Multicarrier modulation based on discrete cosine transform (DCT-MCM) is a candidate technique for future wireless communication. DCT-MCM provides a better usage of the spectrum, allowing for much lower out-of-band radiation than conventional OFDM. In this paper, we address the problem of correcting the symbol timing offset in DCT-MCM. Two sliding window-based correlation algorithms are proposed. The new approaches consider a prefix and a suffix that are inserted into each data symbol, which are the replica of part of the useful data. The performance of the proposed approaches is verified and tested, and their usefulness and effectiveness are illustrated by computer simulations
A novel code timing synchronization algorithm suitable for multi-carrier DS-CDMA signals is proposed...
AbstractAn algorithm for frequency offset estimation and symbol timing based on correlation matrix w...
Coherent demodulation needs to maintain the symbol timing synchronization and to estimate the channe...
The discrete cosine transform (DCT) based multicarrier modulation (MCM) system is regarded as one of...
The timing sensitivity of the MultiCarrier Modulation (MCM) schemes such as OFDM plays an important ...
Regarded as one of the most promising transmission techniques for future wireless communications, th...
Regarded as one of the most promising transmission techniques for future wireless communications, th...
This paper aims at studying the achievable data rate of discrete cosine transform (DCT)-based multic...
This paper aims at studying the achievable data rate of discrete cosine transform (DCT)-based multic...
Regarded as one of the most promising transmission techniques for future wireless communications, t...
In this paper, we present a novel data-based method for simultaneous Maximum Likelihood (ML) symbol ...
In this paper, we present a novel data-based method for simultaneous Maximum Likelihood (ML) symbol ...
In this paper we analyze the jitter performance of an approximate Decision Directed (DD) Maximum Lik...
© 2016 Elsevier B.V. We present a novel channel estimation technique based on discrete cosine transf...
A computationally simple cross-correlation based approach for improving timing estimation and frame ...
A novel code timing synchronization algorithm suitable for multi-carrier DS-CDMA signals is proposed...
AbstractAn algorithm for frequency offset estimation and symbol timing based on correlation matrix w...
Coherent demodulation needs to maintain the symbol timing synchronization and to estimate the channe...
The discrete cosine transform (DCT) based multicarrier modulation (MCM) system is regarded as one of...
The timing sensitivity of the MultiCarrier Modulation (MCM) schemes such as OFDM plays an important ...
Regarded as one of the most promising transmission techniques for future wireless communications, th...
Regarded as one of the most promising transmission techniques for future wireless communications, th...
This paper aims at studying the achievable data rate of discrete cosine transform (DCT)-based multic...
This paper aims at studying the achievable data rate of discrete cosine transform (DCT)-based multic...
Regarded as one of the most promising transmission techniques for future wireless communications, t...
In this paper, we present a novel data-based method for simultaneous Maximum Likelihood (ML) symbol ...
In this paper, we present a novel data-based method for simultaneous Maximum Likelihood (ML) symbol ...
In this paper we analyze the jitter performance of an approximate Decision Directed (DD) Maximum Lik...
© 2016 Elsevier B.V. We present a novel channel estimation technique based on discrete cosine transf...
A computationally simple cross-correlation based approach for improving timing estimation and frame ...
A novel code timing synchronization algorithm suitable for multi-carrier DS-CDMA signals is proposed...
AbstractAn algorithm for frequency offset estimation and symbol timing based on correlation matrix w...
Coherent demodulation needs to maintain the symbol timing synchronization and to estimate the channe...