFrom utils read.csv
#'
#' @return It returns in raster format (.tif) the Surface Albedo at 24h scale ("Alb_24"), NDVI, Surface Temperature ("LST"), Crop Coefficient ("kc") and net radiation ("Rn_MJ").
kc_l8 = function(doy, RG, Ta, a, b){
b1 <- rast("B1.tif")
b2 <- rast("B2.tif")
b3 <- rast("B3.tif")
b4 <- rast("B4.tif")
b5 <- rast("B5.tif")
b6 <- rast("B6.tif")
b7 <- rast("B7.tif")
mask <- vect("mask.shp")
b1_crop <- crop(b1, ext(mask)[1:4])
b1_mascara <- mask(b1_crop, mask)
b2_crop <- crop(b2, ext(mask)[1:4])
b2_mascara <- mask(b2_crop, mask)
b3_crop <- crop(b3, ext(mask)[1:4])
b3_mascara <- mask(b3_crop, mask)
b4_crop <- crop(b4, ext(mask)[1:4])
b4_mascara <- mask(b4_crop, mask)
b5_crop <- crop(b5, ext(mask)[1:4])
b5_mascara <- mask(b5_crop, mask)
b6_crop <- crop(b6, ext(mask)[1:4])
b6_mascara <- mask(b6_crop, mask)
b7_crop <- crop(b7, ext(mask)[1:4])
b7_mascara <- mask(b7_crop, mask)
metadata <- list.files(pattern = "txt")
m <- read.csv(metadata, header = T)
metadata <- paste( unlist(m), collapse='')
rm(m)
RADIANCE_MAXIMUM_BAND_1 <- "^.*RADIANCE_MAXIMUM_BAND_1 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_1 <- gsub(RADIANCE_MAXIMUM_BAND_1, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_1 <- as.numeric(RADIANCE_MAXIMUM_BAND_1)
RADIANCE_MAXIMUM_BAND_2 <- "^.*RADIANCE_MAXIMUM_BAND_2 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_2 <- gsub(RADIANCE_MAXIMUM_BAND_2, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_2 <- as.numeric(RADIANCE_MAXIMUM_BAND_2)
RADIANCE_MAXIMUM_BAND_3 <- "^.*RADIANCE_MAXIMUM_BAND_3 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_3 <- gsub(RADIANCE_MAXIMUM_BAND_3, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_3 <- as.numeric(RADIANCE_MAXIMUM_BAND_3)
RADIANCE_MAXIMUM_BAND_4 <- "^.*RADIANCE_MAXIMUM_BAND_4 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_4 <- gsub(RADIANCE_MAXIMUM_BAND_4, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_4 <- as.numeric(RADIANCE_MAXIMUM_BAND_4)
RADIANCE_MAXIMUM_BAND_5 <- "^.*RADIANCE_MAXIMUM_BAND_5 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_5 <- gsub(RADIANCE_MAXIMUM_BAND_5, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_5 <- as.numeric(RADIANCE_MAXIMUM_BAND_5)
RADIANCE_MAXIMUM_BAND_6 <- "^.*RADIANCE_MAXIMUM_BAND_6 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_6 <- gsub(RADIANCE_MAXIMUM_BAND_6, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_6 <- as.numeric(RADIANCE_MAXIMUM_BAND_6)
RADIANCE_MAXIMUM_BAND_7 <- "^.*RADIANCE_MAXIMUM_BAND_7 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_7 <- gsub(RADIANCE_MAXIMUM_BAND_7, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_7 <- as.numeric(RADIANCE_MAXIMUM_BAND_7)
RADIANCE_MINIMUM_BAND_1 <- "^.*RADIANCE_MINIMUM_BAND_1 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_1 <- gsub(RADIANCE_MINIMUM_BAND_1, "\\1", metadata)
RADIANCE_MINIMUM_BAND_1 <- as.numeric(RADIANCE_MINIMUM_BAND_1)
RADIANCE_MINIMUM_BAND_2 <- "^.*RADIANCE_MINIMUM_BAND_2 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_2 <- gsub(RADIANCE_MINIMUM_BAND_2, "\\1", metadata)
RADIANCE_MINIMUM_BAND_2 <- as.numeric(RADIANCE_MINIMUM_BAND_2)
RADIANCE_MINIMUM_BAND_3 <- "^.*RADIANCE_MINIMUM_BAND_3 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_3 <- gsub(RADIANCE_MINIMUM_BAND_3, "\\1", metadata)
RADIANCE_MINIMUM_BAND_3 <- as.numeric(RADIANCE_MINIMUM_BAND_3)
RADIANCE_MINIMUM_BAND_4 <- "^.*RADIANCE_MINIMUM_BAND_4 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_4 <- gsub(RADIANCE_MINIMUM_BAND_4, "\\1", metadata)
RADIANCE_MINIMUM_BAND_4 <- as.numeric(RADIANCE_MINIMUM_BAND_4)
RADIANCE_MINIMUM_BAND_5 <- "^.*RADIANCE_MINIMUM_BAND_5 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_5 <- gsub(RADIANCE_MINIMUM_BAND_5, "\\1", metadata)
RADIANCE_MINIMUM_BAND_5 <- as.numeric(RADIANCE_MINIMUM_BAND_5)
RADIANCE_MINIMUM_BAND_6 <- "^.*RADIANCE_MINIMUM_BAND_6 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_6 <- gsub(RADIANCE_MINIMUM_BAND_6, "\\1", metadata)
RADIANCE_MINIMUM_BAND_6 <- as.numeric(RADIANCE_MINIMUM_BAND_6)
RADIANCE_MINIMUM_BAND_7 <- "^.*RADIANCE_MINIMUM_BAND_7 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_7 <- gsub(RADIANCE_MINIMUM_BAND_7, "\\1", metadata)
RADIANCE_MINIMUM_BAND_7 <- as.numeric(RADIANCE_MINIMUM_BAND_7)
