Performance Analysis of Analog IF Over Fiber Fronthaul Link With 4G and 5G Coexistence

Delmade, Amol; Browning, Colm; Farhang, Arman; Marchetti, Nicola; Doyle, Linda; Koilpillai, R. David; Barry, Liam P.; Venkitesh, Deepa

doi:10.1364/jocn.10.000174

Cited by 45 publications

(25 citation statements)

References 19 publications

(38 reference statements)

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“…In this context, IFoF has emerged as a more appealing A-RoF technique that allows transportation of multiple aggregated IF bands, modulated by cost-effective, low-bandwidth linear EMLs [24]. In IFoF, the signals are transmitted via a fiber in different IFs and the up-conversion at the mm-wave band takes place just before the wireless transmission.…”

Section: Key Technologies For Analog-radio-over-fiber (A-rof) Fronthamentioning

confidence: 99%

“…While D-RoF technology tries to overcome the bandwidth explosion with a network layer approach, analog-radio-over-fiber (A-RoF) fronthaul solutions focusing on the physical-layer have been recently proposed in order to further improve the optical spectrum efficiency by the transmission of native analog waveforms over the fiber [22,23]. Towards bringing A-RoF fronthaul networks into realization, research efforts have been currently directed in the development of some key-enabling technologies comprising the use of: intermediate frequency (IF) channel aggregation [24,25], orthogonal frequency division multiplexing (OFDM) waveforms [26], wavelength division multiplexing (WDM) [27] and photonic integrated circuits (PICs) [28].…”

Section: Introductionmentioning

confidence: 99%

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A 5G C-RAN Optical Fronthaul Architecture for Hotspot Areas Using OFDM-Based Analog IFoF Waveforms

et al. 2019

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Analog fronthauling is currently promoted as a bandwidth and energy-efficient solution that can meet the requirements of the Fifth Generation (5G) vision for low latency, high data rates and energy efficiency. In this paper, we propose an analog optical fronthaul 5G architecture, fully aligned with the emerging Centralized-Radio Access Network (C-RAN) concept. The proposed architecture exploits the wavelength division multiplexing (WDM) technique and multicarrier intermediate-frequency-over-fiber (IFoF) signal generation per wavelength in order to satisfy the demanding needs of hotspot areas. Particularly, the fronthaul link employs photonic integrated circuit (PIC)-based WDM optical transmitters (Txs) at the baseband unit (BBU), while novel reconfigurable optical add-drop multiplexers (ROADMs) cascaded in an optical bus are used at the remote radio head (RRH) site, to facilitate reconfigurable wavelength switching functionalities up to 4 wavelengths. An aggregate capacity of 96 Gb/s has been reported by exploiting two WDM links carrying multi-IF band orthogonal frequency division multiplexing (OFDM) signals at a baud rate of 0.5 Gbd with sub-carrier (SC) modulation of 64-QAM. All signals exhibited error vector magnitude (EVM) values within the acceptable 3rd Generation Partnership Project (3GPP) limits of 8%. The longest reach to place the BBU away from the hotspot was also investigated, revealing acceptable EVM performance for fiber lengths up to 4.8 km.

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Section: Key Technologies For Analog-radio-over-fiber (A-rof) Fronthamentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A 5G C-RAN Optical Fronthaul Architecture for Hotspot Areas Using OFDM-Based Analog IFoF Waveforms

et al. 2019

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“…To that end, Analog-Radio-over-Fiber (A-RoF) technology has received increased attention from the research community mainly by virtue of its capability to meet both the centralization and high fronthaul capacity needs [5][6][7][8]. This is achieved by placing all main hardware, i.e., sampling and digital-to-analog conversion components, within the BBU, hence significantly simplifying the RRHs compared to Digital-Radio-over-Fiber (D-RoF) technology [9].…”

