Distributed Scheduling in MIMO Empowered Cognitive Radio Ad Hoc Networks

Two fast growing technologies, MIMO and cognitive radio (CR), can both effectively combat the transmission Interference to increase the network throughput. MIMO exploits spatial degree of freedom (DoF) through spatial multiplexing and interference cancelation within the same frequency channel, while CR exploits all available frequency channels for transmissions. We consider an ad hoc network where each node is equipped with an array of cognitive radios. A radio can tune to a different channel and transmit independently, or form MIMO array and transmit together with other radios on the same channel using MIMO. Additionally, different frequency and spatial channels could have different conditions. It is beneficial and also highly challenging for nodes to distributively coordinate in selecting a transmission channel and/or a spatial DoF taking advantage of this unprecedented flexibility and diversity of channels for a higher network performance. In this work, we mathematically model the opportunities and constraints for such a network with the objective of maximizing the weighted network throughput. We propose a centralized algorithm as our comparison benchmark, and a distributed algorithm to flexibly assign spectrum channel or spatial DoF exploiting the multiuser diversity, channel diversity and spatial diversity for a higher performance in a practical network.