Title :
Energy Efficiency of Adaptive Transmission for MIMO-OFDM Systems over Polarization-Sensitive Channels
Author :
Jun Chen ; Pratt, Thomas
Author_Institution :
Dept. of Electr. Eng., Univ. of Notre Dame, Notre Dame, IN, USA
Abstract :
The employ an adaptive space-polarization MIMO test bed to investigate the energy efficiency of different adaptive precoded MIMO architectures, including co-polarized MIMO (CP-MIMO), dual-polarized MIMO (DP-MIMO), and space-polarization MIMO (SP-MIMO) architectures. The analysis quantifies the relative energy efficiencies and achievable rates when precoding is used. The performance is investigated over different polarization-sensitive channels and includes the impact of packet erasures. The adaptive precoding analysis relies on accurate and repeatable physical channel realizations from the test bed, which demands sophisticated hardware and test bed calibration procedures. Examples results from the test bed are presented, illustrating the relative energy efficiencies among the different MIMO architectures.
Keywords :
MIMO communication; OFDM modulation; adaptive codes; calibration; channel coding; energy conservation; precoding; wireless channels; CP-MIMO architecture; DP-MIMO architecture; MIMO-OFDM system; SP-MIMO architecture; adaptive precoded MIMO architecture; adaptive space-polarization MIMO testbed; adaptive transmission; calibration; copolarized MIMO architecture; dual-polarized MIMO architecture; energy efficiency; packet erasure; physical channel realization; polarization-sensitive channel; space-polarization MIMO architecture; Antennas; Correlation; Gain; MIMO; Niobium; OFDM; Signal to noise ratio; Dual-polarized; Energy efficiency; MIMO; adaptive trasnmission; precoding;
Conference_Titel :
Wireless Research Collaboration Symposium (NWRCS), 2014 National
Conference_Location :
Idaho Falls, ID
DOI :
10.1109/NWRCS.2014.28
