Your search keyword '"ANTENNA radiation patterns"' showing total 18,954 results

1. Extension of the BDS IGSO and MEO satellite antenna patterns with FengYun-3C and LuTan-1 onboard data.

Author

Qu, Ziyang, Xu, Xiaolong, Zhao, Qile, and Guo, Jing

Subjects

*GLOBAL Positioning System, *BEIDOU satellite navigation system, *ANTENNA radiation patterns, *GEOSYNCHRONOUS orbits, *ARTIFICIAL satellites in navigation, *ORBIT determination, *ORBITS of artificial satellites, *ARTIFICIAL satellite tracking

Abstract

The International Global Navigation Satellite System (GNSS) Service (IGS) has recommended calibrating the extended satellite antenna Phase Center Variation (PCV) model for all navigation satellites to support low-Earth-Orbit (LEO) satellite applications. Owing to the absence of ground-calibrated PCVs for the BeiDou Navigation Satellite System (BDS), tracking data from global ground stations were used for in-orbit estimations. However, limited by the observed maximum nadir angle, PCVs based on ground data cannot cover the entire range of nadir angles observed using by LEO satellites. In this study, the FengYun-3C and LuTan-1 missions were used to extend the PCVs of the BDS Inclined GeoSynchronous orbit (IGSO) and medium-Earth-orbit (MEO) satellites. The PCVs corresponding to the ionosphere-free linear combinations of B1I/B2I, B1I/B3I, and B1C/B2a were calibrated in-orbit by extending the maximum nadir angle from 9° to 10° for the IGSO and from 13° to 15° for the MEO. There was good consistency among the estimated PCVs of satellites of the same type. In addition, these estimated PCVs were close to the corresponding satellite block-specific values estimated based on ground tracking data. The impact of the extended PCVs of the BDS satellite antenna was investigated by comparing them with the unextended PCVs model in the receiver antenna PCVs pattern estimation and precise orbit determination of the FengYun-3C and LuTan-1 satellites. The results showed that the extended BDS satellite PCVs effectively reduced the unmodeled error of the unextended BDS satellite PCVs in the low-elevation region of the LEO receiver antenna PCV patterns. In addition, compared with the introduction of phase center offset alone, the introduction of ground-based PCVs can improve the overlapping orbit differences (OODs) of LEO satellites, and the extended BDS satellite PCVs can further improve the OODs. Taking B1C/B2a as an example, the improvement ratio of OODs in the 3D direction of Lutan-1A increased from 5.2 % to 8.0 %, and that of Lutan-1B can rise from 1.7 % to 4.2 %. [ABSTRACT FROM AUTHOR]

Published

2024

2. Antenna pattern reconstruction for mid-band massive antenna array based on a single-cut field transformation algorithm in a compact multi-probe anechoic chamber setup.

Author

An, Xudong, Duan, Siqi, Zhang, Qinjuan, Wang, Weimin, and Liu, Yuanan

Subjects

*ANTENNA radiation patterns, *COMPACT operators, *ANTENNA arrays, *SPHERICAL waves, *ACADEMIA, *ANECHOIC chambers

Abstract

It has become a common challenge on how to measure radiation patterns of massive antenna arrays working at high frequency with high efficiency and accuracy, which has attracted huge interest from both academia and industry. In this paper, a highly accurate and efficient far field (FF) pattern reconstruction strategy through conducting single cut near field (NF) to FF transformation algorithm based on spherical wave expansion (SWE) is proposed for fast measurements of large base stations (BSs) operating at mid-band. Our objective is to design a compact multi-probe setup to measure key radiation parameters of the massive array, with low-cost and high-efficiency. A BS of 16 × 16 elements operating at mid-band is adopted as the device under test (DUT) in this paper. Analysis is conducted on the impact of measurement distance, sampling range and sampling density on the reconstruction accuracy of the algorithm in the compact multi-probe anechoic chamber setup, demonstrating that the required key information of the main lobe of the DUT can be accurately reconstructed when the measurement range R = 1/20 FF distance, sampling resolution ∆θ = 3°, and sampling range θ ∈ [75°, 105°] are selected, respectively. The impact of phase center offset on the accuracy of FF pattern reconstruction is analyzed when only one sub-array is enabled, demonstrating the effectiveness of the algorithm for sub-array measurements. [ABSTRACT FROM AUTHOR]

Published

2024

3. Dynamics of Some Perturbed Morse-Type Oscillators: Simulations and Applications.

Author

Kyurkchiev, Nikolay, Zaevski, Tsvetelin, Iliev, Anton, Branzov, Todor, Kyurkchiev, Vesselin, and Rahnev, Asen

Subjects

*ANTENNA radiation patterns, *HARMONIC oscillators, *COSINE function, *CHARACTERISTIC functions, *DIATOMIC molecules

Abstract

The purpose of this paper is to investigate some Morse-type oscillators. In its original form, it is a model for describing the vibrations of a diatomic molecule. The Morse potential generalizes the harmonic oscillator by introducing deviations from the classical theoretical model. In the present study, we perturbed the Morse differential equation by several periodic terms based on the cosine function and by a damping term. The frequency is driven by different coefficients. The size of the deviations is controlled by another constant. We provide two modifications w.r.t. the damping term. The Melnikov approach is applied as an indicator of the possible chaotic opportunities. We also propose a novel approach for stochastic control of the perturbations. It is based on the assumption that the coefficients of the periodic terms are the probabilities of underlying distribution. As a result, the dynamics are driven by its characteristic function. Several applications are considered. We demonstrate some specialized modules for investigating the dynamics of the proposed models, along with the synthesis of radiating antenna patterns. [ABSTRACT FROM AUTHOR]

Published

2024

4. Microstrip patch antenna for energy harvesting in smart buildings.

Author

Brucal, Stanley Glenn E., Africa, Aaron Don M., Chavez, Julian Carlos P., Devera, Nathan H., Escamilla, Philip Martin Emmanuel A., and Payuyo, John Louie L.

Subjects

WIRELESS power transmission, ANTENNA radiation patterns, WIRELESS sensor networks, ELECTROMAGNETIC radiation, ANTENNA design, INTELLIGENT sensors

Abstract

The present study analyzes the microstrip antenna design for wireless power transfer in smart buildings, harnessing the ambient electromagnetic radiation due to common electronic gadgets that energize wireless sensor networks, computing devices, and connected appliances. With the increased number of these devices, so does the potential for health problems caused by electromagnetic radiation. However, these devices also provide a renewable energy source through their emissions. This study suggests the creation of a 5G Microstrip antenna that enhances the absorption of this radiation for the purpose of recharging batteries in smart buildings. The design capitalizes on the inherent low-profile and cost-effective features of microstrip antennas, making them well-suited for incorporation into building infrastructure and 5G wireless technologies. Although each individual device emits a little amount of energy, the combined effect achieved by advanced antenna design and power converters is anticipated to result in a substantial energy production. The antenna designer tool from MATLAB was used to carry out a conceptual simulation of the microstrip antenna. This has set up the framework of a feasible way of predicting the performance with high efficiency and sustainability for a wireless power transfer (WPT) system. [ABSTRACT FROM AUTHOR]

Published

2024

5. Far field reconstruction of antennas via single‐surface phaseless spherical near‐field scans: A novel approach based on dipole equivalence.

