https://github.com/anas436/credit-card-fraud-detection-using-machine-learning-with-python
https://github.com/anas436/credit-card-fraud-detection-using-machine-learning-with-python
accuracy-metrics decision-trees jupyterlab knn-classification logistic-regression naive-bayes-classifier numpy pandas python3 random-forest-classifier scikit-learn sklearn svm
Last synced: 4 months ago
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- Host: GitHub
- URL: https://github.com/anas436/credit-card-fraud-detection-using-machine-learning-with-python
- Owner: Anas436
- Created: 2023-02-04T07:33:42.000Z (over 3 years ago)
- Default Branch: main
- Last Pushed: 2023-02-04T07:44:45.000Z (over 3 years ago)
- Last Synced: 2025-10-17T05:19:03.167Z (8 months ago)
- Topics: accuracy-metrics, decision-trees, jupyterlab, knn-classification, logistic-regression, naive-bayes-classifier, numpy, pandas, python3, random-forest-classifier, scikit-learn, sklearn, svm
- Language: Jupyter Notebook
- Homepage:
- Size: 79.1 KB
- Stars: 0
- Watchers: 1
- Forks: 4
- Open Issues: 0
-
Metadata Files:
- Readme: README.md
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README
# Credit-Card-Fraud-Detection-using-Machine-Learning-with-Python
### About Dataset
#### Context
It is important that credit card companies are able to recognize fraudulent credit card transactions so that customers are not charged for items that they did not purchase.
#### Content
The dataset contains transactions made by credit cards in September 2013 by European cardholders.
This dataset presents transactions that occurred in two days, where we have 492 frauds out of 284,807 transactions. The dataset is highly unbalanced, the positive class (frauds) account for 0.172% of all transactions.
It contains only numerical input variables which are the result of a PCA transformation. Unfortunately, due to confidentiality issues, we cannot provide the original features and more background information about the data. Features V1, V2, … V28 are the principal components obtained with PCA, the only features which have not been transformed with PCA are 'Time' and 'Amount'. Feature 'Time' contains the seconds elapsed between each transaction and the first transaction in the dataset. The feature 'Amount' is the transaction Amount, this feature can be used for example-dependant cost-sensitive learning. Feature 'Class' is the response variable and it takes value 1 in case of fraud and 0 otherwise.
Given the class imbalance ratio, we recommend measuring the accuracy using the Area Under the Precision-Recall Curve (AUPRC). Confusion matrix accuracy is not meaningful for unbalanced classification.
If you want to downloads **Credit Card Fraud Detection** Dataset [Click Here](https://www.kaggle.com/datasets/mlg-ulb/creditcardfraud)