cs-5821/hw4/.Rhistory

auto = read.table("auto.data",header=T,na.strings="?")
auto$mpg01=rep(0,397)
auto$mpg01[auto$mpg>median(auto$mpg)]=1
library(ISLR)
library(MASS)
library(class)
train_bools <- (auto$year %% 2 == 0)
train_data = auto[train_bools,]
test_data = auto[!train_bools,]
help(knn)
help(knn)
     train <- rbind(iris3[1:25,,1], iris3[1:25,,2], iris3[1:25,,3])
     test <- rbind(iris3[26:50,,1], iris3[26:50,,2], iris3[26:50,,3])
train
test
?knn
     cl <- factor(c(rep("s",25), rep("c",25), rep("v",25)))
cl
length(cl)
length(train)
nrows(train)
nrow(train)
train.X
train.X = cbind(auto$horsepower,auto$displacement,auto$weight,auto$acceleration)[train_bools,]
train.X
test.X = cbind(auto$horsepower,auto$displacement,auto$weight,auto$acceleration)[!train_bools,]
test.X
train.X
train.mpg01 = auto$mpg01[train_bools]
train.mpg01
length(train.mpg01)
nrow(train.X)
knn(train.X,train.Y,train.mpg01,K=1)
knn(train.X,train.Y,train.mpg01,k=1)
knn(train.X,test.X,train.mpg01,k=1)
train.X
na.omit(train.X)
?na.omit
na.omit(train.X)
na.omit(train.X)
knn(na.omit(train.X),test.X,train.mpg01,k=1)
knn(na.omit(train.X),test.X,na.omit(train.mpg01),k=1)
knn(na.omit(train.X),na.omit(test.X),na.omit(train.mpg01),k=1)
train.mpg012 = na.omit(auto$mpg01)[train_bools]
train.mpg012
train.mpg01
nrow(train)
na.omit(auto)
auto
na.omit(auto)
summary(auto)
summary(na.omit(auto))
Auto = na.omit(auto)
auto = na.omit(auto)
ncol(auto)
nrow(auto)
auto <- na.omit(auto)
train_bools <- (auto$year %% 2 == 0)
train_data = auto[train_bools,]
test_data = auto[!train_bools,]
train.X = cbind(auto$horsepower,auto$displacement,auto$weight,auto$acceleration)[train_bools,]
test.X = cbind(auto$horsepower,auto$displacement,auto$weight,auto$acceleration)[!train_bools,]
train.mpg01 = auto$mpg01[train_bools]
knn.pred = knn(train.X,test.X,train.mpg01,k=1)
mean(knn.pred != auto$mpg01)
mean(knn.pred != test_data$mpg01)
knn.pred = knn(train.X,test.X,train.mpg01,k=2)
mean(knn.pred != test_data$mpg01)
knn.pred = knn(train.X,test.X,train.mpg01,k=3)
mean(knn.pred != test_data$mpg01)
knn.pred = knn(train.X,test.X,train.mpg01,k=4)
mean(knn.pred != test_data$mpg0)
knn.pred
length(knn.pred)
dim(knn.pred)
length(test_data)
ncol(test_data)
nrow(test_data)
q()
qda.fit
fit.qda
qda.fit
auto
qda.fit = qda(mpg01 ~ horsepower + weight + cylinders + displacement, data = train_data)
import(MASS)
qda.fit = qda(mpg01 ~ horsepower + weight + cylinders + displacement, data = train_data)
import(class)
library(MASS)
qda.fit = qda(mpg01 ~ horsepower + weight + cylinders + displacement, data = train_data)
qda.fit
> mean(qda.pred$class!=test_data$mpg01,na.rm=T)
mean(qda.pred$class!=test_data$mpg01,na.rm=T)
qda.fit=qda(mpg01 ~ horsepower + weight + acceleration + displacement,data=train_data)
qda.pred=predict(qda.fit,test_data,na.rm=T)
mean(qda.pred$class!=test_data$mpg01,na.rm=T)
qda.fit=qda(mpg01 ~ horsepower + weight + cylinders + displacement,data=train_data)
qda.pred=predict(qda.fit,test_data,na.rm=T)
mean(qda.pred$class!=test_data$mpg01,na.rm=T)
qda.fit
qda.pred=predict(qda.fit,test_data,na.rm=T)
mean(qda.pred$class!=test_data$mpg01,na.rm=T)
glm.fit=glm(mpg01 ~ horsepower + weight + cylinders + displacement,data=train_data,family=binomial)