b1_mascara = ((RADIANCE_MAXIMUM_BAND_1+RADIANCE_MINIMUM_BAND_1)/65535)*b1_mascara-(RADIANCE_MINIMUM_BAND_1)
b2_mascara = ((RADIANCE_MAXIMUM_BAND_2+RADIANCE_MINIMUM_BAND_2)/65535)*b2_mascara-(RADIANCE_MINIMUM_BAND_2)
b3_mascara = ((RADIANCE_MAXIMUM_BAND_3+RADIANCE_MINIMUM_BAND_3)/65535)*b3_mascara-(RADIANCE_MINIMUM_BAND_3)
b4_mascara = ((RADIANCE_MAXIMUM_BAND_4+RADIANCE_MINIMUM_BAND_4)/65535)*b4_mascara-(RADIANCE_MINIMUM_BAND_4)
b5_mascara = ((RADIANCE_MAXIMUM_BAND_5+RADIANCE_MINIMUM_BAND_5)/65535)*b5_mascara-(RADIANCE_MINIMUM_BAND_5)
b6_mascara = ((RADIANCE_MAXIMUM_BAND_6+RADIANCE_MINIMUM_BAND_6)/65535)*b6_mascara-(RADIANCE_MINIMUM_BAND_6)
b7_mascara = ((RADIANCE_MAXIMUM_BAND_7+RADIANCE_MINIMUM_BAND_7)/65535)*b7_mascara-(RADIANCE_MINIMUM_BAND_7)
lati <- long <- b2_mascara
xy <- crds(b2_mascara)
long[] <- xy[, 1]
long <- crop(long, ext(mask)[1:4])
lati[] <- xy[, 2]
lati <- crop(lati, ext(mask)[1:4])
map1 <- (long/long)*((2*pi)/365)*(doy-1)
Et <- (0.000075+0.001868*cos(map1)-0.032077*sin(map1)-0.014615*cos(2*map1)-0.04089*sin(2*map1))
LAT <- (13+(4*long/60)+(Et/60))
Dec <- 0.006918-0.399912*cos(map1)+0.070257*sin(map1)+0.006758*cos(2*map1)+0.000907*sin(2*map1)-0.002697*cos(3*map1)+0.00148*sin(3*map1)
W <- 15*(LAT-12)*(pi/180)
cos_zwn <- sin(lati*pi/180)*sin(Dec)+cos(lati*pi/180)*cos(Dec)*cos(W)
E0 <- (1.00011+0.034221*cos(map1)+0.00128*sin(map1)+0.000719*cos(2*map1)+0.000077*sin(2*map1))
b1_mascara=(pi*b1_mascara)/(1718.75*cos_zwn*E0)
b1_mascara[b1_mascara <= 0] = 0
b2_mascara=(pi*b2_mascara)/(1810.42*cos_zwn*E0)
b2_mascara[b2_mascara <= 0] = 0
b3_mascara=(pi*b3_mascara)/(1741.67*cos_zwn*E0)
b3_mascara[b3_mascara <= 0] = 0
b4_mascara=(pi*b4_mascara)/(1558.33*cos_zwn*E0)
b4_mascara[b4_mascara <= 0] = 0
b5_mascara=(pi*b5_mascara)/(962.5*cos_zwn*E0)
b5_mascara[b5_mascara <= 0] = 0
b6_mascara=(pi*b6_mascara)/(206.25*cos_zwn*E0)
b6_mascara[b6_mascara <= 0] = 0
b7_mascara=(pi*b7_mascara)/(68.75*cos_zwn*E0)
b7_mascara[b7_mascara <= 0] = 0
Alb_Top = b1_mascara*0.1+b2_mascara*0.31+b3_mascara*0.30+b4_mascara*0.13+b5_mascara*0.08+b6_mascara*0.05+b7_mascara*0.04
Alb_sur = 0.6054*Alb_Top + 0.0797
Alb_24 = 1.0223*Alb_sur + 0.0149
writeRaster(Alb_24, "Alb_24", filetype = "GTiff", overwrite=TRUE)
NDVI =(b5_mascara-b4_mascara)/(b5_mascara+b4_mascara)
writeRaster(NDVI, "NDVI", filetype = "GTiff", overwrite=TRUE)
Ws = acos(((-1)*tan(lati*pi/180))*tan(Dec))
R =(Ws*sin(lati*pi/180)*sin(Dec))+(cos(lati*pi/180)*cos(Dec)*sin(Ws))
RsTOP_aux =(1367/pi)*E0*R
RsTOP = resample(RsTOP_aux, b7_mascara, method="bilinear")
Transm =(RG*11.6)/RsTOP
Rn_coeff =6.99*Ta-39.99
Rn =((1-Alb_24)*(RG*11.6))-(Rn_coeff*Transm)
Rn_MJ =Rn/11.6
writeRaster(Rn_MJ, "Rn_MJ", filetype = "GTiff", overwrite=TRUE)
slope =(4098*(0.6108*exp((17.27*(Ta))/((Ta)+237.3)))/((Ta)+237.3)^2)
LEeq = (slope*Rn)/(slope+0.066)
rm(b1, b2, b3, b4, b5, b6, b7, b1_mascara, b2_mascara, b3_mascara, b4_mascara, b5_mascara,b6_mascara,b7_mascara, slope, Rn_coeff, RsTOP, RsTOP_aux, R, Ws, E0, cos_zwn, W, Dec, LAT, Et, map1, lati, long)
RR =Alb_24*RG
Emiss_atm = 0.9364*(((-1)*log(Transm))^0.1135)
Emiss_atm[Emiss_atm > 1] <- 1
RLdown_wm2 =(Emiss_atm*5.67*(10^(-8))*((Ta +273.15)^4))
RL_down =RLdown_wm2/11.6
RL_up =(RG-RR+RL_down-Rn_MJ)
Esurf_r1 <- NDVI
Esurf_r1[NDVI < 0] <- 1
Esurf_r1[NDVI >= 0] <- NA
Esurf_r2 <- 1.0035+0.0589*log(NDVI)
Esurf <- merge(Esurf_r1, Esurf_r2)
TS24 =((RL_up*11.6)/((Esurf*5.67)*(10^(-8))))^(0.25)
TS24[TS24 < 273.15] = NA
writeRaster(TS24, "LST", filetype = "GTiff", overwrite=TRUE)
NDVI[NDVI <= 0] = NA
kc=exp((a)+(b*((TS24-273.15)/(Alb_24*NDVI))))
writeRaster(kc, "kc", filetype = "GTiff", overwrite=TRUE)
}
#'
#' Actual evapotranspiration (ETa) using Landsat-8 images with single agrometeorological data.
#' @param doy is the Day of Year (DOY)
#' @param RG is the global solar radiation
#' @param Ta is the average air temperature
#' @param ET0 is the reference evapotranspiration
#' @param a is one of the regression coefficients of SAFER algorithm
#' @param b is one of the regression coefficients of SAFER algorithm
#' @export
#' @import terra
#' @importFrom utils read.csv
#'
#' @return It returns in raster format (.tif) the Surface Albedo at 24h scale ("Alb_24"), NDVI, Surface Temperature ("LST"), net radiation ("Rn_MJ"), Crop Coefficient ("kc") and Actual Evapotranspiration (evapo).
