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Robust-PCA

A Python implementation of R-PCA using principle component pursuit by alternating directions. The theory and implementation of the algorithm is described here: https://arxiv.org/pdf/0912.3599.pdf (doi > 10.1145/1970392.1970395)

# generate low rank synthetic data
N = 100
num_groups = 3
num_values_per_group = 40
p_missing = 0.2

Ds = []
for k in range(num_groups):
    d = np.ones((N, num_values_per_group)) * (k + 1) * 10
    Ds.append(d)

D = np.hstack(Ds)

# decimate 20% of data 
n1, n2 = D.shape
S = np.random.rand(n1, n2)
D[S < 0.2] = 0

# use R_pca to estimate the degraded data as L + S, where L is low rank, and S is sparse
rpca = R_pca(D)
L, S = rpca.fit(max_iter=10000, iter_print=100)

# visually inspect results (requires matplotlib)
rpca.plot_fit()
plt.show()