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library(stringr) | |
library(spdep) | |
library(rgdal) | |
library(magrittr) | |
library(ggplot2) | |
library(sf) | |
#====================================================== | |
# Load data | |
map <- readOGR(dsn="R:/Dropbox/Dout/Data Dout", layer="test_map") | |
head(map@data) | |
# Variables to use in the correlation: white and black population in each census track | |
x <- map$income | |
y <- map$diffaccess | |
#====================================================== | |
# Programming some functions | |
# Bivariate Moran's I | |
moran_I <- function(x, y = NULL, W){ | |
if(is.null(y)) y = x | |
xp <- scale(x)[, 1] | |
yp <- scale(y)[, 1] | |
W[which(is.na(W))] <- 0 | |
n <- nrow(W) | |
global <- (xp%*%W%*%yp)/(n - 1) | |
local <- (xp*W%*%yp) | |
list(global = global, local = as.numeric(local)) | |
} | |
# Permutations for the Bivariate Moran's I | |
simula_moran <- function(x, y = NULL, W, nsims = 2000){ | |
if(is.null(y)) y = x | |
n = nrow(W) | |
IDs = 1:n | |
xp <- scale(x)[, 1] | |
W[which(is.na(W))] <- 0 | |
global_sims = NULL | |
local_sims = matrix(NA, nrow = n, ncol=nsims) | |
ID_sample = sample(IDs, size = n*nsims, replace = T) | |
y_s = y[ID_sample] | |
y_s = matrix(y_s, nrow = n, ncol = nsims) | |
y_s <- (y_s - apply(y_s, 1, mean))/apply(y_s, 1, sd) | |
global_sims <- as.numeric( (xp%*%W%*%y_s)/(n - 1) ) | |
local_sims <- (xp*W%*%y_s) | |
list(global_sims = global_sims, | |
local_sims = local_sims) | |
} | |
#====================================================== | |
# Adjacency Matrix (Queen) | |
nb <- poly2nb(map) | |
lw <- nb2listw(nb, style = "B", zero.policy = T) | |
W <- as(lw, "symmetricMatrix") | |
W <- as.matrix(W/rowSums(W)) | |
W[which(is.na(W))] <- 0 | |
#====================================================== | |
# Calculating the index and its simulated distribution | |
# for global and local values | |
m <- moran_I(x, y, W) | |
# Global Moral | |
global_moran <- m[[1]][1] | |
#> 0.2218409 | |
# Local values | |
m_i <- m[[2]] | |
# local simulations | |
local_sims <- simula_moran(x, y, W)$local_sims | |
# global pseudo p-value | |
# get all simulated global moran | |
global_sims <- simula_moran(x, y, W)$global_sims | |
# Proportion of simulated global values taht are higher (in absolute terms) than the actual index | |
moran_pvalue <- sum(abs(global_sims) > abs( global_moran )) / length(global_sims) | |
#> 0 | |
# Identifying the significant values | |
alpha <- .05 # for a 95% confidence interval | |
probs <- c(alpha/2, 1-alpha/2) | |
intervals <- t( apply(local_sims, 1, function(x) quantile(x, probs=probs))) | |
sig <- ( m_i < intervals[,1] ) | ( m_i > intervals[,2] ) | |
#====================================================== | |
# Preparing for plotting | |
# Convert shape file into sf object | |
map_sf <- st_as_sf(map) | |
map_sf$sig <- sig | |
# Identifying the LISA clusters | |
xp <- scale(x)[,1] | |
yp <- scale(y)[,1] | |
patterns <- as.character( interaction(xp > 0, W%*%yp > 0) ) | |
patterns <- patterns %>% | |
str_replace_all("TRUE","High") %>% | |
str_replace_all("FALSE","Low") | |
patterns[map_sf$sig==0] <- "Not significant" | |
map_sf$patterns <- patterns | |
# Rename LISA clusters | |
map_sf$patterns2 <- factor(map_sf$patterns, levels=c("High.High", "High.Low", "Low.High", "Low.Low", "Not significant"), | |
labels=c("High income - High access gain", "High income - Low access gain", "Low income - High access gain","Low income - Low access gain", "Not significant")) | |
### PLOT | |
ggplot() + | |
geom_sf(data=map_sf, aes(fill=patterns2), color="NA") + | |
scale_fill_manual(values = c("red", "pink", "light blue", "dark blue", "grey80")) + | |
guides(fill = guide_legend(title="LISA clusters")) + | |
theme_minimal() | |
mack-wood
commented
Oct 28, 2019
via email
In the Adjacency Matrix (Queen) step I am getting the following error:
W <- as.matrix(W/rowSums(W))
Error in rowSums(W) : 'x' must be an array of at least two dimensionsDo you know what is causing this issue?
Hello. I fixed this error following: W <- as.matrix(W/Matrix::rowSums(W))
Hi, please, can you help me to solve this error ==
m <- moran_I(x, y, W)
Error in xp %*% W : non-conformable arguments
Thanks for the code! It worked perfectly.
I feel like I can add my 2 cents here... For those having trouble with the non-conformable multiplication (xp %*% W), I had the same issue as I was using a distance-based weights matrix. What worked for me was to use the 'nb2mat' function to transform the listw object into a matrix that the function could read adequately.
So, for example:
W <- nbsmat(listw$neigbours, glist = listw$weights, style = "W", zero.policy = T) #Where listw = the weights list object
Hope this helps. And thanks again for providing the code.
@Tito0411 I recommend using the sfdep::moran_bv()
function :)
Hi @JosiahParry ! Thanks for chipping in. I wrote this gist
a long time ago in 2016/2017. Lots of things have changed since then and I totally agree the best solution here would be using the sfdep
package. BTW, thank you for such a great package !!!