Author

Tan, Junzhe, Song, Lingnan, and Xiang, Zhiqiang

Subjects

*ANTENNA radiation patterns, *ELECTRIC fields, *ANTENNAS (Electronics), *COVARIANCE matrices, *RADIATION

Abstract

A novel approach is proposed in this paper to reconstruct the far‐field radiation pattern from the phaseless electric field of an antenna scanned on a single near‐field sphere. It adopts the dipole equivalence approach to project the near‐field electric field into a spherically distributed array of electric dipoles. A term representing the error from the linearly correlated portion in the least‐square problem associated with the dipole equivalence, namely the linear correlation error, is introduced. It is demonstrated that by iterative search to minimize the linear correlation error using the covariance matrix adaptation evolution strategy, near‐field phase distributions can be found efficiently from the magnitude‐only near‐field, and the far‐field radiation pattern can be computed. Two representative case studies are given here to validate the proposed method. Results demonstrate good agreements between computations and simulations. [ABSTRACT FROM AUTHOR]

Published

2024

6. A Versatile Shared-Aperture Antenna for Vehicle Communications.

Author

Li, Mingtang, Su, Yihong, Zhang, Wenxin, and Lin, Xianqi

Subjects

GLOBAL Positioning System, ANTENNAS (Electronics), TELECOMMUNICATION satellites, ANTENNA radiation patterns, BANDWIDTHS

Abstract

This communication introduces a versatile, multi-service, shared-aperture antenna system for multiple vehicle applications. The design comprises three antenna elements: a rotatable microstrip antenna for global positioning system (GPS) communication, a cross-dipole circularly polarized antenna for satellite communication in the S-band, and a pattern reconfigurable antenna for V2V (vehicle-to-vehicle) communication. These antennas collectively support GPS, satellite communication (Satcom), and V2V communication in a single, shared-aperture design. This shared-aperture antenna system offers cost savings and occupies less space compared to using separate antennas for each service. The microstrip antenna covers the 1575 MHz frequency band used for GPS communication. The cross-dipole circularly polarized antenna provides continuous wideband coverage for S-band satellite communication. The pattern reconfigurable antenna, tailored for the specific application scenario, covers the 5.9 GHz V2V working frequency band (5.855–5.925 GHz). Practical testing and simulation results confirm the effectiveness of this antenna system for the intended applications. In summary, the microstrip antenna has a bandwidth of 1.565–1.578 GHz and a realized gain of 7 dBi with radiation efficiency of 81%, the cross-dipole antenna has a bandwidth of 2.2–3.8 GHz (53.3%) and a realized gain of 8.3 dBi with radiation efficiency of 90%, and the pattern reconfigurable antenna has a 5.8–6 GHz bandwidth and a realized gain of 3.7 dBi with radiation efficiency of 85%, and the isolation between antennas with different frequencies is 25 dB, 20 dB, and 30 dB in three frequency bands. [ABSTRACT FROM AUTHOR]

Published

2024

7. Phase‐only transmit beampattern synthesis with sparse arrays via alternating optimisation‐alternating direction of the multipliers method.

Author

Li, Lifeng, Liu, Xingang, Wang, Xiangrong, Hu, Mengkai, and Du, Yufeng

Subjects

*ANTENNA radiation patterns, *ARRAY processing, *SIGNAL processing, *ALGORITHMS

Abstract

To get simultaneously sparse and constant modulus excitation to reduce the complexity of the array and the mutual effect of neighbouring elements, a novel algorithm via alternating optimisation‐alternating direction of the multipliers method is developed. This method uses the total transmitting power as the objective function to optimise the sparsity and the amplitude of excitation simultaneously. Numerical results are provided to verify its effectiveness. [ABSTRACT FROM AUTHOR]

Published

2024

8. Synthesis of sparse rectangular planar arrays with weight function and improved grey wolf optimization algorithm.

Author

Tao, Kui, Wang, Bin, Tian, Xue, Tang, Qi, and Xie, Guihan

Subjects

*PLANAR antenna arrays, *OPTIMIZATION algorithms, *ANTENNA radiation patterns, *GENERATING functions, *LEARNING strategies

Abstract

The present article proposes a novel hybrid approach for addressing the synthesis problem of rectangular planar arrays under multiple constraints, through joint optimization of the weight function and the improved grey wolf optimization (IGWO) algorithm. Firstly, the grey wolf optimization (GWO) algorithm is improved by using tent chaotic mapping, nonlinear convergence factor, dominant wolf dynamic belief strategy, and opposition‐based learning strategy to increase the population diversity and the ability to jump out of the local optimum. Secondly, the array elements are weighted using the weight function to generate the position distribution matrix, which reduces the thinned matrix optimization time and improves the optimization efficiency. Finally, the position distribution matrix is used to generate the thinned array, and the IGWO algorithm is applied to perform the sparse optimization with multiple constraints. The effectiveness of the method is verified through numerical simulation and full‐wave simulation experiments, demonstrating its capability to enhance array antenna performance and reduce peak sidelobe level (PSLL). These experimental results hold significant engineering implications and provide valuable references for addressing the array distribution problem under multiple constraints. [ABSTRACT FROM AUTHOR]

Published

2024

9. Design and Implementation of an Ultra-Wideband Water Immersion Antenna for Underwater Ultrasonic Sensing in Microwave-Induced Thermoacoustic Tomography.

Author

Tan, Feifei and Wang, Haishi

Subjects

*ANTENNA radiation patterns, *WATER immersion, *ULTRA-wideband antennas, *ANTENNAS (Electronics), *IMPEDANCE matching

Abstract

Microwave-induced thermoacoustic tomography (MITAT) holds significant promise in biomedical applications. It creates images using ultrasonic sensors to detect thermoacoustic signals induced by microwaves. The key to generating thermoacoustic signals that accurately reflect the fact is to achieve sufficient and uniform microwave power absorption of the testing target, which is closely tied to the microwave illumination provided by the antenna. In this article, we introduce a novel design and implementation of an ultra-wideband water immersion antenna for an MITAT system. We analyze and compare the advantages of selecting water as the background medium. Simulations are conducted to analyze the ultra-wideband characteristics in impedance matching, axial ratio, and radiation pattern of the proposed antenna. The measured |S11| shows good agreement with the simulated results. We also simulate the microwave power absorption of tumor and brain tissue, and the uniform microwave power absorption and high contrast between the tumor and brain indicate the excellent performance of the proposed antenna in the MITAT system. [ABSTRACT FROM AUTHOR]

