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Summary
This summary is machine-generated.

This study introduces a novel algorithm for optimal transport (OT) that improves efficiency and accuracy. By using Nesterov

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Area of Science:

  • Computational mathematics
  • Machine learning
  • Deep learning

Background:

  • Optimal transport (OT) is crucial in machine learning and deep learning but computationally challenging for large-scale problems.
  • Existing methods like the Sinkhorn algorithm offer a trade-off between efficiency and accuracy using entropy regularization.

Purpose of the Study:

  • To develop a novel algorithm that enhances both the efficiency and accuracy of discrete optimal transport computations.
  • To address the limitations of current methods in handling large-scale OT problems.

Main Methods:

  • The proposed algorithm utilizes Nesterov's smoothing technique to approximate the non-smooth c-transform of the Kantorovich potential with the Log-Sum-Exp function.
  • This smoothing transforms the non-smooth Kantorovich dual functional into a smooth one.
  • The smooth functional is then optimized using the fast iterative shrinkage thresholding algorithm (FISTA), a fast proximal gradient method.

Main Results:

  • Theoretically, the new method exhibits a lower computational complexity compared to the Sinkhorn algorithm.
  • Experimentally, the proposed algorithm demonstrates faster convergence and superior accuracy than the Sinkhorn algorithm under identical parameter settings.
  • The method effectively improves the efficiency and accuracy of computing discrete optimal transport.

Conclusions:

  • The novel algorithm based on Nesterov's smoothing and FISTA offers a significant improvement over existing methods for large-scale optimal transport.
  • This approach provides a better balance between computational efficiency and accuracy in optimal transport calculations for machine learning applications.