# -*- coding: utf-8 -*- """ ========================================== Optimal transport with factored couplings ========================================== Illustration of the factored coupling OT between 2D empirical distributions """ # Author: Remi Flamary # # License: MIT License # sphinx_gallery_thumbnail_number = 2 import numpy as np import matplotlib.pylab as pl import ot import ot.plot # %% # Generate data an plot it # ------------------------ # parameters and data generation np.random.seed(42) n = 100 # nb samples xs = np.random.rand(n, 2) - 0.5 xs = xs + np.sign(xs) xt = np.random.rand(n, 2) - 0.5 a, b = ot.unif(n), ot.unif(n) # uniform distribution on samples # %% plot samples pl.figure(1) pl.plot(xs[:, 0], xs[:, 1], "+b", label="Source samples") pl.plot(xt[:, 0], xt[:, 1], "xr", label="Target samples") pl.legend(loc=0) pl.title("Source and target distributions") # %% # Compute Factored OT and exact OT solutions # ------------------------------------------ # %% EMD M = ot.dist(xs, xt) G0 = ot.emd(a, b, M) # %% factored OT OT Ga, Gb, xb = ot.factored_optimal_transport(xs, xt, a, b, r=4) # %% # Plot factored OT and exact OT solutions # --------------------------------------- pl.figure(2, (14, 4)) pl.subplot(1, 3, 1) ot.plot.plot2D_samples_mat(xs, xt, G0, c=[0.2, 0.2, 0.2], alpha=0.1) pl.plot(xs[:, 0], xs[:, 1], "+b", label="Source samples") pl.plot(xt[:, 0], xt[:, 1], "xr", label="Target samples") pl.title("Exact OT with samples") pl.subplot(1, 3, 2) ot.plot.plot2D_samples_mat(xs, xb, Ga, c=[0.6, 0.6, 0.9], alpha=0.5) ot.plot.plot2D_samples_mat(xb, xt, Gb, c=[0.9, 0.6, 0.6], alpha=0.5) pl.plot(xs[:, 0], xs[:, 1], "+b", label="Source samples") pl.plot(xt[:, 0], xt[:, 1], "xr", label="Target samples") pl.plot(xb[:, 0], xb[:, 1], "og", label="Template samples") pl.title("Factored OT with template samples") pl.subplot(1, 3, 3) ot.plot.plot2D_samples_mat(xs, xt, Ga.dot(Gb), c=[0.2, 0.2, 0.2], alpha=0.1) pl.plot(xs[:, 0], xs[:, 1], "+b", label="Source samples") pl.plot(xt[:, 0], xt[:, 1], "xr", label="Target samples") pl.title("Factored OT low rank OT plan")