Renta de Bicis

1. Importar la base de datos

df <- read.csv("rentadebicis.csv")

2. Entender la base de datos

summary(df)

##       hora            dia              mes              año      
##  Min.   : 0.00   Min.   : 1.000   Min.   : 1.000   Min.   :2011  
##  1st Qu.: 6.00   1st Qu.: 5.000   1st Qu.: 4.000   1st Qu.:2011  
##  Median :12.00   Median :10.000   Median : 7.000   Median :2012  
##  Mean   :11.54   Mean   : 9.993   Mean   : 6.521   Mean   :2012  
##  3rd Qu.:18.00   3rd Qu.:15.000   3rd Qu.:10.000   3rd Qu.:2012  
##  Max.   :23.00   Max.   :19.000   Max.   :12.000   Max.   :2012  
##     estacion     dia_de_la_semana     asueto         temperatura   
##  Min.   :1.000   Min.   :1.000    Min.   :0.00000   Min.   : 0.82  
##  1st Qu.:2.000   1st Qu.:2.000    1st Qu.:0.00000   1st Qu.:13.94  
##  Median :3.000   Median :4.000    Median :0.00000   Median :20.50  
##  Mean   :2.507   Mean   :4.014    Mean   :0.02857   Mean   :20.23  
##  3rd Qu.:4.000   3rd Qu.:6.000    3rd Qu.:0.00000   3rd Qu.:26.24  
##  Max.   :4.000   Max.   :7.000    Max.   :1.00000   Max.   :41.00  
##  sensacion_termica    humedad       velocidad_del_viento
##  Min.   : 0.76     Min.   :  0.00   Min.   : 0.000      
##  1st Qu.:16.66     1st Qu.: 47.00   1st Qu.: 7.002      
##  Median :24.24     Median : 62.00   Median :12.998      
##  Mean   :23.66     Mean   : 61.89   Mean   :12.799      
##  3rd Qu.:31.06     3rd Qu.: 77.00   3rd Qu.:16.998      
##  Max.   :45.45     Max.   :100.00   Max.   :56.997      
##  rentas_de_no_registrados rentas_de_registrados rentas_totales 
##  Min.   :  0.00           Min.   :  0.0         Min.   :  1.0  
##  1st Qu.:  4.00           1st Qu.: 36.0         1st Qu.: 42.0  
##  Median : 17.00           Median :118.0         Median :145.0  
##  Mean   : 36.02           Mean   :155.6         Mean   :191.6  
##  3rd Qu.: 49.00           3rd Qu.:222.0         3rd Qu.:284.0  
##  Max.   :367.00           Max.   :886.0         Max.   :977.0

Observaciósn: 1. Los días llegan hasta 19 y no hasta 31

3. Generar regresión lineal

regresion <- lm(rentas_totales ~ hora + dia + mes + año + estacion + dia_de_la_semana + asueto + temperatura + sensacion_termica + humedad + velocidad_del_viento, data = df)
summary(regresion)

## 
## Call:
## lm(formula = rentas_totales ~ hora + dia + mes + año + estacion + 
##     dia_de_la_semana + asueto + temperatura + sensacion_termica + 
##     humedad + velocidad_del_viento, data = df)
## 
## Residuals:
##     Min      1Q  Median      3Q     Max 
## -305.52  -93.64  -27.70   61.85  649.10 
## 
## Coefficients:
##                        Estimate Std. Error t value Pr(>|t|)    
## (Intercept)          -1.661e+05  5.496e+03 -30.217  < 2e-16 ***
## hora                  7.735e+00  2.070e-01  37.368  < 2e-16 ***
## dia                   3.844e-01  2.482e-01   1.549  0.12150    
## mes                   9.996e+00  1.682e+00   5.943 2.89e-09 ***
## año                   8.258e+01  2.732e+00  30.225  < 2e-16 ***
## estacion             -7.774e+00  5.177e+00  -1.502  0.13324    
## dia_de_la_semana      4.393e-01  6.918e-01   0.635  0.52545    
## asueto               -4.864e+00  8.365e+00  -0.582  0.56089    
## temperatura           1.582e+00  1.038e+00   1.524  0.12752    
## sensacion_termica     4.748e+00  9.552e-01   4.971 6.76e-07 ***
## humedad              -2.115e+00  7.884e-02 -26.827  < 2e-16 ***
## velocidad_del_viento  5.582e-01  1.809e-01   3.086  0.00203 ** 
## ---
## Signif. codes:  0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1
## 
## Residual standard error: 141.7 on 10874 degrees of freedom
## Multiple R-squared:  0.3891, Adjusted R-squared:  0.3885 
## F-statistic: 629.6 on 11 and 10874 DF,  p-value: < 2.2e-16

