Abstract:
FlexRadio, a recent breakthrough in wireless Multi-RF technology, has introduced a new way to unify MIMO and full-duplex into a single framework with a fully flexible des...Show MoreMetadata
Abstract:
FlexRadio, a recent breakthrough in wireless Multi-RF technology, has introduced a new way to unify MIMO and full-duplex into a single framework with a fully flexible design. FlexRadio allows a wireless node to use an arbitrary number of RF chains to support transmission and reception, which makes MIMO and full-duplex subset configurations of FlexRadio. This new architecture has greatly changed the feasibility constraint in wireless networks, which makes the design of high performance MAC layer algorithms even more challenging. First, the RF chain becomes a new resource that needs to be allocated across the network, and the optimal configuration depends not only on the network topology and flow demand, but also on the number of available RF chains at each node. Second, it is not clear how to jointly allocate links and RF chain resources based on the arrival rates and queueing dynamics. In this paper, we introduce a new virtual link model to characterize the feasibility constraint from the perspective of contending RF chain usage. Based on this novel model, a distributed CSMA-like framework is developed to fully leverage the flexibility of RF chain resource allocation.
Date of Conference: 29 April 2019 - 02 May 2019
Date Added to IEEE Xplore: 17 June 2019
ISBN Information: