= Design of a Cooperative OFDM Transceiver = 
2009 Asilomar Conference of Signals, Systems, and Computers

Authors: Patrick Murphy, Christopher Hunter, and Ashutosh Sabharwal

== Abstract ==
We present the FPGA implementation of a MIMO and cooperative OFDM physical layer transceiver. Our transceiver is designed to support multiple antenna configurations, including SISO (single-antenna), receive switching diversity, transmit diversity using Alamouti's space-time block code and 2x2 spatial multiplexing. It also supports a fully-distributed physical layer cooperation scheme which allows two nodes to simultaneously transmit a common payload, achieving spatial diversity with only single-antenna transmissions. Our transceiver supports the common cooperative scheme of amplify-and-forward and provides a flexible interface for higher layers to enable cooperation as needed. The transceiver is implemented as a single FPGA core with a common datapath for all modes. This allows both efficient resource reuse between modes and a per-packet selection of antenna mode. This flexibility enables a wide variety of MIMO and cooperative protocols. We present architectural details of the cooperative transceiver design and early performance results using Rice University's Wireless Open-Access Research Platform (WARP).

== Paper ==
[attachment:wiki:Asilomar2009_CooperativeOFDM/Files:Rice_CooperativeOFDM.pdf?format=raw Design of a Cooperative OFDM Transceiver] (PDF 500KB)

== Citation ==
{{{
@inproceedings{Murphy:2009,
	Author = {P. Murphy and C. Hunter and A. Sabharwal},
	Booktitle = {Proc. 2009 Asilomar Conference on Signals and Systems},
	Title = {Design of a Cooperative OFDM Transceiver},
	Year = {2009}}
}}}