Published

2024

10. A low‐profile and wide‐beamwidth microstrip patch antenna using parasitic patch elements.

Author

Hasan, Maodudul and Tamura, Masaya

Subjects

*ANTENNA radiation patterns, *MICROSTRIP antennas, *ANTENNA arrays, *ANTENNAS (Electronics)

Abstract

This paper presents a low‐profile patch antenna with dual‐axis wide‐beam characteristics. The antenna includes a microstrip patch antenna and four parasitic patch elements. The study demonstrates that both the E‐plane and H‐plane beams can be extended by strategically placing these parasitic patches. The length and distance of these parasitic patch elements play a crucial role in achieving the desired wide‐beam characteristics. A prototype antenna operating at 5.8 GHz is fabricated and measured in an anechoic chamber to validate the concept and design parameters. The measured results confirm the extension of half‐power beamwidth in the E‐plane to 123∘$^{\circ }$ (133%) and in the H‐plane to 120∘$^{\circ }$ (153%). [ABSTRACT FROM AUTHOR]

Published

2024

11. An efficient multi‐probe enabled midfield over‐the‐air test method for 5G base station antenna pattern reconstruction.

Author

An, Xudong, Wang, Yiwen, Zhang, Qinjuan, Wang, Weimin, and Liu, Yuanan

Subjects

*ANTENNA radiation patterns, *RADIO frequency measurement, *ANTENNA arrays, *MOBILE antennas, *RADIATION measurements

Abstract

With the accelerated deployment of 5G massive multi‐input multi‐output (MIMO)‐structured base stations (BSs), accurate and efficient testing of massive MIMO arrays is essential to ensure that the 5G massive MIMO antenna array can perform as expected. The increasing trend of both antenna element and array physical size makes massive MIMO antenna pattern measurement in the direct‐far‐field OTA environment unrealistic due to the signal attenuation, long measurement time, and ultra‐high test system construction cost. Therefore, the necessity of a compact, efficient, low‐complex, yet accurate OTA test method is evident, especially for 5G massive MIMO BS arrays. This paper proposes a novel multi‐probe‐enabled midfield (MF) OTA test method for 5G massive MIMO devices in compact measurement settings where antenna pattern measurement can be efficiently performed. The detailed theoretical analysis for the 5G massive MIMO array MF antenna pattern reconstruction method is presented, and the simulated validation results based on the typical 5G BS antenna arrays are provided and analysed, which demonstrate the effectiveness of the proposed MF OTA test method and can provide insights into the radio frequency parametric measurement for 5G massive MIMO devices. [ABSTRACT FROM AUTHOR]

Published

2024

12. Compensation of phased array antenna electrical performance based on improved genetic algorithm.

Author

Zhang, Luyu, Wang, Xu, Li, Shulong, Tao, Yourui, and Xiao, Song

Subjects

*PHASED array antennas, *ANTENNA radiation patterns, *GENETIC algorithms, *ANTENNA arrays, *MICROSTRIP antennas

Abstract

Phased array antennas are frequently subjected to surface distortions due to environ-mental factors during operation. Such distortions can lead to a deterioration in the electrical performance of the phased array antenna. This study provides an in-depth analysis of the impact of array distortions on electrical performance indicators. An electronic compensation approach, employing an enhanced genetic algorithm, is proposed to mitigate the effects of these distortions. The conventional genetic algorithm has been augmented with an elimination mechanism to boost convergence. This method compensates for amplitude and phase by calculating each element's amplitude and phase of the excitation current, thereby enhancing the convergence performance. Simulations this approach, simulations of rectangular microstrip patch antennas are conducted to validate the effectiveness of this approach. The simulation outcomes reveal that the proposed method significantly improves the antenna's radiation pattern and all performance indicators, confirming its efficacy. [ABSTRACT FROM AUTHOR]

Published

2024

13. Novel Low Profile Beam Switchable 5G Sub-6 GHz E-GSM Antenna for Vehicular Communication.

Author

Kanagasabai, Malathi, Shanmuganathan, Shanmathi, Alsath, M. Gulam Nabi, and Govindan, Jothy

Subjects

*GSM communications, *PIN diodes, *ANTENNAS (Electronics), *ANTENNA radiation patterns, *RADIATORS

Abstract

A novel low-profile beam-switchable antenna operating in the Extended Global System for Mobile Communications band of 5G sub-6 GHz for vehicular communication is proposed in this paper. The proposed work has a centre patch that connects with four parasitic radiators and encompasses a tapered patch to R1, R2, R3 and R4 which are slotted loop rectangular patches. The main lobe switching is achieved for Extended GSM by switching between the states of PIN diode circuits, which affects the overall performance of the antenna. With the dimensions of 0.346 λe × 0.346 λe, the presented work exhibits a very-low-profile antenna, having an impedance bandwidth of 14.7% and a peak gain of 1.27 dBi. The proposed beam-switchable antenna incorporates four similar radiators facing different directions affixed to the central square patch director. Each PIN diode is incited eventually to obtain the same resonant frequency at each radiator. The pattern of the proposed antenna can be switched using different states of PIN diodes in the angles of 81°, 171°, 261° and 351°. The prototype is fabricated, and the measured results are in agreement with the simulated results. For the validation of the practicability of the proposed antenna, the far-field analysis is done on the vehicle. [ABSTRACT FROM AUTHOR]

Published

2024

14. Long-term analysis of Sentinel-6A orbit determination: Insights from three years of flight data.

Author

Calliess, Daniel, Montenbruck, Oliver, Wermuth, Martin, and Reichinger, Heinz

Subjects

*LASER ranging, *ANTENNA radiation patterns, *ORBITS (Astronomy), *RADIATION pressure, *GLOBAL Positioning System

Abstract

The Sentinel-6A mission extends the set of satellites dedicated to continuous ocean altimetry measurements, which started with TOPEX/Poseidon in 1992. To utilize these measurements, high-accuracy orbit solutions with radial position errors of less than 1.5cm (RMS) are required. For precise orbit determination (POD), a dedicated GPS/Galileo triple-frequency receiver (PODRIX) is available. Complementary to this, the TriG receiver provides GPS-only observations for POD and radio occultations. Previous research has shown that reduced-dynamic orbit solutions with PODRIX GPS/Galileo measurements meet the mission requirement for radial position accuracy of 1.5 cm (RMS). However, baseline estimation between the PODRIX and TriG antennas still reveals obvious inconsistencies in the along- and cross-track directions. In this study, we present a comprehensive reprocessing of orbit solutions using three years of Sentinel-6A flight data from both receivers covering January 2021 to December 2023. Cross-comparison between both receivers shows that inconsistencies can be removed by applying a yaw bias and a timing error correction. A comparative analysis of macro-models demonstrates strong correlation of cross-track empirical accelerations with the Sun elevation above the orbital plane when using nominal surface properties reported by the manufacturer. Adjusted macro-models improve performance at the expense of requiring increased surface areas or reflectivity coefficients. In addition to improved radiation pressure models, newly estimated antenna patterns and a time-varying gravity field were used in the analysis. The reprocessed data confirm good agreement of the results of both receivers except for a relative timing error of 1.3 μ s, and the yaw bias correction of −0.43° removes previously-observed systematic differences in the estimated empirical accelerations. Satellite laser ranging results based on SLRF2020 station coordinates demonstrate a 5—6 mm (1D RMS) accuracy of the GNSS-based POD solutions across the IGb14/IGS20 reference frame transition in November 2022. [ABSTRACT FROM AUTHOR]

Published

2024

15. Design of a High Gain Yagi-Uda Antenna Array for VHF-Band Radar Applications.

Author

Al-Shammari, Basim K. J., Hburi, Ismail Sh., Naman, Hala A., Alrikabi, Haider Th. Salim, Khazaal, Hasan F., Neamha, Kdhim A., and Qasim, Ahmed J.

