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In this post, we will learn how to simulate predictive scenarios using R, Python, and Excel, by using Techtonique API, available at https://www.techtonique.net. Input csv files used in the examples are available in Techtonique/datasets.
The Excel version can be found in the Excel file https://github.com/thierrymoudiki/techtonique-excel-server/VBA-Web.xlsm (in ‘Sheet3’). Behind the scenes, I’m using Visual Basic for Applications (VBA) to send requests to the API. All you need to do to see it in action is get a token and press a button. Remember to enable macros in Excel when asked to do so (this is safe).
Here’s the Python version, which relies on forecastingapi Python package:
import forecastingapi as fapi
import numpy as np
import pandas as pd
from time import time
import matplotlib.pyplot as plt
import ast
# examples in https://github.com/Techtonique/datasets/tree/main/time_series
path_to_file = '/Users/t/Documents/datasets/time_series/univariate/AirPassengers.csv'
start = time()
res_get_forecast = fapi.get_forecast(path_to_file,
base_model="RidgeCV",
n_hidden_features=5,
lags=25,
type_pi='scp2-kde',
replications=10,
h=5)
print(f"Elapsed: {time() - start} seconds \n")
print(res_get_forecast)
# Convert lists to numpy arrays for easier handling
mean = np.asarray(ast.literal_eval(res_get_forecast['mean'])).ravel()
lower = np.asarray(ast.literal_eval(res_get_forecast['lower'])).ravel()
upper = np.asarray(ast.literal_eval(res_get_forecast['upper'])).ravel()
sims = np.asarray(ast.literal_eval(res_get_forecast['sims']))
# Plotting
plt.figure(figsize=(10, 6))
# Plot the simulated lines
for sim in sims:
plt.plot(sim, color='gray', linestyle='--', alpha=0.6, label='Simulations' if 'Simulations' not in plt.gca().get_legend_handles_labels()[1] else "")
# Plot the mean line
plt.plot(mean, color='blue', linewidth=2, label='Mean')
# Plot the lower and upper bounds as shaded areas
plt.fill_between(range(len(mean)), lower, upper, color='lightblue', alpha=0.2, label='Confidence Interval')
# Labels and title
plt.xlabel('Time Point')
plt.ylabel('Value')
plt.title('Spaghetti Plot of Mean, Bounds, and Simulated Paths')
plt.legend()
plt.show()
To finish, here’s the R version, which relies on forecastingapi R package:
path_to_file <- "/Users/t/Documents/datasets/time_series/univariate/AirPassengers.csv" forecastingapi::get_forecast(path_to_file) forecastingapi::get_forecast(path_to_file, type_pi='scp2-kde', h=5L, replications=10L) sims <- forecastingapi::get_forecast(path_to_file, type_pi="scp2-kde", replications=10L)$sims matplot(sims, type='l', lwd=2)
As a reminder:
You can now obtain insights from your tabular data by chatting with it in techtonique.net. No plotting yet (coming soon), but you can already ask questions like:
- What is the average of column
A? - Show me the first 5 rows of data
- Show me 5 random rows of data
- What is the sum of column
B? - What is the average of column
Agrouped by columnB? - …
You can also run R or Python code interactively in your browser, on www.techtonique.net/consoles.
Techtonique web app is a tool designed to help you make informed, data-driven decisions using Mathematics, Statistics, Machine Learning, and Data Visualization. As of September 2024, the tool is in its beta phase (subject to crashes) and will remain completely free to use until December 24, 2024.
After registering, you will receive an email. CHECK THE SPAMS.
A few selected users will be contacted directly for feedback, but you can also send yours.
The tool is built on Techtonique and the powerful Python ecosystem. At the moment, it focuses on small datasets, with a limit of 1MB per input. Both clickable web interfaces and Application Programming Interfaces (APIs, see below) are available.
Currently, the available functionalities include:
- Data visualization. Example: Which variables are correlated, and to what extent?
- Probabilistic forecasting. Example: What are my projected sales for next year, including lower and upper bounds?
- Machine Learning (regression or classification) for tabular datasets. Example: What is the price range of an apartment based on its age and number of rooms?
- Survival analysis, analyzing time-to-event data. Example: How long might a patient live after being diagnosed with Hodgkin’s lymphoma (cancer), and how accurate is this prediction?
- Reserving based on insurance claims data. Example: How much should I set aside today to cover potential accidents that may occur in the next few years?
As mentioned earlier, this tool includes both clickable web interfaces and Application Programming Interfaces (APIs).
APIs allow you to send requests from your computer to perform specific tasks on given resources. APIs are programming language-agnostic (supporting Python, R, JavaScript, etc.), relatively fast, and require no additional package installation before use. This means you can keep using your preferred programming language or legacy code/tool, as long as it can speak to the internet. What are requests and resources?
In Techtonique/APIs, resources are Statistical/Machine Learning (ML) model predictions or forecasts.
A common type of request might be to obtain sales, weather, or revenue forecasts for the next five weeks. In general, requests for tasks are short, typically involving a verb and a URL path — which leads to a response.
Below is an example. In this case, the resource we want to manage is a list of users.
– Request type (verb): GET
- URL Path:
http://users| Endpoint: users | API Response: Displays a list of all users - URL Path:
http://users/:id| Endpoint: users/:id | API Response: Displays a specific user
– Request type (verb): POST
- URL Path:
http://users| Endpoint: users | API Response: Creates a new user
– Request type (verb): PUT
- URL Path:
http://users/:id| Endpoint: users/:id | API Response: Updates a specific user
– Request type (verb): DELETE
- URL Path:
http://users/:id| Endpoint: users/:id | API Response: Deletes a specific user
In Techtonique/APIs, a typical resource endpoint would be /MLmodel. Since the resources are predefined and do not need to be updated (PUT) or deleted (DELETE), every request will be a POST request to a /MLmodel, with additional parameters for the ML model.
After reading this, you can proceed to the /howtoapi page.
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