evapo_l8 = function(doy, RG, Ta, ET0, a, b){
b1 <- rast("B1.tif")
b2 <- rast("B2.tif")
b3 <- rast("B3.tif")
b4 <- rast("B4.tif")
b5 <- rast("B5.tif")
b6 <- rast("B6.tif")
b7 <- rast("B7.tif")
mask <- vect("mask.shp")
b1_crop <- crop(b1, ext(mask)[1:4])
b1_mascara <- mask(b1_crop, mask)
b2_crop <- crop(b2, ext(mask)[1:4])
b2_mascara <- mask(b2_crop, mask)
b3_crop <- crop(b3, ext(mask)[1:4])
b3_mascara <- mask(b3_crop, mask)
b4_crop <- crop(b4, ext(mask)[1:4])
b4_mascara <- mask(b4_crop, mask)
b5_crop <- crop(b5, ext(mask)[1:4])
b5_mascara <- mask(b5_crop, mask)
b6_crop <- crop(b6, ext(mask)[1:4])
b6_mascara <- mask(b6_crop, mask)
b7_crop <- crop(b7, ext(mask)[1:4])
b7_mascara <- mask(b7_crop, mask)
metadata <- list.files(pattern = "txt")
m <- read.csv(metadata, header = T)
metadata <- paste( unlist(m), collapse='')
rm(m)
RADIANCE_MAXIMUM_BAND_1 <- "^.*RADIANCE_MAXIMUM_BAND_1 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_1 <- gsub(RADIANCE_MAXIMUM_BAND_1, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_1 <- as.numeric(RADIANCE_MAXIMUM_BAND_1)
RADIANCE_MAXIMUM_BAND_2 <- "^.*RADIANCE_MAXIMUM_BAND_2 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_2 <- gsub(RADIANCE_MAXIMUM_BAND_2, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_2 <- as.numeric(RADIANCE_MAXIMUM_BAND_2)
RADIANCE_MAXIMUM_BAND_3 <- "^.*RADIANCE_MAXIMUM_BAND_3 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_3 <- gsub(RADIANCE_MAXIMUM_BAND_3, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_3 <- as.numeric(RADIANCE_MAXIMUM_BAND_3)
RADIANCE_MAXIMUM_BAND_4 <- "^.*RADIANCE_MAXIMUM_BAND_4 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_4 <- gsub(RADIANCE_MAXIMUM_BAND_4, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_4 <- as.numeric(RADIANCE_MAXIMUM_BAND_4)
RADIANCE_MAXIMUM_BAND_5 <- "^.*RADIANCE_MAXIMUM_BAND_5 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_5 <- gsub(RADIANCE_MAXIMUM_BAND_5, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_5 <- as.numeric(RADIANCE_MAXIMUM_BAND_5)
RADIANCE_MAXIMUM_BAND_6 <- "^.*RADIANCE_MAXIMUM_BAND_6 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_6 <- gsub(RADIANCE_MAXIMUM_BAND_6, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_6 <- as.numeric(RADIANCE_MAXIMUM_BAND_6)
RADIANCE_MAXIMUM_BAND_7 <- "^.*RADIANCE_MAXIMUM_BAND_7 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_7 <- gsub(RADIANCE_MAXIMUM_BAND_7, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_7 <- as.numeric(RADIANCE_MAXIMUM_BAND_7)
RADIANCE_MINIMUM_BAND_1 <- "^.*RADIANCE_MINIMUM_BAND_1 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_1 <- gsub(RADIANCE_MINIMUM_BAND_1, "\\1", metadata)
RADIANCE_MINIMUM_BAND_1 <- as.numeric(RADIANCE_MINIMUM_BAND_1)
RADIANCE_MINIMUM_BAND_2 <- "^.*RADIANCE_MINIMUM_BAND_2 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_2 <- gsub(RADIANCE_MINIMUM_BAND_2, "\\1", metadata)
RADIANCE_MINIMUM_BAND_2 <- as.numeric(RADIANCE_MINIMUM_BAND_2)
RADIANCE_MINIMUM_BAND_3 <- "^.*RADIANCE_MINIMUM_BAND_3 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_3 <- gsub(RADIANCE_MINIMUM_BAND_3, "\\1", metadata)
RADIANCE_MINIMUM_BAND_3 <- as.numeric(RADIANCE_MINIMUM_BAND_3)
RADIANCE_MINIMUM_BAND_4 <- "^.*RADIANCE_MINIMUM_BAND_4 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_4 <- gsub(RADIANCE_MINIMUM_BAND_4, "\\1", metadata)
RADIANCE_MINIMUM_BAND_4 <- as.numeric(RADIANCE_MINIMUM_BAND_4)
RADIANCE_MINIMUM_BAND_5 <- "^.*RADIANCE_MINIMUM_BAND_5 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_5 <- gsub(RADIANCE_MINIMUM_BAND_5, "\\1", metadata)
RADIANCE_MINIMUM_BAND_5 <- as.numeric(RADIANCE_MINIMUM_BAND_5)
RADIANCE_MINIMUM_BAND_6 <- "^.*RADIANCE_MINIMUM_BAND_6 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_6 <- gsub(RADIANCE_MINIMUM_BAND_6, "\\1", metadata)
RADIANCE_MINIMUM_BAND_6 <- as.numeric(RADIANCE_MINIMUM_BAND_6)
RADIANCE_MINIMUM_BAND_7 <- "^.*RADIANCE_MINIMUM_BAND_7 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_7 <- gsub(RADIANCE_MINIMUM_BAND_7, "\\1", metadata)
RADIANCE_MINIMUM_BAND_7 <- as.numeric(RADIANCE_MINIMUM_BAND_7)
b1_mascara = ((RADIANCE_MAXIMUM_BAND_1+RADIANCE_MINIMUM_BAND_1)/65535)*b1_mascara-(RADIANCE_MINIMUM_BAND_1)
b2_mascara = ((RADIANCE_MAXIMUM_BAND_2+RADIANCE_MINIMUM_BAND_2)/65535)*b2_mascara-(RADIANCE_MINIMUM_BAND_2)
b3_mascara = ((RADIANCE_MAXIMUM_BAND_3+RADIANCE_MINIMUM_BAND_3)/65535)*b3_mascara-(RADIANCE_MINIMUM_BAND_3)
b4_mascara = ((RADIANCE_MAXIMUM_BAND_4+RADIANCE_MINIMUM_BAND_4)/65535)*b4_mascara-(RADIANCE_MINIMUM_BAND_4)
b5_mascara = ((RADIANCE_MAXIMUM_BAND_5+RADIANCE_MINIMUM_BAND_5)/65535)*b5_mascara-(RADIANCE_MINIMUM_BAND_5)
b6_mascara = ((RADIANCE_MAXIMUM_BAND_6+RADIANCE_MINIMUM_BAND_6)/65535)*b6_mascara-(RADIANCE_MINIMUM_BAND_6)
b7_mascara = ((RADIANCE_MAXIMUM_BAND_7+RADIANCE_MINIMUM_BAND_7)/65535)*b7_mascara-(RADIANCE_MINIMUM_BAND_7)
lati <- long <- b2_mascara
xy <- crds(b2_mascara)
long[] <- xy[, 1]
long <- crop(long, ext(mask)[1:4])
lati[] <- xy[, 2]
lati <- crop(lati, ext(mask)[1:4])
map1 <- (long/long)*((2*pi)/365)*(doy-1)
Et <- (0.000075+0.001868*cos(map1)-0.032077*sin(map1)-0.014615*cos(2*map1)-0.04089*sin(2*map1))
LAT <- (13+(4*long/60)+(Et/60))
Dec <- 0.006918-0.399912*cos(map1)+0.070257*sin(map1)+0.006758*cos(2*map1)+0.000907*sin(2*map1)-0.002697*cos(3*map1)+0.00148*sin(3*map1)
W <- 15*(LAT-12)*(pi/180)
cos_zwn <- sin(lati*pi/180)*sin(Dec)+cos(lati*pi/180)*cos(Dec)*cos(W)
E0 <- (1.00011+0.034221*cos(map1)+0.00128*sin(map1)+0.000719*cos(2*map1)+0.000077*sin(2*map1))
