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Advanced Antenna Array Engineering for 6G and Beyond Wireless Communications
Yingjie Jay Guo, Richard W. Ziolkowski
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eBook - ePub
Advanced Antenna Array Engineering for 6G and Beyond Wireless Communications
Yingjie Jay Guo, Richard W. Ziolkowski
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Advanced Antenna Array Engineering for 6G and Beyond Wireless Communications
Reviews advances in the design and deployment of antenna arrays for future generations of wireless communication systems, offering new solutions for the telecommunications industry
Advanced Antenna Array Engineering for 6G and Beyond Wireless Communications addresses the challenges in designing and deploying antennas and antenna arrays which deliver 6G and beyond performance with high energy efficiency and possess the capability of being immune to interference caused by different systems mounted on the same platforms. This timely and authoritative volume presents innovative solutions for developing integrated communications networks of high-gain, individually-scannable, multi-beam antennas that are reconfigurable and conformable to all platforms, thus enabling the evolving integrated land, air and space communications networks.
The text begins with an up-to-date discussion of the engineering issues facing future wireless communications systems, followed by a detailed discussion of different beamforming networks for multi-beam antennas. Subsequent chapters address problems of 4G/5G antenna collocation, discuss differentially-fed antenna arrays, explore conformal transmit arrays for airborne platforms, and present latest results on fixed frequency beam scanning leaky wave antennas as well as various analogue beam synthesizing strategies. Based primarily on the authors' extensive work in the field, including original research never before published, this important new volume:
- Reviews multi-beam feed networks, array decoupling and de-scattering methods
- Provides a systematic study on differentially fed antenna arrays that are resistant to interference caused by future multifunctional/multi-generation systems
- Features previously unpublished material on conformal transmit arrays based on Huygen's metasufaces and reconfigurable leaky wave antennas
- Includes novel algorithms for synthesizing and optimizing thinned massive arrays, conformal arrays, frequency invariant arrays, and other future arrays
Advanced Antenna Array Engineering for 6G and Beyond Wireless Communications is an invaluable resource for antenna engineers and researchers, as well as graduate and senior undergraduate students in the field.
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Informations
1
A Perspective of Antennas for 5G and 6G
The rollâout of the fifth generation (5G) of wireless and mobile communications systems has commenced, and the technology race on the sixthâgeneration (6G) mobile and wireless communications systems has started in earnest [1, 2]. 5G promises significantly increased capacity, massive connections, low latency, and compelling new applications. For example, deviceâtoâdevice (D2D) and vehicleâtoâvehicle (V2V) communication systems will help facilitate the realization of autonomous transport. The rapid access to and exchange of âBig Dataâ will increasingly impact realâtime economic and political decisions. Similarly, highly integrated, accessible âinfotainmentâ systems will continue to alter our social relationships and communities. Wireless power transfer will replace cumbersome, weighty, shortâlife batteries enabling widespread health, agriculture, and building monitoring sensor networks with much less waste impact on the environment. 6G networks aim to achieve a number of new features such as full global coverage, much greater data rates and mobility, and higher energy and cost efficiency. These will usher in new services based on virtual reality/augmented reality and artificial intelligence [3].
At the core of wireless devices, systems, networks, and ecosystems are their antennas and antenna arrays. Antennas enable the transmission and reception of electromagnetic energy. Antenna arrays enhance our abilities to direct and localize the desired energy and information transfer. To achieve the many stunning and amazing 5G and 6G promises, significant advances in antenna and antenna array technologies must be accomplished.
1.1 5G Requirements of Antenna Arrays
One of the most important features of 5G is the employment of massive antenna arrays, with the size of the array currently varying from 64 to 128 and 256 elements. Such a large number of antenna elements in an array provide an unprecedented variety of possibilities. These include a means to increase the network capacity; the distance and data rates of individual links between the base station and mobile users; and the reduction of interference between different users and cells.
1.1.1 Array Characteristics
Generally speaking, there are three ways to exploit the benefits of antenna arrays in 5G wireless communication systems [4, 5], namely diversity, spatial multiplexing, and beamforming. These concepts are explained as follows.
- a) Diversity and Diversity Combining
It is a fact that mobile wireless communication channels typically suffer from both temporal fading and frequency fading. As a consequence, the quality of the channel varies with time and across different frequencies. Thus, the specific characteristics of the two propagation channels observed between any two pairs of transmitting and receiving antennas are usually different due to the variation in the scattering along the corresponding propagation paths. The peaks and troughs of the strength of the received signal at one antenna would be different from those at another antenna in a rich scattering environment. If the correlation between those two signals is low, one can combine them through soâcalled diversity combining to obtain a greater signalâtoâinterferenceâandânoise ratio (SINR). The latter is also known as diversity gain. A simple viewpoint is that diversity combining techniques aim to improve the quality of the individual links between the base stations and the user terminals by increasing the SINR.