4. Ajustar el modelo

regresion <- lm(rentas_totales ~ hora  + mes + año + sensacion_termica + humedad + velocidad_del_viento, data = df)
summary(regresion)

## 
## Call:
## lm(formula = rentas_totales ~ hora + mes + año + sensacion_termica + 
##     humedad + velocidad_del_viento, data = df)
## 
## Residuals:
##     Min      1Q  Median      3Q     Max 
## -308.60  -93.85  -28.34   61.05  648.09 
## 
## Coefficients:
##                        Estimate Std. Error t value Pr(>|t|)    
## (Intercept)          -1.662e+05  5.496e+03 -30.250  < 2e-16 ***
## hora                  7.734e+00  2.070e-01  37.364  < 2e-16 ***
## mes                   7.574e+00  4.207e-01  18.002  < 2e-16 ***
## año                   8.266e+01  2.732e+00  30.258  < 2e-16 ***
## sensacion_termica     6.172e+00  1.689e-01  36.539  < 2e-16 ***
## humedad              -2.121e+00  7.858e-02 -26.988  < 2e-16 ***
## velocidad_del_viento  6.208e-01  1.771e-01   3.506 0.000457 ***
## ---
## Signif. codes:  0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1
## 
## Residual standard error: 141.7 on 10879 degrees of freedom
## Multiple R-squared:  0.3886, Adjusted R-squared:  0.3883 
## F-statistic:  1153 on 6 and 10879 DF,  p-value: < 2.2e-16

5. Construye un modelo predictivo

datos <- data.frame(hora=11.54, mes=1:12, año=2013, sensacion_termica=23.66, humedad=61.89, velocidad_del_viento=12.799)
predict(regresion,datos)

##        1        2        3        4        5        6        7        8 
## 273.6001 281.1738 288.7475 296.3213 303.8950 311.4687 319.0424 326.6161 
##        9       10       11       12 
## 334.1898 341.7635 349.3372 356.9110

Precio de casas

1. Importar la base de datos

bd <- read.csv("HousePriceData.csv")

2. Entender la base de datos

summary(bd)

##   Observation      Dist_Taxi      Dist_Market    Dist_Hospital  
##  Min.   :  1.0   Min.   :  146   Min.   : 1666   Min.   : 3227  
##  1st Qu.:237.0   1st Qu.: 6477   1st Qu.: 9367   1st Qu.:11302  
##  Median :469.0   Median : 8228   Median :11149   Median :13189  
##  Mean   :468.4   Mean   : 8235   Mean   :11022   Mean   :13091  
##  3rd Qu.:700.0   3rd Qu.: 9939   3rd Qu.:12675   3rd Qu.:14855  
##  Max.   :932.0   Max.   :20662   Max.   :20945   Max.   :23294  
##                                                                 
##      Carpet         Builtup        Parking          City_Category     
##  Min.   :  775   Min.   :  932   Length:905         Length:905        
##  1st Qu.: 1317   1st Qu.: 1579   Class :character   Class :character  
##  Median : 1478   Median : 1774   Mode  :character   Mode  :character  
##  Mean   : 1511   Mean   : 1794                                        
##  3rd Qu.: 1654   3rd Qu.: 1985                                        
##  Max.   :24300   Max.   :12730                                        
##  NA's   :7                                                            
##     Rainfall       House_Price       
##  Min.   :-110.0   Min.   :  1492000  
##  1st Qu.: 600.0   1st Qu.:  4623000  
##  Median : 780.0   Median :  5860000  
##  Mean   : 786.9   Mean   :  6083992  
##  3rd Qu.: 970.0   3rd Qu.:  7200000  
##  Max.   :1560.0   Max.   :150000000  
##

library(dplyr)

