Tampere University of Technology

TUTCRIS Research Portal

FBMC Design and Implementation

Research output: Chapter in Book/Report/Conference proceedingChapterProfessional

Standard

FBMC Design and Implementation. / Yli-Kaakinen, Juha; Siohan, Pierre; Renfors, Markku.

Orthogonal Waveforms and Filter Banks for Future Communication Systems. ed. / Markku Renfors; Xavier Mestre; Eleftherios Kofidis; Faouzi Bader. Elsevier Limited, 2017. p. 157-195 Chapter 8.

Research output: Chapter in Book/Report/Conference proceedingChapterProfessional

Harvard

Yli-Kaakinen, J, Siohan, P & Renfors, M 2017, FBMC Design and Implementation. in M Renfors, X Mestre, E Kofidis & F Bader (eds), Orthogonal Waveforms and Filter Banks for Future Communication Systems., Chapter 8, Elsevier Limited, pp. 157-195. https://doi.org/10.1016/B978-0-12-810384-5.00008-6

APA

Yli-Kaakinen, J., Siohan, P., & Renfors, M. (2017). FBMC Design and Implementation. In M. Renfors, X. Mestre, E. Kofidis, & F. Bader (Eds.), Orthogonal Waveforms and Filter Banks for Future Communication Systems (pp. 157-195). [Chapter 8] Elsevier Limited. https://doi.org/10.1016/B978-0-12-810384-5.00008-6

Vancouver

Yli-Kaakinen J, Siohan P, Renfors M. FBMC Design and Implementation. In Renfors M, Mestre X, Kofidis E, Bader F, editors, Orthogonal Waveforms and Filter Banks for Future Communication Systems. Elsevier Limited. 2017. p. 157-195. Chapter 8 https://doi.org/10.1016/B978-0-12-810384-5.00008-6

Author

Yli-Kaakinen, Juha ; Siohan, Pierre ; Renfors, Markku. / FBMC Design and Implementation. Orthogonal Waveforms and Filter Banks for Future Communication Systems. editor / Markku Renfors ; Xavier Mestre ; Eleftherios Kofidis ; Faouzi Bader. Elsevier Limited, 2017. pp. 157-195

Bibtex - Download

@inbook{064939121e08415aa7e25ecd287d591a,
title = "FBMC Design and Implementation",
abstract = "Whereas Chapter 7 introduced the general multicarrier waveform theory and various alternative orthogonal waveforms, the focus in this chapter is on effective practical implementation schemes for the needed filterbanks, with main focus on the FilterBank MultiCarrier with Offset-QAM subcarrier modulation (FBMC/OQAM) case. In the first part, effective modulation-based uniform filterbank structures are used, and the designs are defined by the lowpass prototype filter. Two alternative paths are considered. The first approach starts from continuous-time formulation of the prototype filter responses, which are then discretized. Alternatively, the design problem can be formulated as a lowpass digital filter optimization problem with additional constraints to guarantee the orthogonality of subcarriers. While introducing the effective filterbank structures, the main emphasis is on the polyphase FilterBank (FB) model, but the lattice structure and lapped transform-based structure are briefly introduced as well.",
author = "Juha Yli-Kaakinen and Pierre Siohan and Markku Renfors",
year = "2017",
doi = "10.1016/B978-0-12-810384-5.00008-6",
language = "English",
isbn = "9780128103845",
pages = "157--195",
editor = "Markku Renfors and Xavier Mestre and Eleftherios Kofidis and Faouzi Bader",
booktitle = "Orthogonal Waveforms and Filter Banks for Future Communication Systems",
publisher = "Elsevier Limited",
address = "United Kingdom",

}

RIS (suitable for import to EndNote) - Download

TY - CHAP

T1 - FBMC Design and Implementation

AU - Yli-Kaakinen, Juha

AU - Siohan, Pierre

AU - Renfors, Markku

PY - 2017

Y1 - 2017

N2 - Whereas Chapter 7 introduced the general multicarrier waveform theory and various alternative orthogonal waveforms, the focus in this chapter is on effective practical implementation schemes for the needed filterbanks, with main focus on the FilterBank MultiCarrier with Offset-QAM subcarrier modulation (FBMC/OQAM) case. In the first part, effective modulation-based uniform filterbank structures are used, and the designs are defined by the lowpass prototype filter. Two alternative paths are considered. The first approach starts from continuous-time formulation of the prototype filter responses, which are then discretized. Alternatively, the design problem can be formulated as a lowpass digital filter optimization problem with additional constraints to guarantee the orthogonality of subcarriers. While introducing the effective filterbank structures, the main emphasis is on the polyphase FilterBank (FB) model, but the lattice structure and lapped transform-based structure are briefly introduced as well.

AB - Whereas Chapter 7 introduced the general multicarrier waveform theory and various alternative orthogonal waveforms, the focus in this chapter is on effective practical implementation schemes for the needed filterbanks, with main focus on the FilterBank MultiCarrier with Offset-QAM subcarrier modulation (FBMC/OQAM) case. In the first part, effective modulation-based uniform filterbank structures are used, and the designs are defined by the lowpass prototype filter. Two alternative paths are considered. The first approach starts from continuous-time formulation of the prototype filter responses, which are then discretized. Alternatively, the design problem can be formulated as a lowpass digital filter optimization problem with additional constraints to guarantee the orthogonality of subcarriers. While introducing the effective filterbank structures, the main emphasis is on the polyphase FilterBank (FB) model, but the lattice structure and lapped transform-based structure are briefly introduced as well.

U2 - 10.1016/B978-0-12-810384-5.00008-6

DO - 10.1016/B978-0-12-810384-5.00008-6

M3 - Chapter

SN - 9780128103845

SP - 157

EP - 195

BT - Orthogonal Waveforms and Filter Banks for Future Communication Systems

A2 - Renfors, Markku

A2 - Mestre, Xavier

A2 - Kofidis, Eleftherios

A2 - Bader, Faouzi

PB - Elsevier Limited

ER -