We consider a three-block alternating direction method of multipliers (ADMM) for solving the nonconvex nonseparable optimization problem with linear constraint. Inspired by [1], the third variable is updated twice in each iteration to ensure the global convergence. Based on the powerful Kurdyka-Lojasiewicz property, we prove that the sequence generated by the ADMM converges globally to the critical point of the augmented Lagrangian function. We also point out the convergence of proposed ADMM with swapping the update order of the first and second variables, and with adding a proximal term to the first variable for more general nonseparable problems, respectively. Moreover, we make numerical experiments on three nonconvex problems: multiple measurement vector (MMV), robust PCA (RPCA) and nonnegative matrix completion (NMC). The results show the efficiency and outperformance of proposed ADMM.
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