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Gradient boosting with Kolmogorov-Arnold Network (KAN) learners -- an interpretable alternative to tree-based boosting (XGBoost/LightGBM/CatBoost).

Project description

KANBoost

Gradient boosting with Kolmogorov-Arnold Network (KAN) learners — an interpretable, from-scratch alternative to tree-based boosting frameworks (XGBoost, LightGBM, CatBoost).

Instead of decision trees as weak learners, KANBoost fits a sequence of small, shallow KAN networks to the pseudo-residuals of the previous stage, following the classic Friedman (2001) gradient boosting recipe. Because each KAN edge is a learnable univariate spline rather than an opaque weight, the resulting ensemble exposes per-feature shape functions that are directly inspectable — closer to a Generalized Additive Model than a black box.

Status: early-stage research project. This is not a drop-in replacement for CatBoost/XGBoost in production. See Benchmarks and Honest limitations below before using this for anything important.

Why this exists

As of mid-2026, there is no widely-used, pip-installable library that combines KAN with gradient boosting. A closely related idea was published as GB-KAN (ICAART 2026), but no public code accompanies that paper. KANBoost is an independent, from-scratch open-source implementation of the same general idea, plus:

  • automatic handling of categorical features (smoothed target-mean encoding, done fold-safe), instead of requiring manual one-hot encoding
  • built-in early stopping on a validation set
  • approximate feature importances derived from learned spline coefficients

Install

git clone https://github.com/tuamah/kanboost.git
cd kanboost
pip install -r requirements.txt
pip install -e .

Quickstart

import pandas as pd
from sklearn.model_selection import train_test_split
from kanboost import KANBoostClassifier

df = pd.read_csv("your_data.csv")
X = df.drop(columns=["target"])
y = df["target"].values

X_train, X_val, y_train, y_val = train_test_split(X, y, test_size=0.2)

model = KANBoostClassifier(
    n_estimators=100,
    learning_rate=0.2,
    kan_hidden=4,
    kan_grid=3,
    categorical_cols=["region", "plan_type"],  # optional
    early_stopping_rounds=10,
)
model.fit(X_train, y_train, eval_set=(X_val, y_val))

probs = model.predict_proba(X_val)[:, 1]
importances = model.feature_importances()

Benchmarks

Preliminary results on a real-world telecom churn dataset (100K rows, 10 numeric features used, 8K-row sample for the KANBoost run due to current training-speed limits):

Model Test AUC Notes
CatBoost (tuned, full data, ~100 columns) 0.6992 production baseline
KANBoostClassifier (this repo, 10 features, 8K sample) 0.64 early prototype, untuned
Plain KAN (no boosting) 0.65 single model, same features
Plain MLP 0.59–0.62 same features

Read this table honestly: KANBoost does not yet beat CatBoost on this dataset. The goal of this repo, at this stage, is to establish a working, extensible implementation and an honest baseline — not to claim state-of-the-art results.

Honest limitations

  • Speed: each weak learner is a full KAN forward/backward pass in pure PyTorch. This is currently far slower per-iteration than a histogram-based tree split in XGBoost/CatBoost/LightGBM.
  • Tuning: hyperparameters (kan_grid, kan_hidden, kan_steps, learning_rate) interact in ways that are not yet well understood; expect to need real tuning for your dataset.
  • Categorical encoding is a simple smoothed target-mean encoder, not CatBoost's ordered boosting scheme — it can leak on small folds if not used carefully.
  • Missing values are not yet handled natively; impute before fitting.

Roadmap

See ROADMAP.md for the full project plan, including planned speed optimizations (FastKAN-style RBF basis, torch.compile), symbolic-formula extraction for the full ensemble, and benchmark expansion to standard UCI datasets.

Contributing

Issues and PRs welcome, especially:

  • speed optimizations for the per-iteration KAN fit
  • better categorical encoding
  • benchmark results on additional public datasets

License

MIT — see LICENSE.

Citation / related work

If you use this, please also cite the KAN paper and, where relevant, the GB-KAN paper this project is conceptually closest to:

Liu, Z., Wang, Y., Vaidya, S., et al. (2024). KAN: Kolmogorov-Arnold
Networks. arXiv:2404.19756.

[GB-KAN authors] (2026). Gradient Boosting with Interpretable
Kolmogorov-Arnold Networks. ICAART 2026.

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