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Diffstat (limited to 'README.md')
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@@ -22,7 +22,8 @@ POT provides the following generic OT solvers (links to examples): * [Conditional gradient](https://pythonot.github.io/auto_examples/plot_optim_OTreg.html) [6] and [Generalized conditional gradient](https://pythonot.github.io/auto_examples/plot_optim_OTreg.html) for regularized OT [7]. * Entropic regularization OT solver with [Sinkhorn Knopp Algorithm](https://pythonot.github.io/auto_examples/plot_OT_1D.html) [2] , stabilized version [9] [10] [34], greedy Sinkhorn [22] and [Screening Sinkhorn [26] ](https://pythonot.github.io/auto_examples/plot_screenkhorn_1D.html). * Bregman projections for [Wasserstein barycenter](https://pythonot.github.io/auto_examples/barycenters/plot_barycenter_lp_vs_entropic.html) [3], [convolutional barycenter](https://pythonot.github.io/auto_examples/barycenters/plot_convolutional_barycenter.html) [21] and unmixing [4]. -* Sinkhorn divergence [23] and entropic regularization OT from empirical data. +* Sinkhorn divergence [23] and entropic regularization OT from empirical data. +* Debiased Sinkhorn barycenters [Sinkhorn divergence barycenter](https://pythonot.github.io/auto_examples/barycenters/plot_debiased_barycenter.html) [37] * [Smooth optimal transport solvers](https://pythonot.github.io/auto_examples/plot_OT_1D_smooth.html) (dual and semi-dual) for KL and squared L2 regularizations [17]. * Non regularized [Wasserstein barycenters [16] ](https://pythonot.github.io/auto_examples/barycenters/plot_barycenter_lp_vs_entropic.html)) with LP solver (only small scale). * [Gromov-Wasserstein distances](https://pythonot.github.io/auto_examples/gromov/plot_gromov.html) and [GW barycenters](https://pythonot.github.io/auto_examples/gromov/plot_gromov_barycenter.html) (exact [13] and regularized [12]) @@ -188,7 +189,7 @@ The contributors to this library are * [Kilian Fatras](https://kilianfatras.github.io/) (Stochastic solvers) * [Alain Rakotomamonjy](https://sites.google.com/site/alainrakotomamonjy/home) * [Vayer Titouan](https://tvayer.github.io/) (Gromov-Wasserstein -, Fused-Gromov-Wasserstein) -* [Hicham Janati](https://hichamjanati.github.io/) (Unbalanced OT) +* [Hicham Janati](https://hichamjanati.github.io/) (Unbalanced OT, Debiased barycenters) * [Romain Tavenard](https://rtavenar.github.io/) (1d Wasserstein) * [Mokhtar Z. Alaya](http://mzalaya.github.io/) (Screenkhorn) * [Ievgen Redko](https://ievred.github.io/) (Laplacian DA, JCPOT) @@ -293,3 +294,6 @@ You can also post bug reports and feature requests in Github issues. Make sure t (2019, May). [Sliced-Wasserstein flows: Nonparametric generative modeling via optimal transport and diffusions](http://proceedings.mlr.press/v97/liutkus19a/liutkus19a.pdf). In International Conference on Machine Learning (pp. 4104-4113). PMLR. + +[37] Janati, H., Cuturi, M., Gramfort, A. Proceedings of the 37th International +Conference on Machine Learning, PMLR 119:4692-4701, 2020
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