glm.probs=predict(glm.fit,test_data,type="response")
glm.pred=rep(0,199)
glm.pred[glm.probs>.5]=1
mean(glm.pred!=test_data$mpg01)
glm.fit=glm(mpg01 ~ horsepower + weight + cylinders + displacement,data=train_data,family=binomial)
glm.probs=predict(glm.fit,test_data,type="response")
glm.pred=rep(0,length(test_data)
glm.pred[glm.probs>.5]=1
mean(glm.pred!=test_data$mpg01)
glm.fit=glm(mpg01 ~ horsepower + weight + cylinders + displacement,data=train_data,family=binomial)
glm.probs=predict(glm.fit,test_data,type="response")
glm.pred=rep(0,length(test_data))
glm.pred[glm.probs>.5]=1
mean(glm.pred!=test_data$mpg01)
glm.fit=glm(mpg01 ~ horsepower + weight + cylinders + displacement,data=train_data,family=binomial)
glm.probs=predict(glm.fit,test_data,type="response")
glm.pred=rep(0,length(test_data))
glm.pred[glm.probs>.5]=1
mean(glm.pred!=test_data$mpg01)
glm.pred
glm.pred=rep(0,length(test_data))
glm.pred
test_data
glm.fit=glm(mpg01 ~ horsepower + weight + cylinders + displacement,data=train_data,family=binomial)
glm.probs=predict(glm.fit,test_data,type="response")
glm.pred=rep(0,nrow(test_data))
glm.pred[glm.probs>.5]=1
mean(glm.pred!=test_data$mpg01)
set.seed(1)
auto <- na.omit(auto)
train_bools <- (auto$year %% 2 == 0)
train_data = auto[train_bools,]
test_data = auto[!train_bools,]
train.X = cbind(auto$horsepower,auto$displacement,auto$weight,auto$cylinders)[train_bools,]
test.X = cbind(auto$horsepower,auto$displacement,auto$weight,auto$cylinders)[!train_bools,]
train.mpg01 = auto$mpg01[train_bools]
knn.pred = knn(train.X,test.X,train.mpg01,k=1)
mean(knn.pred != test_data$mpg01)
knn.pred = knn(train.X,test.X,train.mpg01,k=2)
mean(knn.pred != test_data$mpg01)
knn.pred = knn(train.X,test.X,train.mpg01,k=3)
mean(knn.pred != test_data$mpg01)
knn.pred = knn(train.X,test.X,train.mpg01,k=4)
mean(knn.pred != test_data$mpg0)
import(class)
library(class)
knn.pred = knn(train.X,test.X,train.mpg01,k=1)
mean(knn.pred != test_data$mpg01)
knn.pred = knn(train.X,test.X,train.mpg01,k=2)
mean(knn.pred != test_data$mpg01)
knn.pred = knn(train.X,test.X,train.mpg01,k=3)
mean(knn.pred != test_data$mpg01)
knn.pred = knn(train.X,test.X,train.mpg01,k=4)
mean(knn.pred != test_data$mpg0)
q()
library(boot)
library(MASS)
library(ISLr)
library(ISLR)
data(Default)
set.seed(45)
fit.glm = glm(default ~ income + balance,Default)
fit.glm = glm(default ~ income + balance,Default,family="binomial)
fit.glm = glm(default ~ income + balance,Default,family="binomial")
summary(glm)
summary(fit.glm)
fit.glm = glm(default ~ income + balance,Default)
fit.glm = glm(default ~ income + balance,data = Default)
fit.glm = glm(default ~ income + balance,Default,family="binomial")
length(Default)
length(Default$student)
train.default1 = default[1:6001,]
train.default1 = Default[1:6001,]
train.default2 = Default[1:5001,]
test.default1 = Default[!1:6001,]
test.default1
head(test.default1)
test.default1$student
test.default1 = Default[6002:10000,]
head(test.default1)
test.default2 = Default[5002:10000,]
fit.glm.default1 = glm.fit(default ~ income + balance,data=Default,family="binomial")
fit.glm.default1 = glm.fit(default ~ income + balance,Default,family="binomial")
