966 research outputs found
Maximum Throughput of a Cooperative Energy Harvesting Cognitive Radio User
In this paper, we investigate the maximum throughput of a saturated
rechargeable secondary user (SU) sharing the spectrum with a primary user (PU).
The SU harvests energy packets (tokens) from the environment with a certain
harvesting rate. All transmitters are assumed to have data buffers to store the
incoming data packets. In addition to its own traffic buffer, the SU has a
buffer for storing the admitted primary packets for relaying; and a buffer for
storing the energy tokens harvested from the environment. We propose a new
cooperative cognitive relaying protocol that allows the SU to relay a fraction
of the undelivered primary packets. We consider an interference channel model
(or a multipacket reception (MPR) channel model), where concurrent
transmissions can survive from interference with certain probability
characterized by the complement of channel outages. The proposed protocol
exploits the primary queue burstiness and receivers' MPR capability. In
addition, it efficiently expends the secondary energy tokens under the
objective of secondary throughput maximization. Our numerical results show the
benefits of cooperation, receivers' MPR capability, and secondary energy queue
arrival rate on the system performance from a network layer standpoint.Comment: Part of this paper was accepted for publication in PIMRC 201
- …