## 
## Attaching package: 'dplyr'

## The following objects are masked from 'package:stats':
## 
##     filter, lag

## The following objects are masked from 'package:base':
## 
##     intersect, setdiff, setequal, union

count(bd, Parking, sort=TRUE)

##        Parking   n
## 1         Open 355
## 2 Not Provided 225
## 3      Covered 184
## 4   No Parking 141

count(bd,City_Category, sort=TRUE)

##   City_Category   n
## 1         CAT B 351
## 2         CAT A 320
## 3         CAT C 234

Observaciones: 1. El precio de las casa está con datos atípicos. 2. Rainfall tiene valores negativos. 3. Carpet tiene 7 NA´s

3. Limpiar la base de datos

# ¿Cuántos NA tengo en al base de datos?
sum(is.na(bd))

## [1] 7

# ¿Cuántos NA tengo por variable?
sapply(bd, function(x) sum(is.na(x)))

##   Observation     Dist_Taxi   Dist_Market Dist_Hospital        Carpet 
##             0             0             0             0             7 
##       Builtup       Parking City_Category      Rainfall   House_Price 
##             0             0             0             0             0

# Eliminar NA
bd <- na.omit(bd)

# Eliminar registro del precio atípico

bd <- bd[bd$House_Price<12000000,]

# Eliminar registro de Rainfall negativo

bd <- bd[bd$Rainfall>=0,]
str(bd)

## 'data.frame':    896 obs. of  10 variables:
##  $ Observation  : int  1 2 3 4 5 6 7 8 9 10 ...
##  $ Dist_Taxi    : int  9796 8294 11001 8301 10510 6665 13153 5882 7495 8233 ...
##  $ Dist_Market  : int  5250 8186 14399 11188 12629 5142 11869 9948 11589 7067 ...
##  $ Dist_Hospital: int  10703 12694 16991 12289 13921 9972 17811 13315 13370 11400 ...
##  $ Carpet       : int  1659 1461 1340 1451 1770 1442 1542 1261 1090 1030 ...
##  $ Builtup      : int  1961 1752 1609 1748 2111 1733 1858 1507 1321 1235 ...
##  $ Parking      : chr  "Open" "Not Provided" "Not Provided" "Covered" ...
##  $ City_Category: chr  "CAT B" "CAT B" "CAT A" "CAT B" ...
##  $ Rainfall     : int  530 210 720 620 450 760 1030 1020 680 1130 ...
##  $ House_Price  : int  6649000 3982000 5401000 5373000 4662000 4526000 7224000 3772000 4631000 4415000 ...
##  - attr(*, "na.action")= 'omit' Named int [1:7] 62 240 425 470 527 547 576
##   ..- attr(*, "names")= chr [1:7] "62" "240" "425" "470" ...

# Gráficas
boxplot(bd$House_Price, horizontal = TRUE)

3. Generar regresión lineal

regression <- lm(House_Price ~ Dist_Taxi + Dist_Market + Dist_Hospital + Carpet + Builtup + Parking + City_Category + Rainfall , data = bd)
summary(regression)