fit.glm = glm(default ~ income + balance,Default,family="binomial")
fit.glm.default1 = glm(default ~ income + balance,Default,family="binomial")
fit.glm.default1 = glm(default ~ income + balance,train.default1,family="binomial")
summary(fit.glm.default1)
fit.glm.default2 = glm(default ~ income + balance,train.default2,family="binomial")
fit.glm.default1 = glm(default ~ income + balance,train.default1,family="binomial")
fit.glm.default2 = glm(default ~ income + balance,train.default2,family="binomial")
fit.glm.default1.prob = predict(fit.glm.default1,test.default1,type="response")
fit.glm.default1.prob
fit.glm.default1.pred = rep("No",nrow(test.default1))
fit.glm.default1.pred
fit.glm.default1.pred[fit.glm.default1.prob>0.5] = "Yes"
fit.glm.default1.pred
fit.glm.default1.pred[fit.glm.default1.prob>0.5] = "Yes"fit.glm.default1.pred = rep("No",nrow(test.default1))
table(fit.glm.default1.pred,test.default1)
fit.glm.default1.pred[fit.glm.default1.prob>0.5] = "Yes"
fit.glm.default1.pred
test.default1
length(test.default1$student)
length(fit.glm.default1.pred)
table(fit.glm.default1.pred,test.default1$default)
1 - (3851+44)/(3851+90+14+44)
fit.glm.default2.prob = predict(fit.glm.default2,test.default2,type="response")
fit.glm.default2.pred = rep("No",nrow(test.default2))
fit.glm.default2.pred[fit.glm.default2.prob > 0.5] = "Yes"
table(fit.glm.default.pred,test.default2$default)
table(fit.glm.default2.pred,test.default2$default)
1 - (4818+52)/(4818+106+23+52)
summary(fit.glm.default2)
summary(fit.glm.default1)
summary(fit.glm.default2)
coefficients(fit.glm.default1)
fit.glm.default1$coefficients
fit.glm.default1$coefficients[1,2]
fit.glm.default1$coefficients[1:2]
fit.glm.default1$coefficients[2:3]
        boot.fn = function(Default,index){
            model = glm(default ~ income + balance,Default,family="binomial",subset=index)
            fit.glm.default1$coefficients[2:3]
        }
boot.fn(Default,c(14,5,79))
boot.fn(Default,c(14,5,79,324,6435,234))
boot.fn(Default,seq(15:7000))
        boot.fn = function(Default,index){
            model = glm(default ~ income + balance,Default,family="binomial",subset=index)
            model$coefficients[2:3]
        }
        boot.fn = function(Default,index){
        boot.fn = function(Default,index){
            model = glm(default ~ income + balance,Default,family="binomial",subset=index)
            model$coefficients[2:3]
        }
boot.fn(Default,seq(15:7000))
boot.fn(Default,seq(15:3000))
boot.fn(Default,seq(15:3050))
boot.fn(Default,seq(15:3500))
set.seed(56)
?boot
boot(Default,boot.fn,c(1:1000))
?boot
boot(Default,boot.fn,1000)
4.68/7.06
2.32/3.232
q()
Added homeworks. 2020-12-23 18:24:59 +00:00			`auto = read.table("auto.data",header=T,na.strings="?")`
			`auto$mpg01=rep(0,397)`
			`auto$mpg01[auto$mpg>median(auto$mpg)]=1`
			`library(ISLR)`
			`library(MASS)`
			`library(class)`
			`train_bools <- (auto$year %% 2 == 0)`
			`train_data = auto[train_bools,]`
			`test_data = auto[!train_bools,]`
			`help(knn)`
			`help(knn)`
			`train <- rbind(iris3[1:25,,1], iris3[1:25,,2], iris3[1:25,,3])`
			`test <- rbind(iris3[26:50,,1], iris3[26:50,,2], iris3[26:50,,3])`
			`train`
			`test`
			`?knn`
