Joint-Alphabet Space Time Shift Keying in mm-Wave Non-Orthogonal Multiple Access

Botsinis, Panagiotis; Hemadeh, Ibrahim A.; Alanis, Dimitrios; Babar, Zunaira; Nguyen, Hung Viet; Chandra, Daryus; Ng, Soon Xin; El‐Hajjar, Mohammed; Hanzo, Lajos

doi:10.1109/access.2017.2736978

Cited by 11 publications

(9 citation statements)

References 55 publications

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“…Different from [189], the authors derived the lower bound of the spectral efficiency with a closed form, and then designed phase shifters to maximize the derived bound. Botsinis et al [200] Proposed a joint-alphabet STSK for uplink non-orthogonal multiple access MWCs. The proposed scheme achieved a higher capacity than the conventional STSK.…”

Section: Pm-based Mimo-mwcmentioning

confidence: 99%

50 Years of Permutation, Spatial and Index Modulation: From Classic RF to Visible Light Communications and Data Storage

Ishikawa

Sugiura

Hanzo

2018

IEEE Commun. Surv. Tutorials

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163

142

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In this treatise, we provide an interdisciplinary survey on spatial modulation (SM), where multiple-input multipleoutput microwave and visible light, as well as single and multicarrier communications are considered. Specifically, we first review the permutation modulation (PM) concept, which was originally proposed by Slepian in 1965. The PM concept has been applied to a wide range of applications, including wired and wireless communications and data storage. By introducing a three-dimensional signal representation, which consists of spatial, temporal and frequency axes, the hybrid PM concept is shown to be equivalent to the recently proposed SM family. In contrast to other survey papers, this treatise aims for celebrating the hitherto overlooked studies, including papers and patents that date back to the 1960s, before the invention of SM. We also provide simulation results that demonstrate the pros and cons of PMaided low-complexity schemes over conventional multiplexing schemes.

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Section: Pm-based Mimo-mwcmentioning

confidence: 99%

50 Years of Permutation, Spatial and Index Modulation: From Classic RF to Visible Light Communications and Data Storage

Ishikawa

Sugiura

Hanzo

2018

IEEE Commun. Surv. Tutorials

Self Cite

163

142

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“…Cluster based TAS-NOMA [162 -163] AIA-AS|A 3 -AS [164] NOMA-SSK [165 -166] NOMA-GSSK [167] PD-NOMA-SSK [168] NOMA-HARQ [169] NOMA-BF [172 -173] R-BF-NOMA [174] ZFBF-NOMA [175] Robust-NOMA [176 -178] C-BF-NOMA [179] BD-NOMA [180] VP-NOMA [181] NOMA-MRT [182] NOMA-SM [183] SA-NOMA [184] H-NOMA [185] PH-NOMA [186] QR-NOMA [187] SBD-NOMA [188] DIYA-NOMA [98] WPCN-NOMA [151 -153] D : FD H : BC K : Cell Free mMIMO [197 -204] JPCUA-FD-NOMA [105] C-SWIPT-FD-NOMA [106] BAHyNOMA [107] EC-FD-NOMA [108] FD-C-NOMA [109] BAC-NOMA [155] BC-NOMA [156] BBCN-NOMA [157] RA-NOMA [158] Cognitive-NOMA [159] Hybrid-NOMA [160] JA-STSK-NOMA [251] S : THz Comm THz-NOMA [255 -256] THz-MIMO-NOMA [257 -259] C-THz MIMO-NOMA [260] V : UWAC IRS-mmWave-NOMA [288 -289] ANFDR-NOMA [305 -306] AN-MISO-NOMA [307] AN-MIMO-NOMA [308] CDH-NOMA [309] NOMA-HB-AN [310] JA-NOMA [311 -312] HMA…”

