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Neural Networks User Behavior Prediction from Event Data

Welcome to the Exania repository, a part of Exohood Labs, ongoing research and development in the field of artificial intelligence. This repository focuses on the development of advanced neural network models for predicting user behavior based on event data. The goal of Exania is to leverage cutting edge machine learning techniques to gain insights into user interactions and behaviors, enabling us to create more personalized and efficient user experiences.

Introduction

Exania is a research project aimed at tackling the complex problem of user behavior prediction using event data. Event data consists of timestamped interactions between users and a system, such as clicks, purchases, and page views. Predicting user behavior from such data involves modeling intricate patterns and dependencies inherent in human interactions. Dependencies

To utilize the Exania project, you will need the following dependencies:

  • Python >= 3.6
  • TensorFlow >= 2.0
  • NumPy >= 1.18
  • Pandas >= 1.0
  • Scikit-learn >= 0.23

Data Preprocessing

The event data undergoes a series of preprocessing steps to prepare it for neural network training. This includes data cleaning, feature extraction, and sequence transformation. The transformed data is organized into sequences, capturing temporal patterns of user interactions.

Neural Network Architecture

Exania employs a sophisticated architecture comprising various components:

  • Embedding Layer: Converts categorical features into dense vectors.
  • Temporal Encoding Layer: Captures sequential dependencies through recurrent layers (e.g., LSTM).
  • Attention Mechanism: Enhances model focus on crucial events.
  • Prediction Layer: Generates probability distributions for future user actions.

The mathematical formulations and code implementations of these components can be found in the source code.

Training and Evaluation

The model is trained using historical event data, where the objective is to minimize the prediction error. Training is performed using backpropagation and optimization algorithms, optimizing model parameters to minimize a suitable loss function. Evaluation metrics include accuracy, precision, recall, and F1-score, among others.

Results

Our experiments demonstrate the effectiveness of Exania in predicting user behavior. The model's accuracy in forecasting user actions has been consistently high, indicating its potential in enhancing user experiences and personalization.

Usage

To use Exania for your own event data, follow these steps:

  • Data Preparation: Prepare your event data in the required format.
  • Data Preprocessing: Apply the necessary preprocessing steps outlined in the repository's code.
  • Model Configuration: Adjust the neural network architecture and hyperparameters to suit your specific use case.
  • Training: Train the model using your preprocessed data.
  • Evaluation: Assess the model's performance using appropriate metrics.
  • Prediction: Utilize the trained model to predict user behavior on new event data.

Contributing

We welcome contributions to Exania! Feel free to fork the repository, make improvements, and submit pull requests. Please follow our guidelines for code formatting, documentation, and testing. License

Exania is released under the MIT License, granting you the freedom to modify and distribute the code for your purposes.

By contributing to Exania, you join our mission to advance the field of user behavior prediction through AI research. Your collaboration is essential in shaping the future of personalized user experiences. Feel free to contact us at [email protected] for any inquiries or collaborations.

Exohood Labs - Enhancing Human Technology Interactions Through Innovation