			`cl <- factor(c(rep("s",25), rep("c",25), rep("v",25)))`
			`cl`
			`length(cl)`
			`length(train)`
			`nrows(train)`
			`nrow(train)`
			`train.X`
			`train.X = cbind(auto$horsepower,auto$displacement,auto$weight,auto$acceleration)[train_bools,]`
			`train.X`
			`test.X = cbind(auto$horsepower,auto$displacement,auto$weight,auto$acceleration)[!train_bools,]`
			`test.X`
			`train.X`
			`train.mpg01 = auto$mpg01[train_bools]`
			`train.mpg01`
			`length(train.mpg01)`
			`nrow(train.X)`
			`knn(train.X,train.Y,train.mpg01,K=1)`
			`knn(train.X,train.Y,train.mpg01,k=1)`
			`knn(train.X,test.X,train.mpg01,k=1)`
			`train.X`
			`na.omit(train.X)`
			`?na.omit`
			`na.omit(train.X)`
			`na.omit(train.X)`
			`knn(na.omit(train.X),test.X,train.mpg01,k=1)`
			`knn(na.omit(train.X),test.X,na.omit(train.mpg01),k=1)`
			`knn(na.omit(train.X),na.omit(test.X),na.omit(train.mpg01),k=1)`
			`train.mpg012 = na.omit(auto$mpg01)[train_bools]`
			`train.mpg012`
			`train.mpg01`
			`nrow(train)`
			`na.omit(auto)`
			`auto`
			`na.omit(auto)`
			`summary(auto)`
			`summary(na.omit(auto))`
			`Auto = na.omit(auto)`
			`auto = na.omit(auto)`
			`ncol(auto)`
			`nrow(auto)`
			`auto <- na.omit(auto)`
			`train_bools <- (auto$year %% 2 == 0)`
			`train_data = auto[train_bools,]`
			`test_data = auto[!train_bools,]`
			`train.X = cbind(auto$horsepower,auto$displacement,auto$weight,auto$acceleration)[train_bools,]`
			`test.X = cbind(auto$horsepower,auto$displacement,auto$weight,auto$acceleration)[!train_bools,]`
			`train.mpg01 = auto$mpg01[train_bools]`
			`knn.pred = knn(train.X,test.X,train.mpg01,k=1)`
			`mean(knn.pred != auto$mpg01)`
			`mean(knn.pred != test_data$mpg01)`
			`knn.pred = knn(train.X,test.X,train.mpg01,k=2)`
			`mean(knn.pred != test_data$mpg01)`
			`knn.pred = knn(train.X,test.X,train.mpg01,k=3)`
			`mean(knn.pred != test_data$mpg01)`
			`knn.pred = knn(train.X,test.X,train.mpg01,k=4)`
			`mean(knn.pred != test_data$mpg0)`
			`knn.pred`
			`length(knn.pred)`
			`dim(knn.pred)`
			`length(test_data)`
			`ncol(test_data)`
			`nrow(test_data)`
			`q()`
			`qda.fit`
			`fit.qda`
			`qda.fit`
			`auto`
			`qda.fit = qda(mpg01 ~ horsepower + weight + cylinders + displacement, data = train_data)`
			`import(MASS)`
			`qda.fit = qda(mpg01 ~ horsepower + weight + cylinders + displacement, data = train_data)`
			`import(class)`
			`library(MASS)`
			`qda.fit = qda(mpg01 ~ horsepower + weight + cylinders + displacement, data = train_data)`
			`qda.fit`
			`> mean(qda.pred$class!=test_data$mpg01,na.rm=T)`
			`mean(qda.pred$class!=test_data$mpg01,na.rm=T)`
			`qda.fit=qda(mpg01 ~ horsepower + weight + acceleration + displacement,data=train_data)`
			`qda.pred=predict(qda.fit,test_data,na.rm=T)`
			`mean(qda.pred$class!=test_data$mpg01,na.rm=T)`
			`qda.fit=qda(mpg01 ~ horsepower + weight + cylinders + displacement,data=train_data)`
			`qda.pred=predict(qda.fit,test_data,na.rm=T)`
			`mean(qda.pred$class!=test_data$mpg01,na.rm=T)`
			`qda.fit`
			`qda.pred=predict(qda.fit,test_data,na.rm=T)`
			`mean(qda.pred$class!=test_data$mpg01,na.rm=T)`
			`glm.fit=glm(mpg01 ~ horsepower + weight + cylinders + displacement,data=train_data,family=binomial)`
