Reconfigurable intelligent surfaces for smart wireless environments: channel estimation, system design and applications in 6G networks

Liang, Ying-Chang; Chen, Jie; Long, Ruizhe; He, Zhen-Qing; Lin, Xianqi; Huang, Chenlu; Liu, Shilin; Shen, Xuemin; Renzo, Marco Di

doi:10.1007/s11432-020-3261-5

Cited by 68 publications

(40 citation statements)

References 136 publications

(194 reference statements)

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“…RIS, with a "reconfigurable/programmable wireless transmission channel" as the core, opens a new direction for future networks owing to its intrinsic characteristics, including low cost, low energy consumption, high reliability, and large capacity [17]. Authors in [18] provided an overview of the fundamental physical layer issues of the RIS-assisted wireless systems, including the reflection principle, channel estimation, and system designs for RIS-aided wireless communication where RIS acts as a reflector and RIS-based information transmission where RIS functions as a transmitter. Moreover, several potential applications of RIS in 6G have been proposed.…”

Section: Reconfigurable Intelligent Surfacementioning

confidence: 99%

Vision, application scenarios, and key technology trends for 6G mobile communications

Wang

Wei

et al. 2022

Sci. China Inf. Sci.

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With the global commercialization of the fifth-generation (5G) network, many countries, including China, USA, European countries, Japan, and Korea, have started exploring 6G mobile communication network, following the tradition of "planning the next while commercializing one generation". Currently, studies on 6G networks are at the infancy stage. Research on the vision and requirements for 6G is still ongoing, and the industry is yet to clarify the key enabling technologies for 6G. However, 6G will certainly build on the success of 5G. Therefore, developing high-quality 5G networks and seamlessly integrating 5G with verticals are the priorities before 2030, when 6G is projected to be commercialized. Also, global 5G standards will keep evolving to better support vertical applications. As a milestone, the Third-Generation Partnership Project (3GPP) published Release 16 in July 2020, which continuously enhanced the capabilities of mobile broadband service based on Release 15 and realized the support for low-delay and high-reliability applications, such as Internet of Vehicles and industrial Internet. Currently, 3GPP is working on Releases 17 and 18, focusing on meeting the demands of medium-and high-data-rate machine communication with low-cost and high-precision positioning, which will be published in June 2022. Thus, 6G networks will further expand the application fields and scope of the Internet of Things to accommodate those services and applications that are beyond the capabilities of 5G networks. Herein, we present our vision, application scenarios, and key technological trends for 6G networks. Furthermore, we propose several future research opportunities in 6G networks with regard to industrialization and standardization.

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Section: Reconfigurable Intelligent Surfacementioning

confidence: 99%

Vision, application scenarios, and key technology trends for 6G mobile communications

Wang

Wei

et al. 2022

Sci. China Inf. Sci.

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“…where the term ψ Y is omitted since it does not depend on the current H. Finally, notice that there is now an additional term when compared to (8): α • ψ Y |H updates the current estimate in a direction that makes it more consistent with the received pilots Y. Taken together, the three updates in (10) represent the core routine of the proposed channel estimation algorithm.…”

Section: Sampling Using Score Functionsmentioning

confidence: 99%

“…With the deployment of millimeter wave (mmWave) band communications, recovering accurate, high-dimensional channel state information (CSI) using reduced pilot overhead has become a major open research problem [3]- [5]. For example, reflective intelligent surfaces -equipped with up to hundreds of antennas -are an active area of research for high-dimensional wireless systems [6], [7], where channel estimation has been recently investigated using either optimization approaches [8] or data-driven methods [9], [10]. Estimating accurate CSI using data-driven methods is envisioned as an important area of research for future communication systems that integrate artificial intelligence in physical layer processing [1], [11], including being taken into consideration for standardization [12].…”

mentioning

confidence: 99%

MIMO Channel Estimation using Score-Based Generative Models

Arvinte¹,

Tamir²

2022

Preprint

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Channel estimation is a critical task in multiple-input multiple-output digital communications that has effects on end-to-end system performance. In this work, we introduce a novel approach for channel estimation using deep score-based generative models. These models are trained to estimate the gradient of the log-prior distribution, and can be used to iteratively refine estimates, given observed measurements of a signal. We introduce a framework for training score-based generative models for wireless channels, as well as performing channel estimation using posterior sampling at test time.We derive theoretical robustness guarantees of channel estimation with posterior sampling in singleinput single-output scenarios, and show that the observations regarding estimation performance are verified experimentally in MIMO channels. Our results in simulated clustered delay line channels show competitive in-distribution performance without error floors in the high signal-to-noise ratio regime, and robust out-of-distribution performance, outperforming competing deep learning methods by up to 5 dB in end-to-end communication performance, while the complexity analysis reveals how model architecture can efficiently trade performance for estimation latency.

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“…As a result, the reflected radiation pattern can be dynamically modified using different codes given to the FPGA (Figure 6). The simulated radiation pattern of beam scanning is obtained using this control mechanism [97]. In [25], the authors employed the on/off status of PIN diodes to alter the phase responses of meta-material elements.…”

Section: Field-programmable Gate Array (Fpga) Based Ris and Integrated Architecturesmentioning

confidence: 99%

Section: Field-programmable Gate Array (Fpga) Based Ris and Integrated Architecturesmentioning

confidence: 99%

Reconfigurable Intelligent Surfaces for 5G and beyond Wireless Communications: A Comprehensive Survey

2021

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With possible new use cases and demanding requirements of future 5th generation (5G) and beyond cellular networks, the future of mobile communications sounds promising. However, the propagation medium has been considered a randomly acting agent between the transmitter and the receiver. With the advent of the digital age of wireless communications, the received signal quality is degrading due to the uncontrollable interactions of the transmitted radio waves with the surrounding artifacts. This paper presents a comprehensive literature review on reconfigurable intelligent surfaces (RISs) and assisted application areas. With the RIS, the network operators can control radio waves’ scattering, reflection, and refraction characteristics by resolving the harmful properties of environmental wireless propagation. Further, the RIS can effectively control the wavefront, such as amplitude, phase, frequency, and even polarization, without requiring complex encoding, decoding, or radio wave processing techniques. Motivated by technological advances, the metasurfaces, reflectarrays, phase shift, and liquid crystals are potential candidates for implementing RIS. Thus, they can be considered the front runner for realizing the 5G and beyond network. Furthermore, the current research activities in the evolving field of wireless networks operated by RIS are reviewed and discussed thoroughly. Finally, to fully explore the potential of RISs in wireless networks, the fundamental research issues to be addressed have been discussed.

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Reconfigurable intelligent surfaces for smart wireless environments: channel estimation, system design and applications in 6G networks

Cited by 68 publications

References 136 publications

Vision, application scenarios, and key technology trends for 6G mobile communications

Vision, application scenarios, and key technology trends for 6G mobile communications

MIMO Channel Estimation using Score-Based Generative Models

Reconfigurable Intelligent Surfaces for 5G and beyond Wireless Communications: A Comprehensive Survey

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