Subjects

RADAR antennas, POWER dividers, ANTENNA radiation patterns, RADAR targets, ANTENNAS (Electronics)

Abstract

The radar of the Yagi-Uda antenna array offers useful traits for the detection of stealth targets. It employs the Very High Frequency (VHF) band, which has the advantage of counteracting stealth technology, as the shape of the target and the absorbing materials used for absorbing radar signals are less efficient against VHF. Moreover, the meter wavelength enables the radar to detect targets at distances exceeding those accessible to millimeter- and centimeter-wave radars. Nevertheless, the range of detection of this type of radar remains constrained and requires further development. The majority of current research is concentrated on the signal processing aspect, with less focus being placed on the antenna array. The antenna elements represent a crucial component of the radar station. This article presents a novel development of the traditional 16-element Yagi-Uda antenna array, which is commonly used in surveillance radar systems operating at a meter frequency band. The development is achieved through a modification of the previously mentioned antenna, which aims to increase the directivity of the antenna array, with a minimum cost and the same signal processing as the original antenna array platform. An additional two-row Yagi-Uda antenna array is proposed, comprising 14 elements in each row and an associated power unit. This modification is designed to enhance the pattern characteristics of the array. Simulation and measurement results for the pattern of the antenna indicate that the achieved gain for the proposed modification is more than 3 dB in compression compared to that of the traditional 16-element array. [ABSTRACT FROM AUTHOR]

Published

2024

16. A Dual-Band, Dual-Pattern Antenna for Body-Centric Communications.

Author

Alqarni, Mohammed A., Masood, Rizwan, Alkatheiri, Mohammed Saeed, Chauhdary, Sajjad Hussain, and Saleem, Sajid

Subjects

ANTENNA radiation patterns, ANTENNAS (Electronics), MICROSTRIP antennas, IMPEDANCE matching, MIMO systems, PLANAR antennas

Abstract

A dual-band, dual-pattern antenna is presented for 1.437 GHz L-band and 2.45 GHz Industrial Scientific and Medical (ISM) band applications. The antenna is based on multilayer circular patches with symmetric slots and two asymmetric cylindrical vias that shorten the multiple layers with the ground plane using Plated Through-Holes (PTHs) to generate the required resonant modes. The first mode is operated at 1.437 GHz, providing an omnidirectional radiation pattern, while the second mode is operated at 2.45 GHz, providing a directional or broadside radiation pattern. The antenna was fabricated to validate the simulation results and excellent agreement was found between the simulation and experimental results. The antenna has a total size of only 6x6x0.443 cm³, which corresponds to an electrical size of 0.5λ0x0.5λ0x0.03λ0 at 2.45 GHz and 0.28λ0x0.28λ0x0.02λ0 at 1.437GHz, thanks to the loading effect of shorting vias. The gain of the antenna is 1.62 dBi at 1.437 GHz and 6.48 dBi at 2.45 GHz, along with quite good radiation efficiencies of 83.4% and 96%, respectively. For body-centric applications, the performance of the antenna was also examined in close proximity to the human body. Nearly stable performance was found in close proximity to the human body, comparable to free space performance in terms of both impedance matching and radiation patterns. The 10g Specific Absorption Rate (SAR) of the antenna was also measured and found to be below the international compliance limits. These characteristics make the antenna a very promising choice for body-centric communications. The antenna also applies to other wireless systems such as MIMO, wireless ad hoc networks, etc. It offers radiation pattern diversity in a single planar package with a highly flexible and adaptable design by providing much more degrees of freedom than classical microstrip antennas. [ABSTRACT FROM AUTHOR]

Published

2024

17. 基于遗传模拟退火算法的子阵级自适应波束形成.

Author

刘子敬, 陈 曦, 施庆展, and 崔开博

Subjects

ADAPTIVE antennas, ANTENNA arrays, ANTENNA radiation patterns, COST functions, SIGNAL processing

Abstract

Copyright of Telecommunication Engineering is the property of Telecommunication Engineering and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

18. Compact VHF/UHF Ultrawideband Discone Antenna with Consistent Pattern.

Author

Li, Guang, Zhang, Fushun, and Wang, Bingnan

Subjects

*HIGH frequency antennas, *UHF antennas, *ULTRA-wideband antennas, *ANTENNA radiation patterns, *ANTENNAS (Electronics)

Abstract

A compact VHF/UHF ultrawideband discone antenna with consistent patterns is proposed in this article. The proposed antenna consists of a disk, a modified cone, an inverted cone, four shorting probes, and two sleeves. To improve the radiation angular distortion at high frequencies, two sleeves are inserted into the discone antenna. Higher-order modes are suppressed, and ultrawideband consistent patterns are obtained without antenna size increasing. An inverted cone and four shorting probes are introduced to achieve broadband and profile reduction. An antenna prototype is fabricated and measured. The proposed antenna possesses consistent patterns in a 11.36:1 bandwidth. The pattern nulls is improved by 26.1 dB. The antenna occupies a cylindrical volume of 0.227 λ 0 (D) and 0.096 λ 0 (H). It is a competitive candidate for future in-vehicle communication systems. [ABSTRACT FROM AUTHOR]

Published

2024

19. Reconfigurable intelligent surface enabled programmable antenna chamber: Concept and preliminary experiments.

Author

Li, Yifa, Zhang, Fengchun, Olesen, Kim, Ying, Zhinong, Pedersen, Gert Frølund, and Fan, Wei

Subjects

*RADIO antennas, *ANTENNAS (Electronics), *ANTENNA radiation patterns, *RADIO measurements, *LEAD time (Supply chain management), *ANECHOIC chambers, *REVERBERATION chambers

Abstract

Antenna chambers are RF‐shielded enclosures which are required for antenna and radio performance measurements. Typically, anechoic chambers (ACs) are used for measuring directional metrics (e.g. antenna pattern, effective isotropic power etc.), while reverberation chambers (RCs) are widely used for non‐directional measurements (e.g. antenna efficiency, total radiated power etc.). When a device under test requires both types of measurements, testing needs to be conducted sequentially in an AC and an RC. This leads to significant time inefficiencies due to the need to set up and calibrate two separate measurement setups in two different chambers. To address these issues, this letter proposes a programmable chamber framework capable of electronically switching between AC and RC modes by programming the reflective intelligent surface‐enabled sidewalls. This framework is highly attractive for the industry as it supports both directional and non‐directional measurements within a single chamber. The letter outlines the conceptual framework, discusses design considerations, and presents preliminary experimental validation of reflective intelligent surface‐enabled sidewall with the designed phase‐setting configurations to emulate the radio absorber sidewall of an AC and the metal plate sidewall of an RC. The experimental results demonstrate the effectiveness and potential of the proposed approach. [ABSTRACT FROM AUTHOR]

Published

2024

20. A compact double‐sided four‐port printed antenna with pattern and polarization diversity for super‐wideband applications.

