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survivors
Event analysis has many applications: healthcare, hardware, social science, bioinformatics, and more.
Survival analysis allows you to predict not only the time and probability of an event but also how the probability of that event changes over time. In particular, there are three functions: the survival function S(t), the density function f(t), and the hazard function h(t):
The open-source survivors library aims to fit accurate data-sensitive tree-based models. These models handle categorical features and deal with missing values,overcoming the limitations of existing lifelines, scikit-survival, and pycox models. Survivors is a platform for conducting experimental research. The experiment module is compatible with scikit-survival and lifelines models (non-parametric and parametric models have already been embedded into the library).
Developed models published in scientific articles [1], [2], [3] and outperformed existing models in terms of accuracy based on open medical data. We invite survival analysis researchers to join the development of survivors, using the library for their projects, reporting any problems, and creating new solutions. Documentation is available on https://iuliivasilev.github.io/dev-survivors/
Principles
Built-in survivors models were developed as part of a PhD thesis at Lomonosov Moscow State University. The goal of the library is to analyze existing methods of survival analysis and develop new techniques to overcome these limitations.
Existing methods are not suitable for real-world data. Discrete methods use a fixed time scale. Statistical methods are based on strong assumptions, and tree-based methods use the log-rank statistic with low sensitivity. Survivors has the following features:
Continuous Predictions: The timeline is user-friendly and only needs to be set at the prediction stage.
Modified Quality Metrics: Existing metrics are excessively sensitive to data features, such as class imbalance, event distribution, and timeline.
Weighted Survival Tree. For the first time, CRAID uses weighted log-rank criteria. Wilcoxon, Peto, and Tarone-Ware weights increase the significance of events within a certain time interval.
Speed of work. The models are developed from scratch and utilize parallelization, vectorization, and JIT compilation. A new histogram-based method is employed to identify splits in censored data. This method optimizes memory usage and has a high level of operation speed.
Ease of Use. CRAID and ensembles work out-of-the-box. Categorical and missing data are processed within the models.
A Platform for Experiments. The experiments module provides a flexible interface for working with built-in and external survival models, their hyperparameters, and experiment strategies, such as hold-out, cross-validation, grid search with cross-validation and sampling, and time-aware cross-validation.
Installation
Requirements
Python (>= 3.9)
NumPy (>= 1.22)
Pandas (>=0.25)
Numba (>= 0.58.0)
matplotlib (>= 3.5.0)
seaborn
graphviz (>= 2.50.0)
joblib
scikit-learn (>= 1.0.2)
openpyxl
Optional for comprehensive experiments:
lifelines (>= 0.27.8)
scikit-survival (>= 0.17.2)
User Installation
The most convenient and fastest way to install a package is to directly download the library from the Python package catalog (Python Package Index, PyPI). The version of the source files in the directory is up-to-date and consistent with the GitHub repository:
pip install survivors
An alternative installation method is based on the use of source files. The first step is to download the source files using Github:
git clone command https://github.com/iuliivasilev/dev-survivors.git
Or getting and unpacking the archive of the latest published version. Next, use the command line to go to the dev-survivors directory. Finally, the manual installation of the library is completed after executing the following command:
python command setup.py install
Examples
The user guides in the doc and demonstration directories provide detailed information on the key concepts for survivors. They also include hands-on examples in the form of Jupyter notebooks. In particular, the library allows users to carry out a range of scenarios.
Loading and preparing 9 open medical datasets: GBSG, PBC, SMARTO, SUPPORT2, WUHAN, ACTG, FLCHAIN, ROTT2, FRAMINGHAM.
Fitting Survival Analysis Models: There are the following models available: a Decision Tree (CRAID), a Bootstrap Ensemble (BootstrapCRAID), and an Adaptive Boosting Ensemble (BoostingCRAID). Each model has a wide range of hyperparameters, providing flexibility for the model.
Predict the probability and timing of the event. Forecasts can help users solve the problem of classifying or ranking new patients based on the expected severity of their disease.
Predict the individual survival functions and cumulative hazards of patients. Forecasts can be used to support medical decisions and adjust treatments.
Visualizing and interpreting dependencies in data.
Help and Support
Communication
Email: iuliivasilev@gmail.com
Citation
If you use survivors in a scientific publication, we would appreciate citations:
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