b1_mascara=(pi*b1_mascara)/(1718.75*cos_zwn*E0)
b1_mascara[b1_mascara <= 0] = 0
b2_mascara=(pi*b2_mascara)/(1810.42*cos_zwn*E0)
b2_mascara[b2_mascara <= 0] = 0
b3_mascara=(pi*b3_mascara)/(1741.67*cos_zwn*E0)
b3_mascara[b3_mascara <= 0] = 0
b4_mascara=(pi*b4_mascara)/(1558.33*cos_zwn*E0)
b4_mascara[b4_mascara <= 0] = 0
b5_mascara=(pi*b5_mascara)/(962.5*cos_zwn*E0)
b5_mascara[b5_mascara <= 0] = 0
b6_mascara=(pi*b6_mascara)/(206.25*cos_zwn*E0)
b6_mascara[b6_mascara <= 0] = 0
b7_mascara=(pi*b7_mascara)/(68.75*cos_zwn*E0)
b7_mascara[b7_mascara <= 0] = 0
Alb_Top = b1_mascara*0.1+b2_mascara*0.31+b3_mascara*0.30+b4_mascara*0.13+b5_mascara*0.08+b6_mascara*0.05+b7_mascara*0.04
Alb_sur = 0.6054*Alb_Top + 0.0797
Alb_24 = 1.0223*Alb_sur + 0.0149
writeRaster(Alb_24, "Alb_24", filetype = "GTiff", overwrite=TRUE)
NDVI =(b5_mascara-b4_mascara)/(b5_mascara+b4_mascara)
writeRaster(NDVI, "NDVI", filetype = "GTiff", overwrite=TRUE)
Ws = acos(((-1)*tan(lati*pi/180))*tan(Dec))
R =(Ws*sin(lati*pi/180)*sin(Dec))+(cos(lati*pi/180)*cos(Dec)*sin(Ws))
RsTOP_aux =(1367/pi)*E0*R
RsTOP = resample(RsTOP_aux, b7_mascara, method="bilinear")
Transm =(RG*11.6)/RsTOP
Rn_coeff =6.99*Ta-39.99
Rn =((1-Alb_24)*(RG*11.6))-(Rn_coeff*Transm)
Rn_MJ =Rn/11.6
writeRaster(Rn_MJ, "Rn_MJ", filetype = "GTiff", overwrite=TRUE)
slope =(4098*(0.6108*exp((17.27*(Ta))/((Ta)+237.3)))/((Ta)+237.3)^2)
LEeq = (slope*Rn)/(slope+0.066)
rm(b1, b2, b3, b4, b5, b6, b7, b1_mascara, b2_mascara, b3_mascara, b4_mascara, b5_mascara,b6_mascara,b7_mascara, slope, Rn_coeff, RsTOP, RsTOP_aux, R, Ws, E0, cos_zwn, W, Dec, LAT, Et, map1, lati, long)
RR =Alb_24*RG
Emiss_atm = 0.9364*(((-1)*log(Transm))^0.1135)
Emiss_atm[Emiss_atm > 1] <- 1
RLdown_wm2 =(Emiss_atm*5.67*(10^(-8))*((Ta +273.15)^4))
RL_down =RLdown_wm2/11.6
RL_up =(RG-RR+RL_down-Rn_MJ)
Esurf_r1 <- NDVI
Esurf_r1[NDVI < 0] <- 1
Esurf_r1[NDVI >= 0] <- NA
Esurf_r2 <- 1.0035+0.0589*log(NDVI)
Esurf <- merge(Esurf_r1, Esurf_r2)
TS24 =((RL_up*11.6)/((Esurf*5.67)*(10^(-8))))^(0.25)
TS24[TS24 < 273.15] = NA
writeRaster(TS24, "LST", filetype = "GTiff", overwrite=TRUE)
NDVI[NDVI <= 0] = NA
kc=exp((a)+(b*((TS24-273.15)/(Alb_24*NDVI))))
writeRaster(kc, "kc", filetype = "GTiff", overwrite=TRUE)
ET=kc*ET0
writeRaster(ET, "evapo", filetype = "GTiff", overwrite=TRUE)
}
#'Energy balance using Landsat-8 images with single agrometeorological data.
#'@param doy is the Day of Year (DOY)
#'@param RG is the global solar radiation
#'@param Ta is the average air temperature
#'@param ET0 is the reference evapotranspiration
#'@param a is one of the regression coefficients of SAFER algorithm
#'@param b is one of the regression coefficients of SAFER algorithm
#'@export
#' @import terra
#' @importFrom utils read.csv
#'
#'@return It returns in raster format (.tif) the Surface Albedo at 24h scale ("Alb_24"), NDVI, Surface Temperature ("LST"), Crop Coefficient ("kc"), Actual Evapotranspiration (evapo), latent heat flux "LE_MJ"), net radiation ("Rn_MJ"), ground heat flux ("G_MJ") and the sensible heat flux ("H_MJ").
radiation_l8 = function(doy, RG, Ta, ET0, a, b){
b1 <- rast("B1.tif")
b2 <- rast("B2.tif")
b3 <- rast("B3.tif")
b4 <- rast("B4.tif")
b5 <- rast("B5.tif")
b6 <- rast("B6.tif")
b7 <- rast("B7.tif")
mask <- vect("mask.shp")
b1_crop <- crop(b1, ext(mask)[1:4])
b1_mascara <- mask(b1_crop, mask)
b2_crop <- crop(b2, ext(mask)[1:4])
b2_mascara <- mask(b2_crop, mask)
b3_crop <- crop(b3, ext(mask)[1:4])
b3_mascara <- mask(b3_crop, mask)
b4_crop <- crop(b4, ext(mask)[1:4])
b4_mascara <- mask(b4_crop, mask)
b5_crop <- crop(b5, ext(mask)[1:4])
b5_mascara <- mask(b5_crop, mask)
b6_crop <- crop(b6, ext(mask)[1:4])
b6_mascara <- mask(b6_crop, mask)
b7_crop <- crop(b7, ext(mask)[1:4])
b7_mascara <- mask(b7_crop, mask)
metadata <- list.files(pattern = "txt")
m <- read.csv(metadata, header = T)
metadata <- paste( unlist(m), collapse='')
rm(m)
RADIANCE_MAXIMUM_BAND_1 <- "^.*RADIANCE_MAXIMUM_BAND_1 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_1 <- gsub(RADIANCE_MAXIMUM_BAND_1, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_1 <- as.numeric(RADIANCE_MAXIMUM_BAND_1)
RADIANCE_MAXIMUM_BAND_2 <- "^.*RADIANCE_MAXIMUM_BAND_2 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_2 <- gsub(RADIANCE_MAXIMUM_BAND_2, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_2 <- as.numeric(RADIANCE_MAXIMUM_BAND_2)
RADIANCE_MAXIMUM_BAND_3 <- "^.*RADIANCE_MAXIMUM_BAND_3 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_3 <- gsub(RADIANCE_MAXIMUM_BAND_3, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_3 <- as.numeric(RADIANCE_MAXIMUM_BAND_3)
RADIANCE_MAXIMUM_BAND_4 <- "^.*RADIANCE_MAXIMUM_BAND_4 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_4 <- gsub(RADIANCE_MAXIMUM_BAND_4, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_4 <- as.numeric(RADIANCE_MAXIMUM_BAND_4)
RADIANCE_MAXIMUM_BAND_5 <- "^.*RADIANCE_MAXIMUM_BAND_5 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_5 <- gsub(RADIANCE_MAXIMUM_BAND_5, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_5 <- as.numeric(RADIANCE_MAXIMUM_BAND_5)
RADIANCE_MAXIMUM_BAND_6 <- "^.*RADIANCE_MAXIMUM_BAND_6 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_6 <- gsub(RADIANCE_MAXIMUM_BAND_6, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_6 <- as.numeric(RADIANCE_MAXIMUM_BAND_6)
RADIANCE_MAXIMUM_BAND_7 <- "^.*RADIANCE_MAXIMUM_BAND_7 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_7 <- gsub(RADIANCE_MAXIMUM_BAND_7, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_7 <- as.numeric(RADIANCE_MAXIMUM_BAND_7)
