Compact UWB monopole antenna for internet of things applications

Bekasiewicz, Adrian; Koziel, Slawomir

doi:10.1049/el.2015.4432

Cited by 97 publications

(75 citation statements)

References 17 publications

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“…Planar monopoles are an easy and widespread solution to mediate between compactness and radiation performance. Printed monopoles with proper modifications can guarantee ultra-wide band performance suitable for IoT with a very small area [141]. In [140] a dual-band fractal monopole antenna based on Sierpinski Gasket to cover ZigBee and WLAN bands is proposed.…”

Section: Wireless Communications In Smart Distribution Networkmentioning

confidence: 99%

Multidisciplinary Approach for the Development of Smart Distribution Networks

Ghiani¹,

Serpi²,

Pilloni³

et al. 2018

Preprint

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Electric power systems are experiencing relevant changes involving the growing penetration of distributed generation and energy storage systems, the introduction of electric vehicles, the management of responsive loads, the proposals for new energy markets and so on. Such evolution is pushing for a paradigm shift: the management must move from traditional planning and manual intervention to full "smartization" of medium and low voltage networks. Peculiarities and criticalities of future power distribution networks originate from the complexity of the system that includes both the physical aspects of electric networks and the cyber aspects, like data elaboration, feature extraction, communication, supervision and control; only fully integrated advanced monitoring systems can foster this transition towards network automation. The design and development of such future networks require distinct kinds of expertise in the industrial and information engineering fields. In this context, this paper provides a comprehensive review of current challenges and multidisciplinary interactions in the development of smart distribution networks.

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Section: Wireless Communications In Smart Distribution Networkmentioning

confidence: 99%

Multidisciplinary Approach for the Development of Smart Distribution Networks

Ghiani¹,

Serpi²,

Pilloni³

et al. 2018

Preprint

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show abstract

“…All these systems inherently require multiband or ultrawideband frequency ranges to operate and in place of using multiple antennas for these systems it is now more convenient to use antenna with ultrawideband impedance bandwidth and thus reduce the complexity of the systems. Double ridge guide horn (DRGH), bi‐conical antennas and UWB monopole antennas are few options that are utilized widely but some of these types are large, heavy, and not readily compatible with the planar technology. While others are less directional or require special techniques to produce substantial gain.…”

Section: Introductionmentioning

confidence: 99%

Ultrawideband doubly tapered slot antenna (DTSA) with integrated balun as a feed for time‐domain target detection

Pegwal

Abegaonkar

Koul

2017

Micro & Optical Tech Letters

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This article discusses the design of an ultrawideband doubly tapered slot antenna (DTSA) using an ultrawideband balun at its input feeding network. The proposed antenna with integrated balun is completely planar in nature with a conventional microstrip feed. The complete antenna structure with integrated balun realized on an 8 mil Rogers's RO4003C substrate shows a measured return loss of better than 10 dB from 4 to 36 GHz and measured peak gain of 2.08–8.44 dB for the entire band. The time domain characteristics of the transmitting/receiving system using the proposed ultrawideband (DTSA) antenna is also investigated giving a low variation in group delay (≤0.18 nsec). This transmitting/receiving system with the proposed antenna is further used to demonstrate possibility of using this antenna for target detection.

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“…• Fast multi-objective surrogate-assisted design of multi-parameter antenna structures through rotational design space reduction [1] • Compact UWB monopole antenna for internet of things applications [2] • Suppressing sidelobes of linear phased array of microstrip antennas with simulation-based optimization [3] • Structure and design optimization of compact UWB slot antenna [4] The EOMC uses CST, Matlab, self-developed algorithms to automatically generate geometries and simulates the field characteristics of conceptual antennas. The cure-mail: foley@ru.is rent simulation efforts have matured sufficiently that the next phase, validation, is needed.…”

Section: Introductionmentioning

confidence: 99%

Low-cost Antenna Positioning System Designed with Axiomatic Design

et al. 2017

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Abstract. The Engineering Optimization and Modeling Center at Reykjavik University has been carrying out research on antenna CAD, including the simulation-driven design of novel antenna topologies. However, simulation is not enough to validate a design: a custom RF anechoic chamber has been built to quantify antenna performance, particularly in terms of field properties such as radiation patterns. Such experiments require careful positioning of the antenna in the chamber accurately in 3-axis with a short development time, challenging material constraints, and minimal funding. Axiomatic Design Theory principles were applied to develop an automated 3-axis positioner system for a reference antenna and the antenna to be calibrated. Each axis can be individually controlled with a repeatability of 1 degree. This 3000 USD device can be fabricated using easily available components and rapid prototyping tools.

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Compact UWB monopole antenna for internet of things applications

Cited by 97 publications

References 17 publications

Multidisciplinary Approach for the Development of Smart Distribution Networks

Multidisciplinary Approach for the Development of Smart Distribution Networks

Ultrawideband doubly tapered slot antenna (DTSA) with integrated balun as a feed for time‐domain target detection

Low-cost Antenna Positioning System Designed with Axiomatic Design

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