Learn More
In this paper, we study interference-efficient topology control for wireless ad hoc networks. A node is interfered by a communication link if it receives a transmission not intended for it. In this study, we account for the number of communication links contributing interference to each node in the generated topology, defined as the interference load of a(More)
—In this paper, we study interference-efficient topology control for wireless ad hoc networks. A node is interfered by a communication link if it receives a transmission not intended for it. In this study, we account for the number of communication links contributing interference to each node in the generated topology, defined as interference load of a(More)
interaction between MAC protocols and interference in wireless multi-hop networks introduces extra constraints on achievable flow rates. In this paper, we formulate an optimization problem which considers jointly interference at the physical layer, MAC protocols, and end-to-end flow rate allocation. We then propose an interference-aware flow allocation(More)
In this paper, we provide service differentiation with interference consideration for traffic of different priorities in multi-hop wireless networks. Specifically, we propose a framework to support different service levels in terms of queuing delays at each intermediate path node for concurrent sessions of different priorities. We formulate an(More)