Enhanced OFDM for fragmented spectrum use in 5G systems

Loulou, AlaaEddin; Renfors, Markku

doi:10.1002/ett.2898

Cited by 18 publications

(18 citation statements)

References 43 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…A short transition can be used in the inner subcarriers without compromising spectrum leakage characteristics. A well-designed edge windowing scheme provides suppression performance very close to conventional time domain windowing, which uses the same transition length in all subcarriers [3], [12]. The benefit of edge windowing is that longer cyclic prefix (CP) can be used in the inner subcarriers.…”

Section: Edge Windowing Overviewmentioning

confidence: 97%

Effective schemes for OFDM sidelobe control in fragmented spectrum use

Loulou

Renfors

2013

2013 IEEE 24th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC)

Self Cite

View full text Add to dashboard Cite

OFDM as multicarrier scheme provides adaptive functionality that is required to implement waveform processing for cognitive radio, dynamic spectrum use and fragmented coexistence scenarios. However, OFDM faces some difficulties due to the relatively strong sidelobes around the active sub carriers, which introduces interference effects between adjacent frequency slots intended to be used independently in non-synchronized way. In this paper we consider edge windowing and cancellation carrier approaches for controlling the spectrum leakage in a practicadl 5 MHz 3GPP LTE scenario. The focus is on minimizing the OFDM signal leakage to narrow unused gaps in the used frequency band, using low-complexity algorithms and minimized overheads in terms of power and spectral efficiency. We develop a simplified version of the cancellation carrier scheme which is suitable for non-contiguous sub carrier allocation in OFDM. It is shown that with relatively narrow unused gaps in the spectrum, it is possible to reach good level of sidelobe suppression with significantly reduced computational complexity.

show abstract

Section: Edge Windowing Overviewmentioning

confidence: 97%

Effective schemes for OFDM sidelobe control in fragmented spectrum use

Loulou

Renfors

2013

2013 IEEE 24th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC)

Self Cite

View full text Add to dashboard Cite

show abstract

“…Bogucka et al [7] have introduced a mechanism of aggregating spectrums of dynamic nature in 5G. Loulou and Renfors [8] have presented a study where a comparative analysis of existing suppression techniques and to overcome the spectral sidelobes of high power in OFDM. Lin et al [9] have used MachZehnder modulator for processing incoming signal into double sideband using experimental approach.…”

Section: ) Orthogonal Frequency Division Multiplexing (Ofdm)mentioning

confidence: 99%

Studying Applicability Feasibility of OFDM in Upcoming 5G Network

K.P¹,

N²

2017

ijacsa

View full text Add to dashboard Cite

Abstract-Orthogonalfrequency-division multiplexing (OFDM) is one of unbeatable multiplexing technique till date. However with increasing version of next generation mobile standards like 5G, the applicability of OFDM is quite questionable. The prime reason behind this is in order to offer higher data rates and extensive networking services in 5G, OFDM will be required to overcome some inherent problems of spectral leakage, power consumption, less supportability of increased channel capacity. The reason community still believes that there is positive scope of OFDM to be applicable in 5G network provided it undergoes certain changes. This paper reviews some of the complimentary waveforms that have been theoretically proven to be adding edge to OFDM system. The paper reviews different waveforms as well as multiple access techniques to be used in designing 5G technology and assess their effectiveness in viewpoint of research applicability and effectiveness towards leveraging 5G.

show abstract

“…드 로브를 갖고 있어 5G에서 요구되는 분산 스펙트럼 환 경에 부적합하다 [1] . 또한 주파수 옵셋에 의한 ICI(Inter Carrier Interference)에 취약 하다는 단점이 있는데 이것 은 기존의 4G LTE와 같은 엄격하게 동기를 맞추어 지는 시스템에는 적합하나 5G에서 요구되는 비동기적인 통신 방식에는 맞지 않는다 [2] .…”

Section: 을 갖고 있다 이것은 시간영역에서는 제한된 심볼 길이 로 전송할 수 있지만 주파수 영역에서는 큰 크기의 사이unclassified

Performance Evaluation for Speed of Mobile Devices in UFMC Systems

Lee¹,

Choi²

2017

JIIBC

View full text Add to dashboard Cite

UFMC is known as the one among novel multi-carrier modulation techniques which are designed for replacing OFDM for 5G wireless communication systems. It is the generalized model of OFDM and FBMC, which combines the advantages of OFDM and FBMC and avoids their weak points. UFMC is more robust in synchronization condition like Time-frequency misalignment compared to CP-OFDM. Moreover UFMC is more proper to burst uplink transmission like M2M 5G Communications. In this paper we analyze the BER performance in various channels and speeds. The simulation result shows that the BER performance is lowered when mobile devices are moving fast and the BER performance is so sensitive for the good channel environment.

show abstract

Enhanced OFDM for fragmented spectrum use in 5G systems

Cited by 18 publications

References 43 publications

Effective schemes for OFDM sidelobe control in fragmented spectrum use

Effective schemes for OFDM sidelobe control in fragmented spectrum use

Studying Applicability Feasibility of OFDM in Upcoming 5G Network

Performance Evaluation for Speed of Mobile Devices in UFMC Systems

Contact Info

Product

Resources

About