A. Viholainen scite author profile

This paper presents a detailed analysis of synchronization methods based on scattered pilots for filter bank based multicarrier (FBMC) communications, taking into account the interplay of the synchronization, channel estimation, and equalization methods. We show that by applying pilots designed specifically for filter banks, the carrier frequency offset (CFO), fractional time delay (FTD), and channel response can be accurately estimated. Further, a novel joint FTD and channel estimation scheme, based on iterative interference cancelation, permits extending the FTD estimation range well beyond the limit imposed by the pilot separation. The channel parameter estimation and compensation are successfully performed totally in the frequency domain, in a subchannel-wise fashion, which is appealing in spectrally agile and cognitive radio scenarios. The performance evaluation is done in a hypothetical WiMAX scenario in which an FBMC system would substitute OFDM maintaining as much physical layer compatibility as possible.

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Efficient Implementation of Complex Modulated Filter Banks Using Cosine and Sine Modulated Filter Banks

Viholainen

Alhava

Renfors

2006

EURASIP J. Adv. Signal Process.

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The recently introduced exponentially modulated filter bank (EMFB) is a 2M-channel uniform, orthogonal, critically sampled, and frequency-selective complex modulated filter bank that satisfies the perfect reconstruction (PR) property if the prototype filter of an M-channel PR cosine modulated filter bank (CMFB) is used. The purpose of this paper is to present various implementation structures for the EMFBs in a unified framework. The key idea is to use cosine and sine modulated filter banks as building blocks and, therefore, polyphase, lattice, and extended lapped transform (ELT) type of implementation solutions are studied. The ELTbased EMFBs are observed to be very competitive with the existing modified discrete Fourier transform filter banks (MDFT-FBs) when comparing the number of multiplications/additions and the structural simplicity. In addition, EMFB provides an alternative channel stacking arrangement that could be more natural in certain subband processing applications and data transmission systems.

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Complex modulated critically sampled filter banks based on cosine and sine modulation

Viholainen

Stitz

Alhava

et al.

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Coefficient quantization in nearly perfect-reconstruction cosine-modulated filter banks

Alhava

Viholainen

2000

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Nearly perfect-reconstruction cosine-modulated filter bank design for VDSL modems

Viholainen

Saramäki²,

Renfors³

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A. Viholainen

Pilot-Based Synchronization and Equalization in Filter Bank Multicarrier Communications

Efficient Implementation of Complex Modulated Filter Banks Using Cosine and Sine Modulated Filter Banks

Complex modulated critically sampled filter banks based on cosine and sine modulation

Coefficient quantization in nearly perfect-reconstruction cosine-modulated filter banks

Nearly perfect-reconstruction cosine-modulated filter bank design for VDSL modems

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