RADIANCE_MINIMUM_BAND_1 <- "^.*RADIANCE_MINIMUM_BAND_1 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_1 <- gsub(RADIANCE_MINIMUM_BAND_1, "\\1", metadata)
RADIANCE_MINIMUM_BAND_1 <- as.numeric(RADIANCE_MINIMUM_BAND_1)
RADIANCE_MINIMUM_BAND_2 <- "^.*RADIANCE_MINIMUM_BAND_2 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_2 <- gsub(RADIANCE_MINIMUM_BAND_2, "\\1", metadata)
RADIANCE_MINIMUM_BAND_2 <- as.numeric(RADIANCE_MINIMUM_BAND_2)
RADIANCE_MINIMUM_BAND_3 <- "^.*RADIANCE_MINIMUM_BAND_3 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_3 <- gsub(RADIANCE_MINIMUM_BAND_3, "\\1", metadata)
RADIANCE_MINIMUM_BAND_3 <- as.numeric(RADIANCE_MINIMUM_BAND_3)
RADIANCE_MINIMUM_BAND_4 <- "^.*RADIANCE_MINIMUM_BAND_4 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_4 <- gsub(RADIANCE_MINIMUM_BAND_4, "\\1", metadata)
RADIANCE_MINIMUM_BAND_4 <- as.numeric(RADIANCE_MINIMUM_BAND_4)
RADIANCE_MINIMUM_BAND_5 <- "^.*RADIANCE_MINIMUM_BAND_5 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_5 <- gsub(RADIANCE_MINIMUM_BAND_5, "\\1", metadata)
RADIANCE_MINIMUM_BAND_5 <- as.numeric(RADIANCE_MINIMUM_BAND_5)
RADIANCE_MINIMUM_BAND_6 <- "^.*RADIANCE_MINIMUM_BAND_6 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_6 <- gsub(RADIANCE_MINIMUM_BAND_6, "\\1", metadata)
RADIANCE_MINIMUM_BAND_6 <- as.numeric(RADIANCE_MINIMUM_BAND_6)
RADIANCE_MINIMUM_BAND_7 <- "^.*RADIANCE_MINIMUM_BAND_7 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_7 <- gsub(RADIANCE_MINIMUM_BAND_7, "\\1", metadata)
RADIANCE_MINIMUM_BAND_7 <- as.numeric(RADIANCE_MINIMUM_BAND_7)
b1_mascara = ((RADIANCE_MAXIMUM_BAND_1+RADIANCE_MINIMUM_BAND_1)/65535)*b1_mascara-(RADIANCE_MINIMUM_BAND_1)
b2_mascara = ((RADIANCE_MAXIMUM_BAND_2+RADIANCE_MINIMUM_BAND_2)/65535)*b2_mascara-(RADIANCE_MINIMUM_BAND_2)
b3_mascara = ((RADIANCE_MAXIMUM_BAND_3+RADIANCE_MINIMUM_BAND_3)/65535)*b3_mascara-(RADIANCE_MINIMUM_BAND_3)
b4_mascara = ((RADIANCE_MAXIMUM_BAND_4+RADIANCE_MINIMUM_BAND_4)/65535)*b4_mascara-(RADIANCE_MINIMUM_BAND_4)
b5_mascara = ((RADIANCE_MAXIMUM_BAND_5+RADIANCE_MINIMUM_BAND_5)/65535)*b5_mascara-(RADIANCE_MINIMUM_BAND_5)
b6_mascara = ((RADIANCE_MAXIMUM_BAND_6+RADIANCE_MINIMUM_BAND_6)/65535)*b6_mascara-(RADIANCE_MINIMUM_BAND_6)
b7_mascara = ((RADIANCE_MAXIMUM_BAND_7+RADIANCE_MINIMUM_BAND_7)/65535)*b7_mascara-(RADIANCE_MINIMUM_BAND_7)
lati <- long <- b2_mascara
xy <- crds(b2_mascara)
long[] <- xy[, 1]
long <- crop(long, ext(mask)[1:4])
lati[] <- xy[, 2]
lati <- crop(lati, ext(mask)[1:4])
map1 <- (long/long)*((2*pi)/365)*(doy-1)
Et <- (0.000075+0.001868*cos(map1)-0.032077*sin(map1)-0.014615*cos(2*map1)-0.04089*sin(2*map1))
LAT <- (13+(4*long/60)+(Et/60))
Dec <- 0.006918-0.399912*cos(map1)+0.070257*sin(map1)+0.006758*cos(2*map1)+0.000907*sin(2*map1)-0.002697*cos(3*map1)+0.00148*sin(3*map1)
W <- 15*(LAT-12)*(pi/180)
cos_zwn <- sin(lati*pi/180)*sin(Dec)+cos(lati*pi/180)*cos(Dec)*cos(W)
E0 <- (1.00011+0.034221*cos(map1)+0.00128*sin(map1)+0.000719*cos(2*map1)+0.000077*sin(2*map1))
b1_mascara=(pi*b1_mascara)/(1718.75*cos_zwn*E0)
b1_mascara[b1_mascara <= 0] = 0
b2_mascara=(pi*b2_mascara)/(1810.42*cos_zwn*E0)
b2_mascara[b2_mascara <= 0] = 0
b3_mascara=(pi*b3_mascara)/(1741.67*cos_zwn*E0)
b3_mascara[b3_mascara <= 0] = 0
b4_mascara=(pi*b4_mascara)/(1558.33*cos_zwn*E0)
b4_mascara[b4_mascara <= 0] = 0
b5_mascara=(pi*b5_mascara)/(962.5*cos_zwn*E0)
b5_mascara[b5_mascara <= 0] = 0
b6_mascara=(pi*b6_mascara)/(206.25*cos_zwn*E0)
b6_mascara[b6_mascara <= 0] = 0
b7_mascara=(pi*b7_mascara)/(68.75*cos_zwn*E0)
b7_mascara[b7_mascara <= 0] = 0
Alb_Top = b1_mascara*0.1+b2_mascara*0.31+b3_mascara*0.30+b4_mascara*0.13+b5_mascara*0.08+b6_mascara*0.05+b7_mascara*0.04
Alb_sur = 0.6054*Alb_Top + 0.0797
Alb_24 = 1.0223*Alb_sur + 0.0149
writeRaster(Alb_24, "Alb_24", filetype = "GTiff", overwrite=TRUE)
NDVI =(b5_mascara-b4_mascara)/(b5_mascara+b4_mascara)
writeRaster(NDVI, "NDVI", filetype = "GTiff", overwrite=TRUE)
Ws = acos(((-1)*tan(lati*pi/180))*tan(Dec))
R =(Ws*sin(lati*pi/180)*sin(Dec))+(cos(lati*pi/180)*cos(Dec)*sin(Ws))
RsTOP_aux =(1367/pi)*E0*R
RsTOP = resample(RsTOP_aux, b7_mascara, method="bilinear")
Transm =(RG*11.6)/RsTOP
Rn_coeff =6.99*Ta-39.99
Rn =((1-Alb_24)*(RG*11.6))-(Rn_coeff*Transm)
Rn_MJ =Rn/11.6
writeRaster(Rn_MJ, "Rn_MJ", filetype = "GTiff", overwrite=TRUE)
slope =(4098*(0.6108*exp((17.27*(Ta))/((Ta)+237.3)))/((Ta)+237.3)^2)
LEeq = (slope*Rn)/(slope+0.066)
rm(b1, b2, b3, b4, b5, b6, b7, b1_mascara, b2_mascara, b3_mascara, b4_mascara, b5_mascara,b6_mascara,b7_mascara, slope, Rn_coeff, RsTOP, RsTOP_aux, R, Ws, E0, cos_zwn, W, Dec, LAT, Et, map1, lati, long)
RR =Alb_24*RG
Emiss_atm = 0.9364*(((-1)*log(Transm))^0.1135)
Emiss_atm[Emiss_atm > 1] <- 1
RLdown_wm2 =(Emiss_atm*5.67*(10^(-8))*((Ta +273.15)^4))
RL_down =RLdown_wm2/11.6
RL_up =(RG-RR+RL_down-Rn_MJ)
Esurf_r1 <- NDVI
Esurf_r1[NDVI < 0] <- 1
Esurf_r1[NDVI >= 0] <- NA
Esurf_r2 <- 1.0035+0.0589*log(NDVI)
Esurf <- merge(Esurf_r1, Esurf_r2)
TS24 =((RL_up*11.6)/((Esurf*5.67)*(10^(-8))))^(0.25)
TS24[TS24 < 273.15] = NA
writeRaster(TS24, "LST", filetype = "GTiff", overwrite=TRUE)
NDVI[NDVI <= 0] = NA
kc=exp((a)+(b*((TS24-273.15)/(Alb_24*NDVI))))
ET=kc*ET0
LE_MJ =ET*2.45
writeRaster(LE_MJ, "LE_MJ", filetype = "GTiff", overwrite=TRUE)
G_Rn =3.98*exp(-25.47*Alb_24)
G_MJ =G_Rn*Rn_MJ
writeRaster(G_MJ, "G_MJ", filetype = "GTiff", overwrite=TRUE)
H_MJ =Rn_MJ-LE_MJ-G_MJ
writeRaster(H_MJ, "H_MJ", filetype = "GTiff", overwrite=TRUE)
}
#' Surface Albedo using Landsat-8 images.
