This letter presents the globally optimal data replication in the distributed networks. We propose a distributed approach based on the metropolis-hastings algorithm to achieve the globally optimal data replication without requiring any global information. Experimental results show that the proposed approach works well and the error can be held below 0.6% easily.

A novel routing protocol, named candidate-based routing, for mobile ad hoc networks is presented. Instead of flooding over the whole network, it improves and rebuilds routing paths among a limited number of candidate nodes, which are dynamically elected without incurring or exchanging any additional information. Experimental results show that the proposed protocol performs well in terms of overhead and improvement in route efficiency, especially in the high mobility speed environments.

In this letter we design a new family of space-time block codes (STBC) for multi-input multi-output (MIMO) systems. The complex orthogonal STBC achieves full diversity and full transmission rate with fast maximum-likelihood decoding when only two transmit antennas are employed. By combining the Alamouti STBC and the multidimensional signal constellation rotation based on the cyclotomic number field, we construct cyclotomic orthogonal space-time block codes (COSTBCs) which can achieve full diversity and full rate for multiple transmit antennas. Theoretical analysis and simulation results demonstrate excellent performance of the proposed codes, while the decoding complexity is further reduced.