Characterisation of propagation in 60 GHz radio channels

Smulders, Pfm Peter; Correia, LM

doi:10.1049/ecej:19970204

Cited by 185 publications

(89 citation statements)

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“…There have been significant efforts in 60 GHz channel measurement and modeling both for indoor [24,17] and outdoor settings [37,39,21,33], confirming the accuracy of quasi-optical propagation models on 60GHz propagation. Most measurements used channel sounding and probing hardware, while others have cleverly adapted commercial radios to indoor measurements [38,42].…”

Section: Related Workmentioning

confidence: 92%

Demystifying 60GHz outdoor picocells

Zhu

Zhang

Marzi

et al. 2014

Proceedings of the 20th Annual International Conference on Mobile Computing and Networking

160

129

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Mobile network traffic is set to explode in our near future, driven by the growth of bandwidth-hungry media applications. Current capacity solutions, including buying spectrum, WiFi offloading, and LTE picocells, are unlikely to supply the orders-of-magnitude bandwidth increase we need. In this paper, we explore a dramatically different alternative in the form of 60GHz mmwave picocells with highly directional links. While industry is investigating other mmwave bands (e.g. 28GHz to avoid oxygen absorption), we prefer the unlicensed 60GHz band with highly directional, short-range links (∼100m). 60GHz links truly reap the spatial reuse benefits of small cells while delivering high per-user data rates and leveraging efforts on indoor 60GHz PHY technology and standards. Using extensive measurements on off-the-shelf 60GHz radios and systemlevel simulations, we explore the feasibility of 60GHz picocells by characterizing range, attenuation due to reflections, sensitivity to movement and blockage, and interference in typical urban environments. Our results dispel some common myths, and show that there are no fundamental physical barriers to high-capacity 60GHz outdoor picocells. We conclude by identifying open challenges and associated research opportunities.

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Section: Related Workmentioning

confidence: 92%

Demystifying 60GHz outdoor picocells

Zhu

Zhang

Marzi

et al. 2014

Proceedings of the 20th Annual International Conference on Mobile Computing and Networking

160

129

View full text Add to dashboard Cite

show abstract

“…It also indicates that, when applying directional antennas, misalignment is an issue and antenna beam shapes have to be optimized in this respect as illustrated in [50] and [51]. According to [52], a beam steering gain of over 8 dB can be achieved with 90% probability.…”

Section: Angular Spreadmentioning

confidence: 99%

Statistical Characterization of 60-GHz Indoor Radio Channels

Smulders

2009

IEEE Trans. Antennas Propagat.

239

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Abstract-An extensive review of the statistical characterization of 60-GHz indoor radio channels is provided from a large number of published measurement and modeling results. First, the most prominent driver applications for 60 GHz are considered in order to identify those environment types that need to be characterized most urgently. Large-scale fading is addressed yielding path-loss parameter values for a generic 60-GHz indoor channel model as well as for the office environment in particular. In addition, the small-scale channel behavior is reviewed including the modeling of time-of-arrival and angle-of-arrival details and statistical parameters related to delay spread, angular spread and Doppler spread. Finally, some research directions for future channel characterization are given.

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“…Narrowband and wideband measurements are performed by Simulder et al for the frequency of 60 GHz [12]. The results obtained by them are compared by their own proposed deterministic model.…”

Section: Urban Outdoor Environmentsmentioning

confidence: 99%

The Studies of Millimeter Waves at 60 GHz in Outdoor Environments for IMT Applications: A State of Art

Singh

Prasad

Bonev

2017

Wireless Pers Commun

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As the growth of mobile technology network increasing exponentially due to which radio frequency becomes more valuable natural resources. Shortage of bandwidth creates an enormous opportunities for researchers and engineers for exploration of underutilize millimeter wave spectrum in order to design and develop future technologies. It is a need of an hour to do extensive studies on the impact of millimeter wave technologies as both indoor and outdoor environments. This paper describes the various studies carried out earlier in the field of radio wave propagation at 60 GHz in different outdoor environments.

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Characterisation of propagation in 60 GHz radio channels

Cited by 185 publications

References 0 publications

Demystifying 60GHz outdoor picocells

Demystifying 60GHz outdoor picocells

Statistical Characterization of 60-GHz Indoor Radio Channels

The Studies of Millimeter Waves at 60 GHz in Outdoor Environments for IMT Applications: A State of Art

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