#'
#' @param doy is the Day of Year (DOY)
#' @export
#' @import terra
#' @importFrom utils read.csv
#'
#' @return It returns in raster format (.tif) the Surface Albedo at 24h scale ("Alb_24").
albedo_l8 = function(doy){
b1 <- rast("B1.tif")
b2 <- rast("B2.tif")
b3 <- rast("B3.tif")
b4 <- rast("B4.tif")
b5 <- rast("B5.tif")
b6 <- rast("B6.tif")
b7 <- rast("B7.tif")
mask <- vect("mask.shp")
b1_crop <- crop(b1, ext(mask)[1:4])
b1_mascara <- mask(b1_crop, mask)
b2_crop <- crop(b2, ext(mask)[1:4])
b2_mascara <- mask(b2_crop, mask)
b3_crop <- crop(b3, ext(mask)[1:4])
b3_mascara <- mask(b3_crop, mask)
b4_crop <- crop(b4, ext(mask)[1:4])
b4_mascara <- mask(b4_crop, mask)
b5_crop <- crop(b5, ext(mask)[1:4])
b5_mascara <- mask(b5_crop, mask)
b6_crop <- crop(b6, ext(mask)[1:4])
b6_mascara <- mask(b6_crop, mask)
b7_crop <- crop(b7, ext(mask)[1:4])
b7_mascara <- mask(b7_crop, mask)
metadata <- list.files(pattern = "txt")
m <- read.csv(metadata, header = T)
metadata <- paste( unlist(m), collapse='')
rm(m)
RADIANCE_MAXIMUM_BAND_1 <- "^.*RADIANCE_MAXIMUM_BAND_1 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_1 <- gsub(RADIANCE_MAXIMUM_BAND_1, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_1 <- as.numeric(RADIANCE_MAXIMUM_BAND_1)
RADIANCE_MAXIMUM_BAND_2 <- "^.*RADIANCE_MAXIMUM_BAND_2 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_2 <- gsub(RADIANCE_MAXIMUM_BAND_2, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_2 <- as.numeric(RADIANCE_MAXIMUM_BAND_2)
RADIANCE_MAXIMUM_BAND_3 <- "^.*RADIANCE_MAXIMUM_BAND_3 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_3 <- gsub(RADIANCE_MAXIMUM_BAND_3, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_3 <- as.numeric(RADIANCE_MAXIMUM_BAND_3)
RADIANCE_MAXIMUM_BAND_4 <- "^.*RADIANCE_MAXIMUM_BAND_4 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_4 <- gsub(RADIANCE_MAXIMUM_BAND_4, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_4 <- as.numeric(RADIANCE_MAXIMUM_BAND_4)
RADIANCE_MAXIMUM_BAND_5 <- "^.*RADIANCE_MAXIMUM_BAND_5 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_5 <- gsub(RADIANCE_MAXIMUM_BAND_5, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_5 <- as.numeric(RADIANCE_MAXIMUM_BAND_5)
RADIANCE_MAXIMUM_BAND_6 <- "^.*RADIANCE_MAXIMUM_BAND_6 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_6 <- gsub(RADIANCE_MAXIMUM_BAND_6, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_6 <- as.numeric(RADIANCE_MAXIMUM_BAND_6)
RADIANCE_MAXIMUM_BAND_7 <- "^.*RADIANCE_MAXIMUM_BAND_7 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_7 <- gsub(RADIANCE_MAXIMUM_BAND_7, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_7 <- as.numeric(RADIANCE_MAXIMUM_BAND_7)
RADIANCE_MINIMUM_BAND_1 <- "^.*RADIANCE_MINIMUM_BAND_1 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_1 <- gsub(RADIANCE_MINIMUM_BAND_1, "\\1", metadata)
RADIANCE_MINIMUM_BAND_1 <- as.numeric(RADIANCE_MINIMUM_BAND_1)
RADIANCE_MINIMUM_BAND_2 <- "^.*RADIANCE_MINIMUM_BAND_2 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_2 <- gsub(RADIANCE_MINIMUM_BAND_2, "\\1", metadata)
RADIANCE_MINIMUM_BAND_2 <- as.numeric(RADIANCE_MINIMUM_BAND_2)
RADIANCE_MINIMUM_BAND_3 <- "^.*RADIANCE_MINIMUM_BAND_3 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_3 <- gsub(RADIANCE_MINIMUM_BAND_3, "\\1", metadata)
RADIANCE_MINIMUM_BAND_3 <- as.numeric(RADIANCE_MINIMUM_BAND_3)
RADIANCE_MINIMUM_BAND_4 <- "^.*RADIANCE_MINIMUM_BAND_4 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_4 <- gsub(RADIANCE_MINIMUM_BAND_4, "\\1", metadata)
RADIANCE_MINIMUM_BAND_4 <- as.numeric(RADIANCE_MINIMUM_BAND_4)
RADIANCE_MINIMUM_BAND_5 <- "^.*RADIANCE_MINIMUM_BAND_5 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_5 <- gsub(RADIANCE_MINIMUM_BAND_5, "\\1", metadata)
RADIANCE_MINIMUM_BAND_5 <- as.numeric(RADIANCE_MINIMUM_BAND_5)
RADIANCE_MINIMUM_BAND_6 <- "^.*RADIANCE_MINIMUM_BAND_6 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_6 <- gsub(RADIANCE_MINIMUM_BAND_6, "\\1", metadata)
RADIANCE_MINIMUM_BAND_6 <- as.numeric(RADIANCE_MINIMUM_BAND_6)
RADIANCE_MINIMUM_BAND_7 <- "^.*RADIANCE_MINIMUM_BAND_7 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_7 <- gsub(RADIANCE_MINIMUM_BAND_7, "\\1", metadata)
RADIANCE_MINIMUM_BAND_7 <- as.numeric(RADIANCE_MINIMUM_BAND_7)
b1_mascara = ((RADIANCE_MAXIMUM_BAND_1+RADIANCE_MINIMUM_BAND_1)/65535)*b1_mascara-(RADIANCE_MINIMUM_BAND_1)
b2_mascara = ((RADIANCE_MAXIMUM_BAND_2+RADIANCE_MINIMUM_BAND_2)/65535)*b2_mascara-(RADIANCE_MINIMUM_BAND_2)