			`glm.probs=predict(glm.fit,test_data,type="response")`
			`glm.pred=rep(0,199)`
			`glm.pred[glm.probs>.5]=1`
			`mean(glm.pred!=test_data$mpg01)`
			`glm.fit=glm(mpg01 ~ horsepower + weight + cylinders + displacement,data=train_data,family=binomial)`
			`glm.probs=predict(glm.fit,test_data,type="response")`
			`glm.pred=rep(0,length(test_data)`
			`glm.pred[glm.probs>.5]=1`
			`mean(glm.pred!=test_data$mpg01)`
			`glm.fit=glm(mpg01 ~ horsepower + weight + cylinders + displacement,data=train_data,family=binomial)`
			`glm.probs=predict(glm.fit,test_data,type="response")`
			`glm.pred=rep(0,length(test_data))`
			`glm.pred[glm.probs>.5]=1`
			`mean(glm.pred!=test_data$mpg01)`
			`glm.fit=glm(mpg01 ~ horsepower + weight + cylinders + displacement,data=train_data,family=binomial)`
			`glm.probs=predict(glm.fit,test_data,type="response")`
			`glm.pred=rep(0,length(test_data))`
			`glm.pred[glm.probs>.5]=1`
			`mean(glm.pred!=test_data$mpg01)`
			`glm.pred`
			`glm.pred=rep(0,length(test_data))`
			`glm.pred`
			`test_data`
			`glm.fit=glm(mpg01 ~ horsepower + weight + cylinders + displacement,data=train_data,family=binomial)`
			`glm.probs=predict(glm.fit,test_data,type="response")`
			`glm.pred=rep(0,nrow(test_data))`
			`glm.pred[glm.probs>.5]=1`
			`mean(glm.pred!=test_data$mpg01)`
			`set.seed(1)`
			`auto <- na.omit(auto)`
			`train_bools <- (auto$year %% 2 == 0)`
			`train_data = auto[train_bools,]`
			`test_data = auto[!train_bools,]`
			`train.X = cbind(auto$horsepower,auto$displacement,auto$weight,auto$cylinders)[train_bools,]`
			`test.X = cbind(auto$horsepower,auto$displacement,auto$weight,auto$cylinders)[!train_bools,]`
			`train.mpg01 = auto$mpg01[train_bools]`
			`knn.pred = knn(train.X,test.X,train.mpg01,k=1)`
			`mean(knn.pred != test_data$mpg01)`
			`knn.pred = knn(train.X,test.X,train.mpg01,k=2)`
			`mean(knn.pred != test_data$mpg01)`
			`knn.pred = knn(train.X,test.X,train.mpg01,k=3)`
			`mean(knn.pred != test_data$mpg01)`
			`knn.pred = knn(train.X,test.X,train.mpg01,k=4)`
			`mean(knn.pred != test_data$mpg0)`
			`import(class)`
			`library(class)`
			`knn.pred = knn(train.X,test.X,train.mpg01,k=1)`
			`mean(knn.pred != test_data$mpg01)`
			`knn.pred = knn(train.X,test.X,train.mpg01,k=2)`
			`mean(knn.pred != test_data$mpg01)`
			`knn.pred = knn(train.X,test.X,train.mpg01,k=3)`
			`mean(knn.pred != test_data$mpg01)`
			`knn.pred = knn(train.X,test.X,train.mpg01,k=4)`
			`mean(knn.pred != test_data$mpg0)`
			`q()`
			`library(boot)`
			`library(MASS)`
			`library(ISLr)`
			`library(ISLR)`
			`data(Default)`
			`set.seed(45)`
			`fit.glm = glm(default ~ income + balance,Default)`
			`fit.glm = glm(default ~ income + balance,Default,family="binomial)`
			`fit.glm = glm(default ~ income + balance,Default,family="binomial")`
			`summary(glm)`
			`summary(fit.glm)`
			`fit.glm = glm(default ~ income + balance,Default)`
			`fit.glm = glm(default ~ income + balance,data = Default)`
			`fit.glm = glm(default ~ income + balance,Default,family="binomial")`
			`length(Default)`
			`length(Default$student)`
			`train.default1 = default[1:6001,]`
			`train.default1 = Default[1:6001,]`
			`train.default2 = Default[1:5001,]`
			`test.default1 = Default[!1:6001,]`
