Space-Time Coding
A unified MAC layer framework for ad-hoc networks with smart antennas
Proceedings of the 5th ACM international symposium on Mobile ad hoc networking and computing
Fundamentals of wireless communication
Fundamentals of wireless communication
DSMA: an access method for MIMO ad hoc networks based on distributed scheduling
Proceedings of the 2006 international conference on Wireless communications and mobile computing
Cross-layer issues in MAC protocol design for MIMO ad hoc networks
IEEE Wireless Communications
An overview of scheduling algorithms in MIMO-based fourth-generation wireless systems
IEEE Network: The Magazine of Global Internetworking
A tractable and accurate cross-layer model for multi-hop MIMO networks
INFOCOM'10 Proceedings of the 29th conference on Information communications
Topology control for effective interference cancellation in multi-user MIMO networks
INFOCOM'10 Proceedings of the 29th conference on Information communications
MIMO-aware routing in wireless mesh networks
INFOCOM'10 Proceedings of the 29th conference on Information communications
Contrabass: concurrent transmissions without coordination
Proceedings of the ACM SIGCOMM 2010 conference
Opportunistic and cooperative spatial multiplexing in MIMO ad hoc networks
IEEE/ACM Transactions on Networking (TON)
Cross-layer optimization for wireless mesh networks with smart antennas
Computer Communications
Topology control for effective interference cancellation in multiuser MIMO networks
IEEE/ACM Transactions on Networking (TON)
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It is important and challenging to develop efficient schemes to coordinate node transmissions in a MIMO-based ad hoc network. In this work, we propose a scheme to fully exploit the multiuser diversity and spatial diversity by taking advantage of the meshed topology, while also supporting user transmission quality requirement. We formulate a concrete physical model, and present cross-layer algorithms which take advantage of physical layer channel information to opportunistically schedule cooperative spatial multiplexed transmissions between nodes, so that the data rate of the network can be maximized. The performance of our algorithm is studied by extensive simulations and the results demonstrate that our algorithm is very effective and can significantly increase the throughput while reducing the transmission delay.