Author

Acharjee, Juin, Chowdhury, Marma Kundu, and Mandal, Kaushik

Subjects

*ANTENNA radiation patterns, *CIRCULAR polarization, *ANTENNAS (Electronics), *ROTATIONAL symmetry, *MICROSTRIP antennas

Abstract

Summary: A compact, double‐sided four‐port printed antenna with pattern and polarization diversity performance is proposed for super‐wideband (SWB) applications. The proposed printed antenna consists of microstrip line‐fed corner truncated four identical square patches. One pair of patches is placed strategically on the top side of the substrate, and another pair is on the bottom side with rotational symmetry to realize a compact four‐port antenna with higher port isolation (>25 dB) throughout the operating band along with pattern diversity. A half‐circular slit is etched in the partial ground plane of all four antennas to achieve SWB (1–19.81 GHz) response. A meander‐shaped decoupling structure is incorporated on both sides of the substrate to enhance the port isolation. T‐shaped slots on the patch and corner truncations are conceived to achieve circular polarization (CP) across 5.15–5.83 GHz. The beauty of this structure lies in the easy switching between LHCP and RHCP by just controlling the port excitation. Moreover, the strategic placement of antenna elements produces bidirectional patterns with proper choice of port excitation. A good agreement is observed between the measured and simulation results. [ABSTRACT FROM AUTHOR]

Published

2024

21. A compact 6‐shaped high isolation MIMO antenna for 28 GHz 5G applications.

Author

Chowdhury, Md. Zikrul Bari, Islam, Mohammad Tariqul, Hossain, Ismail, and Samsuzzaman, Md

Subjects

*ANTENNA radiation patterns, *ANTENNAS (Electronics), *REFLECTANCE, *IMPEDANCE matching, *ERROR rates

Abstract

Summary This study presents the design, fabrication, and measurement of a novel MIMO antenna for 28 GHz 5G applications. The design includes two compact antennas with dimensions of 12.8 × 12.8 × 1.6 mm3, placed side by side in a symmetrical arrangement. The antenna being considered operates within the 28 GHz frequency range and has excellent characteristics in terms of reflection coefficient, isolation, and impedance matching. The measurements conducted encompassed both single and MIMO setups and focused on important parameters such the reflection coefficient, transmission coefficient, gain, and efficiency. The MIMO antenna exhibited a reflection coefficient of −62.52 dB at a frequency of 27.93 GHz, while the transmission coefficient was found to be −37.23 dB. The antenna attained a gain of 6.02 dB relative to an isotropic radiator (dBi) and exhibited a maximum efficiency of 90.73%, encompassing a bandwidth of 4.45 MHz (MHz). The simulated envelope correlation coefficient (ECC) was found to be less than 0.003, indicating a very low error rate. Additionally, the antenna attained a diversity gain of 9.998 dB. The suggested MIMO antenna is very suitable for 5G applications operating at 28 GHz. [ABSTRACT FROM AUTHOR]

Published

2024

22. Log‐periodic antenna effect on modulated signals in regions of negative group delay.

Author

Junker, Gregory P. and Yunker, Kenneth A.

Subjects

*ANTENNA radiation patterns, *ANTENNAS (Electronics), *SIGNALS & signaling

Abstract

In frequency regions where ultra‐wide band log‐periodic antennas exhibit negative group delay (NGD), the effect of higher‐order modes upon amplitude‐modulated signals is examined using convolution theory. It is shown that in these frequency regions, the group delay and the effect of the higher order modes upon amplitude‐modulated signals vary throughout the antenna's radiation pattern. It is also shown that the signal time advances predicted by the NGD are due to signal distortion when undesired higher‐order modes are present on the antenna. [ABSTRACT FROM AUTHOR]

Published

2024

23. A novel UWB in‐body printed microstrip feed monopole antenna with dual band‐stop capabilities.

Author

Abdollahvand, Mousa, Zehforoosh, Yashar, Marufi, Banafsheh, Kaleybar, P. Esmailzadeh, and Dastranj, Aliakbar

Subjects

*ANTENNA radiation patterns, *ANTENNA feeds, *ANTENNAS (Electronics), *SUBSTRATES (Materials science), *HUMAN body, *OMNIDIRECTIONAL antennas, *MONOPOLE antennas

Abstract

This paper presents an innovative and condensed blueprint for an ultra‐wideband (UWB) printed monopole antenna, aiming to augment bandwidth and achieve dual band‐stop capabilities, all while accounting for the impact of the human body model on stop bands. The proposed design showcases a square radiating patch situated on the top layer of the substrate, complemented by a ground plane etched on the underside, integrating two sets of adapted U‐shaped slots. Such a configuration delivers a broad operational fractional bandwidth that surpasses 132%. Within our design, a modified C‐shaped slot in the radiation patch creates the first band‐stop property, while a pair of modified F‐shaped slots etched in the radiation patch generates the second stop‐band property. Measuring 12 mm × 18 mm × 0.8 mm, the antenna offers a compact form factor, broad bandwidth, cost‐effectiveness, omnidirectional radiation patterns within the H‐plane and acceptable behavior for using in In‐body microwave applications. [ABSTRACT FROM AUTHOR]

Published

2024

24. Analyzing the Relationship Between UHF Partial Discharge Signal Features and Transferred Charge.

Author

Javandel, Vahid, Akbari, Asghar, Ardebili, Mohammad, and Werle, Peter

Subjects

ANTENNA radiation patterns, ELECTROMAGNETIC waves, POWER transformers, FOURIER transforms, ANTENNAS (Electronics), PARTIAL discharges

Abstract

The ultra-high frequency (UHF) technique offers significant advantages over the conventional partial discharge (PD) measurement method, particularly for online monitoring, 3D localization, and immunity against noise. However, its primary limitation lies in the challenge of calibration due to the impact of various factors such as PD source locations, antenna characteristics, and transformer structures including, active part and tank wall, on the received UHF signals. Currently established parameters such as signals peak-to-peak and energy of signals do not provide a meaningful correlation between received UHF signals strength and factors such as distance and antenna radiation pattern. Addressing these gaps, this paper introduces a novel parameter: the first arrived signal (FAS), derived from the short-time Fourier transform (STFT) of UHF signals. Experimental results demonstrated the capability of the FAS to correlate meaningfully between signal strength and distance from the source, as well as antenna radiation pattern and polarization. The proposed parameter is then utilized to estimate conventional transferred charge using the received UHF signals. Results indicate promising estimation accuracy, particularly when electromagnetic waves directly reach the antenna. This approach offers the potential for a more precise estimation of conventional PD transferred charge, enhancing the capabilities of the UHF method in assessing insulation system health conditions. [ABSTRACT FROM AUTHOR]