b3_mascara = ((RADIANCE_MAXIMUM_BAND_3+RADIANCE_MINIMUM_BAND_3)/65535)*b3_mascara-(RADIANCE_MINIMUM_BAND_3)
b4_mascara = ((RADIANCE_MAXIMUM_BAND_4+RADIANCE_MINIMUM_BAND_4)/65535)*b4_mascara-(RADIANCE_MINIMUM_BAND_4)
b5_mascara = ((RADIANCE_MAXIMUM_BAND_5+RADIANCE_MINIMUM_BAND_5)/65535)*b5_mascara-(RADIANCE_MINIMUM_BAND_5)
b6_mascara = ((RADIANCE_MAXIMUM_BAND_6+RADIANCE_MINIMUM_BAND_6)/65535)*b6_mascara-(RADIANCE_MINIMUM_BAND_6)
b7_mascara = ((RADIANCE_MAXIMUM_BAND_7+RADIANCE_MINIMUM_BAND_7)/65535)*b7_mascara-(RADIANCE_MINIMUM_BAND_7)
lati <- long <- b2_mascara
xy <- crds(b2_mascara)
long[] <- xy[, 1]
long <- crop(long, ext(mask)[1:4])
lati[] <- xy[, 2]
lati <- crop(lati, ext(mask)[1:4])
map1 <- (long/long)*((2*pi)/365)*(doy-1)
Et <- (0.000075+0.001868*cos(map1)-0.032077*sin(map1)-0.014615*cos(2*map1)-0.04089*sin(2*map1))
LAT <- (13+(4*long/60)+(Et/60))
Dec <- 0.006918-0.399912*cos(map1)+0.070257*sin(map1)+0.006758*cos(2*map1)+0.000907*sin(2*map1)-0.002697*cos(3*map1)+0.00148*sin(3*map1)
W <- 15*(LAT-12)*(pi/180)
cos_zwn <- sin(lati*pi/180)*sin(Dec)+cos(lati*pi/180)*cos(Dec)*cos(W)
E0 <- (1.00011+0.034221*cos(map1)+0.00128*sin(map1)+0.000719*cos(2*map1)+0.000077*sin(2*map1))
b1_mascara=(pi*b1_mascara)/(1718.75*cos_zwn*E0)
b1_mascara[b1_mascara <= 0] = 0
b2_mascara=(pi*b2_mascara)/(1810.42*cos_zwn*E0)
b2_mascara[b2_mascara <= 0] = 0
b3_mascara=(pi*b3_mascara)/(1741.67*cos_zwn*E0)
b3_mascara[b3_mascara <= 0] = 0
b4_mascara=(pi*b4_mascara)/(1558.33*cos_zwn*E0)
b4_mascara[b4_mascara <= 0] = 0
b5_mascara=(pi*b5_mascara)/(962.5*cos_zwn*E0)
b5_mascara[b5_mascara <= 0] = 0
b6_mascara=(pi*b6_mascara)/(206.25*cos_zwn*E0)
b6_mascara[b6_mascara <= 0] = 0
b7_mascara=(pi*b7_mascara)/(68.75*cos_zwn*E0)
b7_mascara[b7_mascara <= 0] = 0
Alb_Top = b1_mascara*0.1+b2_mascara*0.31+b3_mascara*0.30+b4_mascara*0.13+b5_mascara*0.08+b6_mascara*0.05+b7_mascara*0.04
Alb_sur = 0.6054*Alb_Top + 0.0797
Alb_24 = 1.0223*Alb_sur + 0.0149
writeRaster(Alb_24, "Alb_24", filetype = "GTiff", overwrite=TRUE)
}
#' Reflectancies from Landsat-8 images.
#'
#' @param doy is the Day of Year (DOY)
#' @export
#' @import terra
#' @importFrom utils read.csv
#'
#' @return It returns in raster format (.tif) the Surface Albedo at 24h scale ("Alb_24").
reflectance_l8 = function(doy){
b1 <- rast("B1.tif")
b2 <- rast("B2.tif")
b3 <- rast("B3.tif")
b4 <- rast("B4.tif")
b5 <- rast("B5.tif")
b6 <- rast("B6.tif")
b7 <- rast("B7.tif")
mask <- vect("mask.shp")
b1_crop <- crop(b1, ext(mask)[1:4])
b1_mascara <- mask(b1_crop, mask)
b2_crop <- crop(b2, ext(mask)[1:4])
b2_mascara <- mask(b2_crop, mask)
b3_crop <- crop(b3, ext(mask)[1:4])
b3_mascara <- mask(b3_crop, mask)
b4_crop <- crop(b4, ext(mask)[1:4])
b4_mascara <- mask(b4_crop, mask)
b5_crop <- crop(b5, ext(mask)[1:4])
b5_mascara <- mask(b5_crop, mask)
b6_crop <- crop(b6, ext(mask)[1:4])
b6_mascara <- mask(b6_crop, mask)
b7_crop <- crop(b7, ext(mask)[1:4])
b7_mascara <- mask(b7_crop, mask)
metadata <- list.files(pattern = "txt")
m <- read.csv(metadata, header = T)
metadata <- paste( unlist(m), collapse='')
rm(m)
RADIANCE_MAXIMUM_BAND_1 <- "^.*RADIANCE_MAXIMUM_BAND_1 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_1 <- gsub(RADIANCE_MAXIMUM_BAND_1, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_1 <- as.numeric(RADIANCE_MAXIMUM_BAND_1)
RADIANCE_MAXIMUM_BAND_2 <- "^.*RADIANCE_MAXIMUM_BAND_2 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_2 <- gsub(RADIANCE_MAXIMUM_BAND_2, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_2 <- as.numeric(RADIANCE_MAXIMUM_BAND_2)
RADIANCE_MAXIMUM_BAND_3 <- "^.*RADIANCE_MAXIMUM_BAND_3 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_3 <- gsub(RADIANCE_MAXIMUM_BAND_3, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_3 <- as.numeric(RADIANCE_MAXIMUM_BAND_3)
RADIANCE_MAXIMUM_BAND_4 <- "^.*RADIANCE_MAXIMUM_BAND_4 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_4 <- gsub(RADIANCE_MAXIMUM_BAND_4, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_4 <- as.numeric(RADIANCE_MAXIMUM_BAND_4)
RADIANCE_MAXIMUM_BAND_5 <- "^.*RADIANCE_MAXIMUM_BAND_5 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_5 <- gsub(RADIANCE_MAXIMUM_BAND_5, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_5 <- as.numeric(RADIANCE_MAXIMUM_BAND_5)
RADIANCE_MAXIMUM_BAND_6 <- "^.*RADIANCE_MAXIMUM_BAND_6 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_6 <- gsub(RADIANCE_MAXIMUM_BAND_6, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_6 <- as.numeric(RADIANCE_MAXIMUM_BAND_6)
