Search
Close this search box.

Mota J.F.C., Xavier J.M.F., Aguiar P.M.Q., Puschel M.

IEEE Transactions on Signal Processing
2012

pp 1942

-
1956

Abstract:

We propose a distributed algorithm for solving the optimization problem Basis Pursuit (BP). BP finds the least ℓ 1 -norm solution of the underdetermined linear system Ax = b and is used, for example, in compressed sensing for reconstruction. Our algorithm solves BP on a distributed platform such as a sensor network, and is designed to minimize the communication between nodes. The algorithm only requires the network to be connected, has no notion of a central processing node, and no node has access to the entire matrix A at any time. We consider two scenarios in which either the columns or the rows of A are distributed among the compute nodes. Our algorithm, named D-ADMM, is a decentralized implementation of the alternating direction method of multi- pliers. We show through numerical simulation that our algorithm requires considerably less communications between the nodes than the state-of-the-art algorithms.