OFDM Carrier Synchronization Based on Time-Domain Channel Estimates
IEEE Transactions on Wireless Communications(2008)
Abstract
Carrier frequency synchronization is critical to the quality of signal reception in OFDM systems. This paper presents an approximate maximum-likelihood (ML) carrier frequency offset (CFO) estimation scheme based on time-domain channel estimates which retain the CFO information in the form of phase rotation. The proposed ML CFO estimate is investigated under static as well as time-varying fading channels. Statistical properties of the estimator are examined and Cramer-Rao lower bound (CRLB) is derived. Theoretical analysis and numerical simulations show that the proposed CFO estimator renders excellent performance with lower computational complexity. The proposed CFO estimate also has an advantage of allowing for more flexible pilot patterns.
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Key words
index terms—carrier synchronization,carrier frequency,statistical property,time-domain channel estimates,carrier frequency synchronization,ofdm system,time-varying multipath fading channel.,lower computational complexity,approximate maximum-likelihood,time-domain channel estimate,ofdm carrier,proposed cfo,cfo information,proposed ml cfo estimate,maximum likelihood estimate,ofdm,time domain,fading channel,indexing terms,maximum likelihood estimation,computational complexity,numerical simulation,maximum likelihood,synchronization,cramer rao lower bound,ofdm modulation,fading,frequency domain analysis
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