Adaptive Discrete Rate and Power Transmission for Spectrum Sharing Systems Academic Article

abstract

• In this paper we develop a framework for optimizing the performance of the secondary link in terms of the average spectral efficiency assuming quantized channel state information (CSI) of the secondary and the secondary-to-primary interference channels available at the secondary transmitter. We consider the problem under the constraints of maximum average interference power levels at the primary receiver. We develop a sub-optimal computationally efficient iterative algorithm for finding the optimal CSI quantizers as well as the discrete power and rate employed at the cognitive transmitter for each quantized CSI level so as to maximize the average spectral efficiency. We show via analysis and simulations that the proposed algorithm converges for Rayleigh fading channels. Our numerical results give the number of bits required to sufficiently represent the CSI to achieve almost the maximum average spectral efficiency attained using full knowledge of the CSI. 2012 IEEE.

authors

• Qaraqe, Khalid

published proceedings

• IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS

author list (cited authors)

• Abdallah, M. M., Salem, A. H., Alouini, M., & Qaraqe, K. A.

citation count

• 15

complete list of authors

• Abdallah, Mohamed M||Salem, Ahmed H||Alouini, Mohamed-Slim||Qaraqe, Khalid A

publication date

• April 2012

publisher

• Institute of Electrical and Electronics Engineers (IEEE)  Publisher

published in

• IEEE Transactions on Wireless Communications  Journal

keywords

• Adaptive Transmission
• Limited Feedback
• Quantized Channel State Information
• Spectral Efficiency
• Spectrum Sharing System

Digital Object Identifier (DOI)

• 10.1109/TWC.2012.030512.111035

start page

• 1283

end page

• 1289

volume

• 11

issue

• 4

URL

• http://dx.doi.org/10.1109/twc.2012.030512.111035

user-defined tag

• 7 Affordable and Clean Energy