## 
## Call:
## lm(formula = House_Price ~ Dist_Taxi + Dist_Market + Dist_Hospital + 
##     Carpet + Builtup + Parking + City_Category + Rainfall, data = bd)
## 
## Residuals:
##      Min       1Q   Median       3Q      Max 
## -3572009  -800792   -65720   761534  4401585 
## 
## Coefficients:
##                       Estimate Std. Error t value Pr(>|t|)    
## (Intercept)          5.599e+06  3.672e+05  15.246  < 2e-16 ***
## Dist_Taxi            3.009e+01  2.682e+01   1.122   0.2622    
## Dist_Market          1.285e+01  2.081e+01   0.618   0.5370    
## Dist_Hospital        4.864e+01  3.008e+01   1.617   0.1062    
## Carpet              -7.997e+02  3.476e+03  -0.230   0.8181    
## Builtup              1.339e+03  2.901e+03   0.462   0.6444    
## ParkingNo Parking   -6.040e+05  1.389e+05  -4.348 1.53e-05 ***
## ParkingNot Provided -4.924e+05  1.235e+05  -3.988 7.22e-05 ***
## ParkingOpen         -2.632e+05  1.126e+05  -2.338   0.0196 *  
## City_CategoryCAT B  -1.877e+06  9.598e+04 -19.554  < 2e-16 ***
## City_CategoryCAT C  -2.890e+06  1.059e+05 -27.300  < 2e-16 ***
## Rainfall            -1.175e+02  1.550e+02  -0.758   0.4484    
## ---
## Signif. codes:  0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1
## 
## Residual standard error: 1222000 on 884 degrees of freedom
## Multiple R-squared:  0.5007, Adjusted R-squared:  0.4945 
## F-statistic: 80.58 on 11 and 884 DF,  p-value: < 2.2e-16

4. Ajustar el modelo

regression <- lm(House_Price ~ Dist_Taxi + Dist_Market + Dist_Hospital + Carpet + Builtup + Parking + City_Category + Rainfall , data = bd)
summary(regression)

## 
## Call:
## lm(formula = House_Price ~ Dist_Taxi + Dist_Market + Dist_Hospital + 
##     Carpet + Builtup + Parking + City_Category + Rainfall, data = bd)
## 
## Residuals:
##      Min       1Q   Median       3Q      Max 
## -3572009  -800792   -65720   761534  4401585 
## 
## Coefficients:
##                       Estimate Std. Error t value Pr(>|t|)    
## (Intercept)          5.599e+06  3.672e+05  15.246  < 2e-16 ***
## Dist_Taxi            3.009e+01  2.682e+01   1.122   0.2622    
## Dist_Market          1.285e+01  2.081e+01   0.618   0.5370    
## Dist_Hospital        4.864e+01  3.008e+01   1.617   0.1062    
## Carpet              -7.997e+02  3.476e+03  -0.230   0.8181    
## Builtup              1.339e+03  2.901e+03   0.462   0.6444    
## ParkingNo Parking   -6.040e+05  1.389e+05  -4.348 1.53e-05 ***
## ParkingNot Provided -4.924e+05  1.235e+05  -3.988 7.22e-05 ***
## ParkingOpen         -2.632e+05  1.126e+05  -2.338   0.0196 *  
## City_CategoryCAT B  -1.877e+06  9.598e+04 -19.554  < 2e-16 ***
## City_CategoryCAT C  -2.890e+06  1.059e+05 -27.300  < 2e-16 ***
## Rainfall            -1.175e+02  1.550e+02  -0.758   0.4484    
## ---
## Signif. codes:  0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1
## 
## Residual standard error: 1222000 on 884 degrees of freedom
## Multiple R-squared:  0.5007, Adjusted R-squared:  0.4945 
## F-statistic: 80.58 on 11 and 884 DF,  p-value: < 2.2e-16

5. Construye un modelo predictivo

data <- data.frame(Dist_Taxi=8278, Dist_Market=16251, Dist_Hospital=13857, Carpet=1455, Builtup=1764, Parking="Covered", City_Category="CAT A", Rainfall=390)
predict(regression,data)

##       1 
## 7883860

Actividad 4.3

Ximena Ramírez y Mora Pérez

2023-09-20

Renta de Bicis

1. Importar la base de datos

2. Entender la base de datos

3. Generar regresión lineal

4. Ajustar el modelo

5. Construye un modelo predictivo

Precio de casas

1. Importar la base de datos

2. Entender la base de datos

3. Limpiar la base de datos

3. Generar regresión lineal

4. Ajustar el modelo

5. Construye un modelo predictivo