Published

2024

25. Hybrid Shaped Multiband Microstrip Patch Antenna for Wireless Communication Applications.

Author

Bhunia, Sunandan, Guha, Koushik, and Tewary, Tapas

Subjects

ANTENNA radiation patterns, MICROSTRIP antennas, ANTENNAS (Electronics), ANTENNA design, WIRELESS communications, WIRELESS LANs

Abstract

In this proposed article authors present the design, analysis and development of the hybrid shaped multiband microstrip patch antenna for various wireless communication applications. Multiband characteristics of the proposed antenna is achieved by modifying the conventional circular radiating patch into “DUMBBELL” shaped hybrid patch geometry along with slotted reduced finite ground plane. A circular shaped reference patch is modified into dumbbell shaped patch by loading another circular shaped patch. Initial ground plane of same dimension as substrate is first decreased in width and four rectangular shaped slots are loaded in the appropriate locations to construct the final ground plane. Physical and electrical dimension of the proposed antenna are 24 mm × 40 mm × 16 mm and 0.18λ × 0.3λ × 0.12λ where λ represents wavelength corresponding to lowest operating frequency of 2.3 GHz. Proposed antenna is designed using FR-4 substrate (1.6 mm thick, loss tangent (tanδ) of 0.02, dielectric constant (εr) of 4.4) and simulated by CST Microwave Studio software. Antenna prototype is fabricated, measured and compared with the simulated results. The proposed hybrid shaped antenna exhibits measured multiband characteristics (2.3-2.5 GHz, 2.6-3 GHz, and 6.9-7.1 GHz) with centre frequency at 2.4, 2.7 and 7 GHz. Observed Reflection Coefficient, efficiency, peak gain and E plane and H plane radiation pattern of the antenna are very close to simulation result. Antenna can be suitably used for 2.4 GHz Wi-Fi and Bluetooth application, 5G mid band spectrum (3 GHz) and 7 GHz VSAT applications as well. [ABSTRACT FROM AUTHOR]

Published

2024

26. Rejection of Surface Clutter in Far Sidelobes for Airborne Radars.

Author

Ji Hwan Yoon, Yeonhee Park, and Ji Eun Roh

Subjects

ANTENNA radiation patterns, RADAR in aeronautics, FALSE alarms, ANTENNA arrays, FLIGHT testing, CLUTTER (Radar)

Abstract

In airborne radar, false alarms caused by surface clutter returns through antenna sidelobes need to be suppressed to detect the target of interest. Sidelobe blanking is widely used to reject false alarms. Ideally, an auxiliary antenna radiation pattern should cover entire sidelobes of the main antenna radiation pattern. However, this may not always be satisfied, especially in the case of far sidelobes (FSL) of the main antenna, for various reasons. In this work, rejection techniques for false alarms caused by surface clutter returns through FSL are proposed. The distortion of the measured angle and velocity of the surface clutter are explained, and a measurement process for estimating the true location and velocity of the clutter is derived. Subsequently, two techniques for false alarm rejection are presented. The first technique is based on the look-up table (LUT) of FSL, which is robust but not practical due to the time and cost required to build a LUT with sufficient resolution. In the second technique, false alarms are rejected when they satisfy predefined criteria derived from their common characteristics, and flight test results confirm that false alarms can be effectively rejected by applying the second technique. [ABSTRACT FROM AUTHOR]

Published

2024

27. A Compact and Flexible Monopole Antenna with Controllable Bandwidth.

Author

Phuong Kim-Thi, Dat Nguyen-Tien, and Tung The-Lam Nguyen

Subjects

ANTENNA radiation patterns, MONOPOLE antennas, ANTENNAS (Electronics), REFLECTANCE, ELECTRIC lines, COPLANAR waveguides

Abstract

In this paper, a compact antenna with flexible and controllable bandwidth characteristics is proposed. To ensure wide coverage along with an omnidirectional radiation pattern, a monopole structure was utilized as the primary radiating element of the proposed antenna. The monopole was fed using a coplanar waveguide technique to achieve a single-layer design. To alter the operating bandwidth, defined by a reflection coefficient of less than -10 dB, a single stub was directly connected to the feeding transmission line. By controlling the stub's length, matching performance in the high-frequency range was found to undergo significant degradation, indicating that the operating bandwidth could be controlled. Furthermore, for validation, two antenna prototypes were fabricated and measured under different circumstances. In the unbending mode, the design without the stub achieved a wideband of 51.6%, while the other design with the stub exhibited a narrower band of about 19.6%. Additionally, the antennas worked efficiently when operating in bending mode. It is also worth noting that the antenna gain and radiation pattern remained stable across the entire operating bandwidth. [ABSTRACT FROM AUTHOR]

Published

2024

28. Synthesis of sparse rectangular planar arrays with weight function and improved grey wolf optimization algorithm

Author

Kui Tao, Bin Wang, Xue Tian, Qi Tang, and Guihan Xie

Subjects

antenna arrays, antenna radiation patterns, planar antenna arrays, Telecommunication, TK5101-6720, Electricity and magnetism, QC501-766

Abstract

Abstract The present article proposes a novel hybrid approach for addressing the synthesis problem of rectangular planar arrays under multiple constraints, through joint optimization of the weight function and the improved grey wolf optimization (IGWO) algorithm. Firstly, the grey wolf optimization (GWO) algorithm is improved by using tent chaotic mapping, nonlinear convergence factor, dominant wolf dynamic belief strategy, and opposition‐based learning strategy to increase the population diversity and the ability to jump out of the local optimum. Secondly, the array elements are weighted using the weight function to generate the position distribution matrix, which reduces the thinned matrix optimization time and improves the optimization efficiency. Finally, the position distribution matrix is used to generate the thinned array, and the IGWO algorithm is applied to perform the sparse optimization with multiple constraints. The effectiveness of the method is verified through numerical simulation and full‐wave simulation experiments, demonstrating its capability to enhance array antenna performance and reduce peak sidelobe level (PSLL). These experimental results hold significant engineering implications and provide valuable references for addressing the array distribution problem under multiple constraints.