Section: Introductionmentioning

confidence: 99%

A Gated Service MAC Protocol for 5G Fiber-Wireless Cloud-Radio Access Networks

Mesοdiakaki¹,

Maniotis²,

Kalfas³

et al. 2020

Optical Network Design and Modeling

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A. Mesodiakaki 1[0000−0001−9309−0524] , P. Maniotis 1 , G.Abstract. Next generation, i.e., fifth generation (5G), networks will leverage both fiber and wireless (FiWi) technology to meet the challenging 5G traffic demands. Moreover, a Cloud-Radio Access Network (C-RAN) architecture will be mainly adopted, which places the BaseBand Units (BBUs) at centralized locations, thus offering cost-efficient energy supply and climate control. To this end, efficient Medium Transparent-Medium Access Control (MT-MAC) protocols are needed to ensure the optimal exploitation of both media. In this paper, we propose a gated service MT-MAC protocol (gMT-MAC) for Millimeter Wave (mmWave) Analog Radio-over-Fiber (A-RoF) C-RANs. GMT-MAC grants a transmission window to each user equal to the time needed for its requested traffic to be successfully sent. A mean packet delay model is also proposed and verified by means of simulation. The performance of gMT-MAC is evaluated for different network load conditions, number of Remote Radio Heads (RRHs) and optical availability values. The provided results prove the suitability of gMT-MAC to meet the sub-ms delay requirements of latency-critical 5G services.Keywords: Fifth Generation (5G) networks · mean packet delay model · fiber-wireless (FiWi) · millimeter wave (mmWave) · cloud-radio access networks (C-RANs) · analog radio-over-fiber (A-RoF) · medium transparent-MAC (MT-MAC).

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“…Tal aplicabilidade permite explorar a infraestruturaóptica existente, bem como sua capilaridade, para criar uma rede banda larga de distribuição de RF. O estado da arte inclui a distribuição de ondas milimétricas e formas de onda potenciais para 5G [18][19][20], bem como enlaces analógicos de RoF para C-RAN [21,22], assistidos inclusive por processamento digital de sinais [23]. As arquiteturas correlacionadas vêm sendo implementadas utilizando variadas técnicas e componentes, como por exemplo, modulação direta e externa de laser (LD), moduladores eletroópticos de braçoúnico e de fase e quadratura, fotodetectores do tipo PIN (P-Intrinsic-N) e avalanche.…”

Section: Introductionunclassified

“…O objetivoé usar pré-distorção digital (DPD -digital pre-dirtortion) e equalização como soluções para reduzir o EVM RMS obtido na recepção, especialmente em 26 GHz. A principal contribuição em relação ao estado da arte [18][19][20][21][22][23][24][25] refere-se ao emprego conjunto de processamento digital de sinais (DSP -digital signal processing) e DD-MZM na implementação do sistema fibra/rádio para aplicações 5G. Contribuições adicionais em relação a [24,25] referem-seà investigação de ordens superiores de modulação e diferentes larguras de faixa, bem comoà demonstração de vazão igual a 4 Gbit/s e EVM RMS de 4,6% na femtocélula com 10 m de alcance.…”

Section: Introductionunclassified

Sistema fibra/rádio com vazão de Gbit/s para aplicações 5G

Borges¹,

Pereira²,

Marins³

et al. 2019

Anais De XXXVII Simpósio Brasileiro De Telecomunicações E Processamento De Sinais

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Resumo-Este trabalho apresenta a implementação e análise de desempenho de um sistema fibra/rádio para comunicações sem fio de quinta geração (5G). Tal sistema inclui uma rede de distribuição baseada na tecnologia rádio sobre fibra, uma supercélula na banda de 700 MHz, e uma femtocélula na banda de 26 GHz. Pré-distorção digital e equalização foram utilizadas para reduzir o parâmetro de desempenho error vector magnitude (EVM), principalmente para 26 GHz. Resultados experimentais demonstram vazão de até 4 Gbit/s e EVM RMS de 4,6% na femtocélula comárea de cobertura de 10 m, destinada a aplicações banda larga de curto alcance. Palavras-Chave-5G; fotônica de microondas; sistema fibra/rádio.

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Performance Analysis of Analog IF Over Fiber Fronthaul Link With 4G and 5G Coexistence

Cited by 45 publications

References 19 publications

A 5G C-RAN Optical Fronthaul Architecture for Hotspot Areas Using OFDM-Based Analog IFoF Waveforms

A 5G C-RAN Optical Fronthaul Architecture for Hotspot Areas Using OFDM-Based Analog IFoF Waveforms

A Gated Service MAC Protocol for 5G Fiber-Wireless Cloud-Radio Access Networks

Sistema fibra/rádio com vazão de Gbit/s para aplicações 5G

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