From an antenna point of view, diversity can be obtained by exploiting either the distance between adjacent antennas, i.e., their positions, or different polarizations at the receiver and the transmitter. However, a fundamental requirement is that the mutual coupling between these diversity antennas must be low. Most modern base station antennas employ polarization diversity, i.e., each antenna element is dualâpolarized typically with two pairs of slanted dipole âarmsâ in the ±45° directions. In 5G millimeterâwave (mmâwave) systems, for example, a popular antenna configuration is to have beamforming antenna arrays with ±45° polarizations, respectively.
- b) Spatial Multiplexing
Multiplexing is the process of combining multiple digital or analog signals into a data stream for their transmission over a common medium, thus sharing a scarce resource. Spatial multiplexing aims to establish separate data streams in parallel using the same time/frequency resources. Thus, the space dimension is reused, i.e., multiplexed.
The simplest spatial multiplexing scheme is to employ sectorized antennas, a conventional technique for frequency reuse. More advanced spatial multiplexing schemes employ spatialâtemporal (or frequency) coding by virtue of multiple input and multiple output (MIMO) antennas. A MIMO system requires the use of multiple antennas at least at the base stations. MIMO is implemented with two basic schemes as described below.
The first spatial multiplexing scheme is known as single user MIMO (SUâMIMO). By virtue of multiple antennas at both the base station and the user terminals, SUâMIMO first splits the data stream transmitted toward a specific user into multiple data streams. It then recombines them together at the user terminal to improve the information throughput and system capacity. One major challenge to SUâMIMO is the need for the tightly packed multiple antennas in the terminals to be decoupled.
The second spatial multiplexing scheme is known as multiuser MIMO (MUâMIMO). MUâMIMO aims to maximize the overall data throughput between all of the users and their associated base station. While it employs an antenna array at the base station, only one or a few antenna elements are present at each user terminal. Since user terminals are typically well dispersed within a radio cell and their individual channels are likely to be uncorrelated, the benefits of MUâMIMO are easier to achieve.
Both SUâMIMO and MUâMIMO protocols are intended for implementation in most 5G systems.
- c) Beamforming
Spatial filtering can be regarded as a simple version of MUâMIMO. Beamforming achieves this spatial filtering by coherently combining the fields radiated by the array elements to direct their radiated energy into particular directions. These multiple beams are created at the base station to communicate with different users simultaneously.
Beamforming offers two benefits to a communication system. The first is capacity. If there is no overlap of the beams, simultaneous communications can take place in the same frequency band and at the same time without causing much interference. The second is the gain of the antenna array. Higher gain translates into information exchange over greater distances or higher data rates due to increased SINR values. Unlike 3G and 4G antenna arrays that provide coverage with fixed beam patterns and directivity, 5G arrays must support onâdemand beam coverage according to realâtime application scenarios and user distributions. Moreover, they must be able to support beam management in order to deliver precise coverage in target areas while significantly suppressing interference in ot...
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Normes de citation pour Advanced Antenna Array Engineering for 6G and Beyond Wireless Communications
APA 6 Citation
Guo, Y. J., & Ziolkowski, R. (2021). Advanced Antenna Array Engineering for 6G and Beyond Wireless Communications (1st ed.). Wiley. Retrieved from https://www.perlego.com/book/3028566/advanced-antenna-array-engineering-for-6g-and-beyond-wireless-communications-pdf (Original work published 2021)
Chicago Citation
Guo, Yingjie Jay, and Richard Ziolkowski. (2021) 2021. Advanced Antenna Array Engineering for 6G and Beyond Wireless Communications. 1st ed. Wiley. https://www.perlego.com/book/3028566/advanced-antenna-array-engineering-for-6g-and-beyond-wireless-communications-pdf.
Harvard Citation
Guo, Y. J. and Ziolkowski, R. (2021) Advanced Antenna Array Engineering for 6G and Beyond Wireless Communications. 1st edn. Wiley. Available at: https://www.perlego.com/book/3028566/advanced-antenna-array-engineering-for-6g-and-beyond-wireless-communications-pdf (Accessed: 15 October 2022).
MLA 7 Citation
Guo, Yingjie Jay, and Richard Ziolkowski. Advanced Antenna Array Engineering for 6G and Beyond Wireless Communications. 1st ed. Wiley, 2021. Web. 15 Oct. 2022.