Published

2024

29. Phase‐only transmit beampattern synthesis with sparse arrays via alternating optimisation‐alternating direction of the multipliers method

Author

Lifeng Li, Xingang Liu, Xiangrong Wang, Mengkai Hu, and Yufeng Du

Subjects

antenna radiation patterns, array signal processing, Telecommunication, TK5101-6720, Electricity and magnetism, QC501-766

Abstract

Abstract To get simultaneously sparse and constant modulus excitation to reduce the complexity of the array and the mutual effect of neighbouring elements, a novel algorithm via alternating optimisation‐alternating direction of the multipliers method is developed. This method uses the total transmitting power as the objective function to optimise the sparsity and the amplitude of excitation simultaneously. Numerical results are provided to verify its effectiveness.

Published

2024

30. Analysis of gain pattern in square patch reconfigurable antenna on FR4 substrate and compared with RT/duroid for wireless application.

Author

Kumar, Venkatagiri Vinay and Kumar, M. Suresh

Subjects

*ANTENNAS (Electronics), *ANTENNA radiation patterns, *SAMPLE size (Statistics)

Abstract

Develop a reconfigurable square patch antenna for use in wireless applications by utilising a FR4 substrate and analysing the gain pattern of the antenna. Contrast the results with those obtained from an RT/duroid substrate measuring 5880 millimetres. THE TECHNIQUES AND RESOURCES AVAILABLE: For the purpose of comparing the gain of the FR4 square patch antenna with that of the RT/duroid substrate, the sweep frequency was adjusted from 1GHz to 3GHz within the High-frequency structure simulator environment. The antennas that have a FR4 substrate are classified as belonging to Group 1, whereas those that have an RT/duroid substrate are classified as belonging to Group 2. A sample size of n = 16 is assigned to each of the groups. 32 samples make up the whole sample that will be used for the inquiry. RESULTS: There was a 7.56 dB difference between the gain pattern on the FR4 substrate and the gain pattern on the RT/duroid substrate of the Innovative square patch (1.57dB). It is the RT/duroid substrate gain pattern that is the design that maximises gain the greatest. Particularly interesting is the finding of 0.41, which has a p-value that is lower than 0.05. As a consequence of this, the two groups are clearly differentiated from one another. It is possible to draw the conclusion that the 2.4GHz RT/duroid square patch antenna provides a better balanced gain pattern than the FR4 substrate on square patch antenna. This conclusion is based on the limits of the experiment. [ABSTRACT FROM AUTHOR]

Published

2024

31. Low sidelobe planar electrically large sparse array antenna with element number reduction based on genetic algorithm

Author

Yangkun Zhu, Wenyu Ma, Chuang Wang, and Wenquan Cao

Subjects

antenna arrays, antenna radiation patterns, millimetre wave antenna arrays, Telecommunication, TK5101-6720, Electricity and magnetism, QC501-766

Abstract

Abstract Conventionally, both electrically larger (EL) arrays and sparse arrays offer the advantage of element number reduction but disadvantage of high sidelobe levels. A new scheme of planar EL sparse array antenna based on a genetic algorithm (GA) to achieve low sidelobe with element number reduction is proposed. To begin with, EL sparse array antenna optimisation models based on GA for both linear and planar arrays are analysed. Then, an EL slot antenna element based on a 3 × 3 substrate integrated waveguide cavity is designed. An 8‐element linear EL sparse array antenna is designed and compared with a uniform array antenna, demonstrating a reduction in the maximum sidelobe level (MSLL) by nearly 4.6 dB. After that, a 4 × 8 element planar EL sparse array antenna is fabricated and measured. Compared to an 8 × 16 element planar EL uniform array antenna, the number of antenna elements is reduced by 75%, while the MSLL is reduced by approximately 3 dB. The measured −10 dB impedance bandwidth ranges from 25.3 to 27.8 GHz. At the central frequency, the radiation pattern achieves a peak gain of 29.6 dBi, exhibiting low sidelobe levels below −15.0 dB.

Published

2024

32. Three‐dimensional omni‐directional power pattern using rotating electric current sphere via exact maxwell solution

Author

David Alan Garren

Subjects

antenna radiation patterns, antennas, bessel functions, conformal antennas, electromagnetic wave propagation, radar antennas, Telecommunication, TK5101-6720

Abstract

Abstract The author reveals that the power pattern for a particular selected rotating spherical electric current density profile exhibits the following two properties simultaneously: (a) fully omnidirectional in three dimensions (3‐D) and (b) invariant with regards to radio frequency (RF). Specifically, most known antenna designs exhibit either nodal lines or planes for at least some RF frequencies. In contrast, the primary innovation of the subject rotating electric current sphere is that it generates a power pattern that is characterised by no nodal lines nor nodal planes for any RF frequency. In the present analysis, the electro‐magnetic (EM) fields are calculated as an exact solution of Maxwell's equations for the subject electric current density that rotates azimuthally on a spherical surface. As expected, the spatial structure of the resulting EM fields also rotates azimuthally. More surprisingly, this rotating electric current density generates pure magnetic dipole radiation exactly, with the absence of any higher order multipole moments. This proposed antenna concept could offer utility in various applications, including communications beaconing and radar surveillance.

Published

2024

33. A Compact MIMO Rectangular Dielectric Resonator Antenna for Millimeter-Wave Communication.

Author

Merlos-Garza, Erendira, Khan, Zia U., and Khamas, Salam K.

Subjects

DIELECTRIC resonator antennas, ANTENNA radiation patterns, ANTENNAS (Electronics), MIMO systems, STATISTICAL correlation

Abstract

A Rectangular Dielectric Resonator Antenna (RDRA) design for mmWave-frequency-band MIMO metrics is proposed, with a compact, low-complexity, high-gain structure that is easy to fabricate and offers reduced inter–port isolation. The RDRA operates in the mmWave spectrum, featuring a compact size of 1.307 λ 0 × 1.307 λ 0 , an impedance bandwidth of 6%, and a resonant frequency of 28 GHz, with a peak gain of 7 dBi. A four element MIMO system iteration was developed while maintaining the performance of the single element antenna. Additionally, a simple, low-complexity slot-etching technique was applied to achieve an average inter-port element isolation of 14 dB. The design also achieved a novel four-beam petal-splitting radiation pattern. The MIMO metrics, with an envelope correlation coefficient (ECC) of <0.5 and a diversity gain (DG) < 10, were successfully met. The simulated and measured results are in good agreement. [ABSTRACT FROM AUTHOR]

Published

2024

34. A Low-Profile Pattern and Polarization Diversity Dual-Band MIMO Antenna with Full Azimuth Coverage for Indoor Access Points.

