In this paper, a fast-convergence distributed support vector machine (FDSVM) algorithm is proposed, aiming at efficiently solving the problem of distributed SVM training. Rather than exchanging information only amon...In this paper, a fast-convergence distributed support vector machine (FDSVM) algorithm is proposed, aiming at efficiently solving the problem of distributed SVM training. Rather than exchanging information only among immediate neighbor sites, the proposed FDSVM employs a deterministic gossip protocol-based commu nication policy to accelerate diffusing information around the network, in which each site communicates with others in a flooding and iterative manner. This communication policy significantly reduces the total number of iterations, thus further speeding up the convergence of the algorithm. In addition, the proposed algorithm is proved to converge to the global optimum in finite steps over an arbitrary strongly connected network (SCN). Experiments on various benchmark data sets show that the proposed FDSVM consistently outperforms the related state-of-the art approach for most networks, especially in the ring network, in terms of the total training time.展开更多
文摘In this paper, a fast-convergence distributed support vector machine (FDSVM) algorithm is proposed, aiming at efficiently solving the problem of distributed SVM training. Rather than exchanging information only among immediate neighbor sites, the proposed FDSVM employs a deterministic gossip protocol-based commu nication policy to accelerate diffusing information around the network, in which each site communicates with others in a flooding and iterative manner. This communication policy significantly reduces the total number of iterations, thus further speeding up the convergence of the algorithm. In addition, the proposed algorithm is proved to converge to the global optimum in finite steps over an arbitrary strongly connected network (SCN). Experiments on various benchmark data sets show that the proposed FDSVM consistently outperforms the related state-of-the art approach for most networks, especially in the ring network, in terms of the total training time.