RADIANCE_MAXIMUM_BAND_7 <- "^.*RADIANCE_MAXIMUM_BAND_7 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MAXIMUM_BAND_7 <- gsub(RADIANCE_MAXIMUM_BAND_7, "\\1", metadata)
RADIANCE_MAXIMUM_BAND_7 <- as.numeric(RADIANCE_MAXIMUM_BAND_7)
RADIANCE_MINIMUM_BAND_1 <- "^.*RADIANCE_MINIMUM_BAND_1 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_1 <- gsub(RADIANCE_MINIMUM_BAND_1, "\\1", metadata)
RADIANCE_MINIMUM_BAND_1 <- as.numeric(RADIANCE_MINIMUM_BAND_1)
RADIANCE_MINIMUM_BAND_2 <- "^.*RADIANCE_MINIMUM_BAND_2 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_2 <- gsub(RADIANCE_MINIMUM_BAND_2, "\\1", metadata)
RADIANCE_MINIMUM_BAND_2 <- as.numeric(RADIANCE_MINIMUM_BAND_2)
RADIANCE_MINIMUM_BAND_3 <- "^.*RADIANCE_MINIMUM_BAND_3 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_3 <- gsub(RADIANCE_MINIMUM_BAND_3, "\\1", metadata)
RADIANCE_MINIMUM_BAND_3 <- as.numeric(RADIANCE_MINIMUM_BAND_3)
RADIANCE_MINIMUM_BAND_4 <- "^.*RADIANCE_MINIMUM_BAND_4 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_4 <- gsub(RADIANCE_MINIMUM_BAND_4, "\\1", metadata)
RADIANCE_MINIMUM_BAND_4 <- as.numeric(RADIANCE_MINIMUM_BAND_4)
RADIANCE_MINIMUM_BAND_5 <- "^.*RADIANCE_MINIMUM_BAND_5 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_5 <- gsub(RADIANCE_MINIMUM_BAND_5, "\\1", metadata)
RADIANCE_MINIMUM_BAND_5 <- as.numeric(RADIANCE_MINIMUM_BAND_5)
RADIANCE_MINIMUM_BAND_6 <- "^.*RADIANCE_MINIMUM_BAND_6 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_6 <- gsub(RADIANCE_MINIMUM_BAND_6, "\\1", metadata)
RADIANCE_MINIMUM_BAND_6 <- as.numeric(RADIANCE_MINIMUM_BAND_6)
RADIANCE_MINIMUM_BAND_7 <- "^.*RADIANCE_MINIMUM_BAND_7 = *?[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+).*"
RADIANCE_MINIMUM_BAND_7 <- gsub(RADIANCE_MINIMUM_BAND_7, "\\1", metadata)
RADIANCE_MINIMUM_BAND_7 <- as.numeric(RADIANCE_MINIMUM_BAND_7)
b1_mascara = ((RADIANCE_MAXIMUM_BAND_1+RADIANCE_MINIMUM_BAND_1)/65535)*b1_mascara-(RADIANCE_MINIMUM_BAND_1)
b2_mascara = ((RADIANCE_MAXIMUM_BAND_2+RADIANCE_MINIMUM_BAND_2)/65535)*b2_mascara-(RADIANCE_MINIMUM_BAND_2)
b3_mascara = ((RADIANCE_MAXIMUM_BAND_3+RADIANCE_MINIMUM_BAND_3)/65535)*b3_mascara-(RADIANCE_MINIMUM_BAND_3)
b4_mascara = ((RADIANCE_MAXIMUM_BAND_4+RADIANCE_MINIMUM_BAND_4)/65535)*b4_mascara-(RADIANCE_MINIMUM_BAND_4)
b5_mascara = ((RADIANCE_MAXIMUM_BAND_5+RADIANCE_MINIMUM_BAND_5)/65535)*b5_mascara-(RADIANCE_MINIMUM_BAND_5)
b6_mascara = ((RADIANCE_MAXIMUM_BAND_6+RADIANCE_MINIMUM_BAND_6)/65535)*b6_mascara-(RADIANCE_MINIMUM_BAND_6)
b7_mascara = ((RADIANCE_MAXIMUM_BAND_7+RADIANCE_MINIMUM_BAND_7)/65535)*b7_mascara-(RADIANCE_MINIMUM_BAND_7)
lati <- long <- b2_mascara
xy <- crds(b2_mascara)
long[] <- xy[, 1]
long <- crop(long, ext(mask)[1:4])
lati[] <- xy[, 2]
lati <- crop(lati, ext(mask)[1:4])
map1 <- (long/long)*((2*pi)/365)*(doy-1)
Et <- (0.000075+0.001868*cos(map1)-0.032077*sin(map1)-0.014615*cos(2*map1)-0.04089*sin(2*map1))
LAT <- (13+(4*long/60)+(Et/60))
Dec <- 0.006918-0.399912*cos(map1)+0.070257*sin(map1)+0.006758*cos(2*map1)+0.000907*sin(2*map1)-0.002697*cos(3*map1)+0.00148*sin(3*map1)
W <- 15*(LAT-12)*(pi/180)
cos_zwn <- sin(lati*pi/180)*sin(Dec)+cos(lati*pi/180)*cos(Dec)*cos(W)
E0 <- (1.00011+0.034221*cos(map1)+0.00128*sin(map1)+0.000719*cos(2*map1)+0.000077*sin(2*map1))
b1_mascara=(pi*b1_mascara)/(1718.75*cos_zwn*E0)
b1_mascara[b1_mascara <= 0] = 0
writeRaster(b1_mascara, "B1_reflectance_landsat8", filetype = "GTiff", overwrite=TRUE)
b2_mascara=(pi*b2_mascara)/(1810.42*cos_zwn*E0)
b2_mascara[b2_mascara <= 0] = 0
writeRaster(b2_mascara, "B2_reflectance_landsat8", filetype = "GTiff", overwrite=TRUE)
b3_mascara=(pi*b3_mascara)/(1741.67*cos_zwn*E0)
b3_mascara[b3_mascara <= 0] = 0
writeRaster(b3_mascara, "B3_reflectance_landsat8", filetype = "GTiff", overwrite=TRUE)
b4_mascara=(pi*b4_mascara)/(1558.33*cos_zwn*E0)
b4_mascara[b4_mascara <= 0] = 0
writeRaster(b4_mascara, "B4_reflectance_landsat8", filetype = "GTiff", overwrite=TRUE)
b5_mascara=(pi*b5_mascara)/(962.5*cos_zwn*E0)
b5_mascara[b5_mascara <= 0] = 0
writeRaster(b5_mascara, "B5_reflectance_landsat8", filetype = "GTiff", overwrite=TRUE)
b6_mascara=(pi*b6_mascara)/(206.25*cos_zwn*E0)
b6_mascara[b6_mascara <= 0] = 0
writeRaster(b6_mascara, "B6_reflectance_landsat8", filetype = "GTiff", overwrite=TRUE)
b7_mascara=(pi*b7_mascara)/(68.75*cos_zwn*E0)
b7_mascara[b7_mascara <= 0] = 0
writeRaster(b7_mascara, "B7_reflectance_landsat8", filetype = "GTiff", overwrite=TRUE)
}
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