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A neural network exaple in R. Full article at: http://datascienceplus.com/fitting-neural-network-in-r/
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# Set a seed | |
set.seed(500) | |
library(MASS) | |
data <- Boston | |
# Check that no data is missing | |
apply(data,2,function(x) sum(is.na(x))) | |
# Train-test random splitting for linear model | |
index <- sample(1:nrow(data),round(0.75*nrow(data))) | |
train <- data[index,] | |
test <- data[-index,] | |
# Fitting linear model | |
lm.fit <- glm(medv~., data=train) | |
summary(lm.fit) | |
# Predicted data from lm | |
pr.lm <- predict(lm.fit,test) | |
# Test MSE | |
MSE.lm <- sum((pr.lm - test$medv)^2)/nrow(test) | |
#------------------------------------------------------------------------------- | |
# Neural net fitting | |
# Scaling data for the NN | |
maxs <- apply(data, 2, max) | |
mins <- apply(data, 2, min) | |
scaled <- as.data.frame(scale(data, center = mins, scale = maxs - mins)) | |
# Train-test split | |
train_ <- scaled[index,] | |
test_ <- scaled[-index,] | |
# NN training | |
library(neuralnet) | |
n <- names(train_) | |
f <- as.formula(paste("medv ~", paste(n[!n %in% "medv"], collapse = " + "))) | |
nn <- neuralnet(f,data=train_,hidden=c(5,3),linear.output=T) | |
# Visual plot of the model | |
plot(nn) | |
# Predict | |
pr.nn <- compute(nn,test_[,1:13]) | |
# Results from NN are normalized (scaled) | |
# Descaling for comparison | |
pr.nn_ <- pr.nn$net.result*(max(data$medv)-min(data$medv))+min(data$medv) | |
test.r <- (test_$medv)*(max(data$medv)-min(data$medv))+min(data$medv) | |
# Calculating MSE | |
MSE.nn <- sum((test.r - pr.nn_)^2)/nrow(test_) | |
# Compare the two MSEs | |
print(paste(MSE.lm,MSE.nn)) | |
# Plot predictions | |
par(mfrow=c(1,2)) | |
plot(test$medv,pr.nn_,col='red',main='Real vs predicted NN',pch=18,cex=0.7) | |
abline(0,1,lwd=2) | |
legend('bottomright',legend='NN',pch=18,col='red', bty='n') | |
plot(test$medv,pr.lm,col='blue',main='Real vs predicted lm',pch=18, cex=0.7) | |
abline(0,1,lwd=2) | |
legend('bottomright',legend='LM',pch=18,col='blue', bty='n', cex=.95) | |
# Compare predictions on the same plot | |
plot(test$medv,pr.nn_,col='red',main='Real vs predicted NN',pch=18,cex=0.7) | |
points(test$medv,pr.lm,col='blue',pch=18,cex=0.7) | |
abline(0,1,lwd=2) | |
legend('bottomright',legend=c('NN','LM'),pch=18,col=c('red','blue')) | |
#------------------------------------------------------------------------------- | |
# Cross validating | |
library(boot) | |
set.seed(200) | |
# Linear model cross validation | |
lm.fit <- glm(medv~.,data=data) | |
cv.glm(data,lm.fit,K=10)$delta[1] | |
# Neural net cross validation | |
set.seed(450) | |
cv.error <- NULL | |
k <- 10 | |
# Initialize progress bar | |
library(plyr) | |
pbar <- create_progress_bar('text') | |
pbar$init(k) | |
for(i in 1:k){ | |
index <- sample(1:nrow(data),round(0.9*nrow(data))) | |
train.cv <- scaled[index,] | |
test.cv <- scaled[-index,] | |
nn <- neuralnet(f,data=train.cv,hidden=c(5,2),linear.output=T) | |
pr.nn <- compute(nn,test.cv[,1:13]) | |
pr.nn <- pr.nn$net.result*(max(data$medv)-min(data$medv))+min(data$medv) | |
test.cv.r <- (test.cv$medv)*(max(data$medv)-min(data$medv))+min(data$medv) | |
cv.error[i] <- sum((test.cv.r - pr.nn)^2)/nrow(test.cv) | |
pbar$step() | |
} | |
# Average MSE | |
mean(cv.error) | |
# MSE vector from CV | |
cv.error | |
# Visual plot of CV results | |
boxplot(cv.error,xlab='MSE CV',col='cyan', | |
border='blue',names='CV error (MSE)', | |
main='CV error (MSE) for NN',horizontal=TRUE) |
Thanks!
Thank you for this contribution. A good code for beginner !
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Thank You! - do you by any chance know why this error would be coming up when running nm <- neuralnet(...): Error in x - y : non-conformable arrays ?