Workspace
Andy Ly/

Bikeshare Insights: Summer in the Windy City

0
Beta
Spinner

Bikeshare Insights: Summer in the Windy City

This dataset contains information on Divvy Bikes, a bikeshare program that provides residents and visitors of Chicago with a convenient way to explore the city.

The workspace is set up with one CSV file containing bikeshare activities at the peak of the summer-July 2023. Columns include ride ID, bike type, start and end times, station names and IDs, location coordinates, and member type. Feel free to make this workspace yours by adding and removing cells, or editing any of the existing cells.

Source: Divvy Bikes

🌎 Some guiding questions to help you explore this data:

  1. How many observations are in the dataset? Are there null values?
  2. How would you clean and prepare the data for analysis?
  3. Which bike types are popular and which ones aren't? Check if being a member or casual rider makes a difference in bike choice.
  4. Time check! What are the peak and off-peak riding times during the day?

πŸ“Š Visualization ideas

  • Bar chart: Display the number of times each bike type is used to identify the most and least used bikes.
  • Grouped bar chart: Compare bike usage by member type (member vs. casual) to see if it affects bike choice.
  • Heatmap: Vividly illustrate the popularity of bikes at different times during the day and week.

You can query the pre-loaded CSV files using SQL directly. Here’s a sample query:

Unknown integration
DataFrameavailable as
df
variable
SELECT *
FROM '202307-divvy-tripdata.parquet'
LIMIT 10
This query is taking long to finish...Consider adding a LIMIT clause or switching to Query mode to preview the result.
Unknown integration
DataFrameavailable as
df4
variable
SELECT start_station_name, COUNT(start_station_name)
FROM '202307-divvy-tripdata.parquet'
GROUP BY start_station_name
ORDER BY COUNT(start_station_name) DESC
LIMIT 10
This query is taking long to finish...Consider adding a LIMIT clause or switching to Query mode to preview the result.
Unknown integration
DataFrameavailable as
df5
variable
SELECT end_station_name, COUNT(end_station_name)
FROM '202307-divvy-tripdata.parquet'
GROUP BY end_station_name
ORDER BY COUNT(end_station_name) DESC
LIMIT 10
This query is taking long to finish...Consider adding a LIMIT clause or switching to Query mode to preview the result.
Unknown integration
DataFrameavailable as
df1
variable
SELECT COUNT(ride_id)
FROM '202307-divvy-tripdata.parquet'
WHERE ride_id IS NOT NULL;
This query is taking long to finish...Consider adding a LIMIT clause or switching to Query mode to preview the result.
Unknown integration
DataFrameavailable as
df2
variable
SELECT rideable_type, COUNT(rideable_type)
FROM '202307-divvy-tripdata.parquet'
GROUP BY rideable_type;
This query is taking long to finish...Consider adding a LIMIT clause or switching to Query mode to preview the result.
Unknown integration
DataFrameavailable as
df3
variable
SELECT member_casual, COUNT(member_casual)
FROM '202307-divvy-tripdata.parquet'
GROUP BY member_casual;
This query is taking long to finish...Consider adding a LIMIT clause or switching to Query mode to preview the result.
import pandas as pd
divvy_jan2023 = pd.read_parquet("202307-divvy-tripdata.parquet")
divvy_jan2023.head()
import pygwalker as pyg
df = pd.read_parquet("202307-divvy-tripdata.parquet")
pyg.walk(df, hideDataSourceConfig= True, vegaTheme ='vega')
# Round up the time to the nearest hour in the 'started_at' column

import pandas as pd

divvy_jan2023['started_at'] = pd.to_datetime(divvy_jan2023['started_at'])
divvy_jan2023['started_at'] = divvy_jan2023['started_at'].apply(lambda x: x.replace(minute=0, second=0, microsecond=0) + pd.Timedelta(hours=1) if x.minute >= 30 else x.replace(minute=0, second=0, microsecond=0))


divvy_jan2023.head()
# Create a histogram of the time in the started_at column

import matplotlib.pyplot as plt

# Extract the hour from the started_at column
divvy_jan2023['hour'] = divvy_jan2023['started_at'].dt.hour

# Plot the histogram
plt.hist(divvy_jan2023['hour'], bins=24)
plt.xlabel('Hour of the day')
plt.ylabel('Frequency')
plt.title('Distribution of Start Time')
plt.show()
β€Œ
β€Œ
β€Œ
  • AI Chat
  • Code