Section: Beamforming Basedmentioning

confidence: 99%

A Systematic Review on NOMA Variants for 5G and Beyond

et al. 2021

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Over the last few years, interference has been a major hurdle for successfully implementing various end-user applications in the fifth-generation (5G) of wireless networks. During this era, several communication protocols and standards have been developed and used by the community. However, interference persists, keeping given quality of service (QoS) provision to end-users for different 5G applications. To mitigate the issues mentioned above, in this paper, we present an in-depth survey of state-ofthe-art non-orthogonal multiple access (NOMA) variants having power and code domains as the backbone for interference mitigation, resource allocations, and QoS management in the 5G environment. These are future smart communication and supported by device-to-device (D2D), cooperative communication (CC), multiple-input and multiple-output (MIMO), and heterogeneous networks (HetNets). From the existing literature, it has been observed that NOMA can resolve most of the issues in the existing proposals to provide contention-based grant-free transmissions between different devices. The key differences between the orthogonal multiple access (OMA) and NOMA in 5G are also discussed in detail. Moreover, several open issues and research challenges of NOMA-based applications are analyzed. Finally, a comparative analysis of different existing proposals is also discussed to provide deep insights to the readers.

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“…In 2018, Botsinis et al (2018) have developed a novel concept of "JA-STSK." Moreover, it was used in NOMA mm-wave systems as an application scenario and a better capacity was attainable when evaluated over STSK with respect to coding rate and diversity gain.…”

Section: Literature Review 21 Related Workmentioning

confidence: 99%

“…From the review, it was observed that CDF schemes were adopted by Yu et al (2018), ; , Shaik et al (2019); Spatial modulation systems Ho et al (2019) and coding methods such as SC was adopted in Ju et al (2019) and linear decoding scheme was adopted in Murti et al (2018). In addition, ML detection algorithms were adopted in Likewise, Union bounding technique,-GMD, SDMA, BS-CS were deployed in Emam and Çelebi (2018); Wang et al (2017aWang et al ( , 2017b; Yang et al (2019) and Wang et al (2018), whereas JA-STSK was adopted in Botsinis et al (2018) and Serafimovski et al (2010). RSMA,-Box-Muller transform, Aposteriori detection rule and Lagrange dual method were adopted in- Mao et al (2018), Horiike et al (2018); Huang et al (2018) and Luo and Teh (2017).…”

Section: Literature Review 21 Related Workmentioning

confidence: 99%

A detailed review on non-orthogonal multiple accessbased spatial modulation systems

Jadhav

Mahor²,

Bhowmick³

et al. 2020

IJPCC

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Purpose Non-orthogonal multiple access (NOMA) is a much hopeful scheme, which is deployed to enhance the spectral efficiency (SE) significantly, and it also enhances the massive access that has attained substantial concern from industrial and academic domains. However, the deployment of superposition coding (SC) at the receiver side resulted in interference. For reducing this interference, “multi-antenna NOMA” seems to be an emerging solution. Particularly, by using the channel state information at the transmitter, spatial beam forming could be deployed that eliminates the interference in an effective manner. Design/methodology/approach This survey analyzes the literature review and diverse techniques regarding the NOMA-based spatial modulation (SM) environment. It reviews a bunch of research papers and states a significant analysis. Initially, the analysis depicts various transmit antenna selection techniques that are contributed in different papers. This survey offers a comprehensive study regarding the chronological review and performance achievements in each contribution. The analytical review also concerns on the amplitude phase modulation (APM) selection schemes adopted in several contributions. Moreover, the objective functions adopted in the reviewed works are also analyzed. Finally, the survey extends with various research issues and its gaps that can be useful for the researchers to promote improved future works on NOMA-based SM. Findings This paper contributes to a review related to NOMA-based SM systems. Various techniques and performance measures adopted in each paper are analyzed and described in this survey. More particularly, the selection of transmission antenna and APM are also examined in this review work. Moreover, the defined objective function of each paper is also observed and made a chronological review as well. Finally, the research challenges along with the gaps on NOMA-based SM systems are also elaborated. Originality/value This paper presents a brief analysis of NOMA-based SM systems. To the best of the authors’ knowledge, this is the first work that uses NOMA-based SM systems to enhance SE.

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Joint-Alphabet Space Time Shift Keying in mm-Wave Non-Orthogonal Multiple Access

Cited by 11 publications

References 55 publications

50 Years of Permutation, Spatial and Index Modulation: From Classic RF to Visible Light Communications and Data Storage

50 Years of Permutation, Spatial and Index Modulation: From Classic RF to Visible Light Communications and Data Storage

A Systematic Review on NOMA Variants for 5G and Beyond

A detailed review on non-orthogonal multiple accessbased spatial modulation systems

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