			`test.default1`
			`head(test.default1)`
			`test.default1$student`
			`test.default1 = Default[6002:10000,]`
			`head(test.default1)`
			`test.default2 = Default[5002:10000,]`
			`fit.glm.default1 = glm.fit(default ~ income + balance,data=Default,family="binomial")`
			`fit.glm.default1 = glm.fit(default ~ income + balance,Default,family="binomial")`
			`fit.glm = glm(default ~ income + balance,Default,family="binomial")`
			`fit.glm.default1 = glm(default ~ income + balance,Default,family="binomial")`
			`fit.glm.default1 = glm(default ~ income + balance,train.default1,family="binomial")`
			`summary(fit.glm.default1)`
			`fit.glm.default2 = glm(default ~ income + balance,train.default2,family="binomial")`
			`fit.glm.default1 = glm(default ~ income + balance,train.default1,family="binomial")`
			`fit.glm.default2 = glm(default ~ income + balance,train.default2,family="binomial")`
			`fit.glm.default1.prob = predict(fit.glm.default1,test.default1,type="response")`
			`fit.glm.default1.prob`
			`fit.glm.default1.pred = rep("No",nrow(test.default1))`
			`fit.glm.default1.pred`
			`fit.glm.default1.pred[fit.glm.default1.prob>0.5] = "Yes"`
			`fit.glm.default1.pred`
			`fit.glm.default1.pred[fit.glm.default1.prob>0.5] = "Yes"fit.glm.default1.pred = rep("No",nrow(test.default1))`
			`table(fit.glm.default1.pred,test.default1)`
			`fit.glm.default1.pred[fit.glm.default1.prob>0.5] = "Yes"`
			`fit.glm.default1.pred`
			`test.default1`
			`length(test.default1$student)`
			`length(fit.glm.default1.pred)`
			`table(fit.glm.default1.pred,test.default1$default)`
			`1 - (3851+44)/(3851+90+14+44)`
			`fit.glm.default2.prob = predict(fit.glm.default2,test.default2,type="response")`
			`fit.glm.default2.pred = rep("No",nrow(test.default2))`
			`fit.glm.default2.pred[fit.glm.default2.prob > 0.5] = "Yes"`
			`table(fit.glm.default.pred,test.default2$default)`
			`table(fit.glm.default2.pred,test.default2$default)`
			`1 - (4818+52)/(4818+106+23+52)`
			`summary(fit.glm.default2)`
			`summary(fit.glm.default1)`
			`summary(fit.glm.default2)`
			`coefficients(fit.glm.default1)`
			`fit.glm.default1$coefficients`
			`fit.glm.default1$coefficients[1,2]`
			`fit.glm.default1$coefficients[1:2]`
			`fit.glm.default1$coefficients[2:3]`
			`boot.fn = function(Default,index){`
			`model = glm(default ~ income + balance,Default,family="binomial",subset=index)`
			`fit.glm.default1$coefficients[2:3]`
			`}`
			`boot.fn(Default,c(14,5,79))`
			`boot.fn(Default,c(14,5,79,324,6435,234))`
			`boot.fn(Default,seq(15:7000))`
			`boot.fn = function(Default,index){`
			`model = glm(default ~ income + balance,Default,family="binomial",subset=index)`
			`model$coefficients[2:3]`
			`}`
			`boot.fn = function(Default,index){`
			`boot.fn = function(Default,index){`
			`model = glm(default ~ income + balance,Default,family="binomial",subset=index)`
			`model$coefficients[2:3]`
			`}`
			`boot.fn(Default,seq(15:7000))`
			`boot.fn(Default,seq(15:3000))`
			`boot.fn(Default,seq(15:3050))`
			`boot.fn(Default,seq(15:3500))`
			`set.seed(56)`
			`?boot`
			`boot(Default,boot.fn,c(1:1000))`
			`?boot`
			`boot(Default,boot.fn,1000)`
			`4.68/7.06`
			`2.32/3.232`
			`q()`