Shallow Underwater Acoustic Massive MIMO Communications

Wu, Wenqian; Gao, Xiqi; Sun, Chen; Li, Geoffrey Ye

doi:10.1109/tsp.2021.3050037

Cited by 20 publications

(6 citation statements)

References 39 publications

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“…How to meet real-time requirements and obtain training data needs to be addressed [413], [414]; 6) Ultra-massive MIMO is also expected to be combined with space-air-ground-sea integrated networks. It will bring great performance gain for a series of expanded application scenarios such as satellite communications [415], skywave communications [416], and underwater acoustic communications [417].…”

Section: ) Ultra-massive Mimomentioning

confidence: 99%

On the Road to 6G: Visions, Requirements, Key Technologies, and Testbeds

Wang

You

Gao

et al. 2023

IEEE Commun. Surv. Tutorials

616

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Section: ) Ultra-massive Mimomentioning

confidence: 99%

On the Road to 6G: Visions, Requirements, Key Technologies, and Testbeds

Wang

You

Gao

et al. 2023

IEEE Commun. Surv. Tutorials

616

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show abstract

“…However, challenges remain in meeting real-time requirements and acquiring sufficient training data [125,126]. Furthermore, there is hope for improved performance in broader application scenarios including skywave communications [127], underwater acoustic communications [128], and satellite communications [129] when ultra-massive MIMO is considered with a combination of space, air, ground and sea networks.…”

Section: Ultra-massive Mimo: Enhancing 6g Network Capabilitiesmentioning

confidence: 99%

Beyond 5G: A Comprehensive Exploration of 6G Wireless Communication Technologies

Siddiky,

Rahman,

Uzzal

2024

Preprint

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As the telecommunications landscape braces for the post-5G era, this paper embarks on delineating the foundational pillars and pioneering visions that define the trajectory towards 6G wireless communication systems. Recognizing the insatiable demand for higher data rates, enhanced connectivity, and broader network coverage, we unravel the evolution from the existing 5G infrastructure to the nascent 6G framework, setting the stage for transformative advancements anticipated in the 2030s. Our discourse navigates through the intricate architecture of 6G, highlighting the paradigm shifts towards super convergence, non-IP-based networking protocols, and information-centric net-works, all underpinned by a robust 360-degree cybersecurity and privacy-by-engineering design. Delving into the core of 6G, we articulate a systematic exploration of the key technologies earmarked to revolutionize wireless communication including terahertz (THz) waves, optical wireless technology, and dynamic spectrum management,while elucidating the intricate tradeoffs necessitated by the integration of such innovations. This paper not only lays out a comprehensive 6G vision accentuated by high security, affordability, and intelligence but also charts the course for addressing the pivotal challenges of spectrum efficiency, energy consumption, and the seamless integration of emerging technologies. In this study, our goal is to enrich the existing discussions and research efforts by providing comprehen-sive insights into the development of 6G technology, ultimately supporting the creation of a thoroughly connected future world that meets evolving demands.

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“…The performance of underwater acoustic communication is extremely affected by timevarying transmission channels [5]. Owing to its abominable propagation characteristics, such as a low speed of the acoustic signal, large attenuation and significant multipath interference, the UWA channel can be seen as one of the most challenging elements [6]. The Doppler effect and multipath propagation caused by boundary reflection are the fundamental factors causing channel distortion, for which the acoustic signal experiences time and frequency selectivity [7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Virtual Space-Time DiversityTurbo Equalization Using Cluster Sparse Proportional Recursive Least Squares Algorithm for Underwater Acoustic Communications

Han,

Tao,

Zhang

et al. 2023

Applied Sciences

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The oceanic positioning, navigation and timing (PNT) network requires high-quality underwater acoustic message transmission. Turbo equalization technology has exhibited superior performance for underwater acoustic (UWA) communications compared with conventional channel equalizers. To overcome the performance reduction caused by severe doubly selective UWA channels, the virtual space-time diversity soft direct-adaptation turbo equalization is proposed for UWA communications. The proposed scheme improves the ability of the typical turbo equalizer to deal with both Doppler and multipath effects for time varying channels. We utilize a fractionally spaced soft interference cancellation equalizer (FS-SE) instead of a hard decision to constitute the soft-input soft-output (SISO) equalizer. Combined with another virtual time-reversal mirror equalizer component, we can obtain virtual space and time diversity with only a single receiving transducer and mitigate the error propagation phenomenon of the feedback filter. To satisfy the sparse UWA channel, the ℓp,q-PRLS algorithm is applied to adaptive updates for FS-SE. In the proposed scheme, an adjustable interpolator and digital phase-locked loop are embedded into the equalizer to overcome the residual Doppler frequency shift and recover the timing distortion. Results of simulations and field lake trial show that the proposed scheme achieves better performance than existing ones under the same equalizer order.

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Shallow Underwater Acoustic Massive MIMO Communications

Cited by 20 publications

References 39 publications

On the Road to 6G: Visions, Requirements, Key Technologies, and Testbeds

On the Road to 6G: Visions, Requirements, Key Technologies, and Testbeds

Beyond 5G: A Comprehensive Exploration of 6G Wireless Communication Technologies

Virtual Space-Time DiversityTurbo Equalization Using Cluster Sparse Proportional Recursive Least Squares Algorithm for Underwater Acoustic Communications

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