Author

Ta, Son Xuat and Phung, Thanh Tung

Subjects

MULTIFREQUENCY antennas, ANTENNA radiation patterns, ANTENNAS (Electronics), AZIMUTH, BANDWIDTHS

Abstract

A low-profile multi-port dual-band antenna with pattern and polarization diversity is presented for 2.45 and 5.8 GHz bands. The antenna consists of a monopolar patch for vertically polarized (VP) omnidirectional radiation and four combining printed-dipole and tapered-slot elements arranged in a circular shape for horizontally polarized (HP) multibeam radiation, and consequently, both pattern and polarization diversities are achieved in the full azimuth plane. The monopolar patch employs four vias and a square-ring slot to excite T M 01 and T M 02 modes at 2.45 and 5.8 GHz, respectively. Each HP element utilizes printed-dipole and tapered-slot modes for the lower and upper bands, respectively. The VP and HP elements are collocated with a common ground plane, which not only allows a low profile but also broadens the lower band of the monopolar mode. The final design with 0.03 λ 2.45 - G H z height yields a measured 10-dB return loss bandwidth of 8.6% and 6.7% at 2.45 and 5.8 GHz, respectively, and an isolation ≥ 20 dB among all the ports. Its pattern and polarization diversities are validated by far-field measurements. [ABSTRACT FROM AUTHOR]

Published

2024

35. Low Sidelobe Slot Array Antenna Radiating Monopulse Patterns Based on Groove‐Transform‐Ridge Gap Waveguide.

Author

Li, Liang, Gao, Hongwei, Zhang, Binchao, Jin, Cheng, and Palaniswamy, Sandeep Kumar

Subjects

ANTENNA radiation patterns, SLOT antennas, ANTENNA arrays, ANTENNAS (Electronics), BANDWIDTHS, POWER dividers, WAVEGUIDE antennas

Abstract

In this paper, a W‐band unequal power divider is proposed on the basis of groove‐to‐ridge gap waveguide, and it is employed to design a low sidelobe level (SLL) slot array antenna with monopulse radiation patterns. The proposed unequal power divider is capable of realizing large power ratio and small phase difference. In light of this property, three different unequal power dividers with various output power ratios and phase balance are proposed for designing a low SLL array antenna. Furthermore, a compare network with planar Magic‐Tee is designed for realizing the monopulse radiation patterns. Then, a 32 × 32 antenna array consisting of five unconnected layers is designed, fabricated, and measured. The measured results indicate that the relative impedance bandwidth of the antenna is about 5.5%. In addition, the realized gain of the sum pattern at 84 GHz is 35.4 dBi, while the null of the difference pattern is less than 38 dB. Furthermore, the SLL of the antenna array is more than −25 dB on both the E‐ and H‐planes within the operating band. [ABSTRACT FROM AUTHOR]

Published

2024

36. Dual-Band Antenna with Pattern and Polarization Diversity.

Author

Mo, Jungmin and Sung, Youngje

Subjects

*MULTIFREQUENCY antennas, *ANTENNA radiation patterns, *ANTENNAS (Electronics), *BANDWIDTHS, *RADIATION

Abstract

This study proposes a pattern–diversity antenna with different radiation patterns at two different frequency bands (f1 and f2; f1: broadside radiation pattern, f2: conical radiation pattern). The proposed structure consists of a central circular antenna and two annular ring antennas, with each of the antennas having individual ports. Two of the ports (port 1 and port 3) exhibit orthogonal broadside radiation patterns at low bands, and the other two ports (port 1 and port 2) exhibit orthogonal conical radiation patterns at high bands. Thus, they have polarization diversity characteristics. To improve isolation between the ports, the inner part of the annular ring antennas is shorted by an array, and the outermost port is positioned orthogonal to the other ports. Using this configuration, the isolation values between the ports are −26.7 and −30.1 dB at the two frequency bands, respectively. Using the fabricated prototype, experimental results show that the proposed antenna achieves −10 dB bandwidths of 240 MHz (5.71–5.95 GHz) and 210 MHz (7.69–7.9 GHz) at f1 and f2, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

37. Eigenvector method for array pattern synthesis.

Author

Chen, Jie and Yin, Yingzeng

Subjects

*MATRIX decomposition, *ANTENNA radiation patterns, *ANTENNA arrays, *EIGENVALUES, *EQUATIONS

Abstract

A novel equation for array beam pattern synthesis is presented. The expected pattern total power is set to a fixed value, under this constraint, the difference between the main beam total power and the other part total power is maximized to achieve the array pattern synthesis. To solve the proposed pattern synthesis equation, which cannot be solved by any published traditional method, based on the Lagrange multiplier method, it is transformed into a new equation in which the array element excitation vector is the eigenvector of a matrix. Thus, the array element excitation vector can be obtained by matrix eigenvalue decomposition. Three array architectures using the method are taken as examples to show its advantages. Simulation results of the examples show that the method has better performance than other methods. The method is a noniterative approach, so it requires less computational volume to complete the pattern synthesis process. In addition, through eigenvalue decomposition, multiple eigenvectors can provide other different solutions of array elements current excitations, which can be applied in different areas. [ABSTRACT FROM AUTHOR]

Published

2024

38. Compact reconfigurable antenna with pattern diversity for K band applications.

Author

Rawal, Pallav and Rawat, Sanyog

Subjects

*ANTENNA radiation patterns, *PIN diodes, *ANTENNAS (Electronics), *WIRELESS LANs

Abstract

Summary: A novel pattern reconfigurable antenna is proposed in this letter. The overall dimension of the antenna is 11 × 11 × 0.787 mm. The proposed antenna is fabricated on Rogers RO4003C substrate. The antenna has two meandered monopoles and two straight monopoles. Two PIN diodes are connected between meandered monopoles and feed. The proposed design has three states of switching, that is, ON‐ON, ON‐OFF, and OFF‐ON. The antenna radiates from 18.5 to 26.25 GHz band with more than 5 GHz (−10 dB) bandwidth for all states. The proposed geometry exhibits 270° radiation beamwidth with 45° and 135° directions for ON‐OFF and OFF‐ON state, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

39. A new synthetic correlation electron cyclotron emission diagnostic for validating nonlinear gyrokinetic simulations of electron temperature turbulence.

Author

Wang, G., Rhodes, T. L., Howard, N. T., and Peebles, W. A.

Subjects

*ELECTRON emission, *ELECTRON temperature, *ELECTRON configuration, *ANTENNA radiation patterns, *TRANSFER functions, *PLASMA turbulence

Abstract

To validate nonlinear gyrokinetic simulations of electron temperature turbulence, the experimental correlation electron cyclotron emission (CECE) measurements are to be compared using a synthetic CECE diagnostic, which generates modeled CECE measurement quantities by implementing realistic measurement parameters (e.g., spatial and wavenumber resolutions, radial location, etc.) to nonlinear gyrokinetic simulations. In this work, we calculate the radial and vertical spatial and wavenumber transfer functions, which are defined by the electron cyclotron emission emissivity radial profile and vertical probing antenna pattern, respectively. These transfer functions are applied to nonlinear gyrokinetic simulations of electron temperature turbulence using the continuum gyrokinetic code. A simultaneous comparison of the experimental electron temperature turbulence power spectrum and root-mean-square (RMS) level, as well as the radial correlation length with the new synthetic CECE diagnostic at a core location ρ ∼ 0.75 in an L-mode DIII-D tokamak plasma, is presented. The preliminary result shows that the synthetic CECE output underestimates the RMS level by ∼42% and overestimates the radial correlation length by ∼40%. [ABSTRACT FROM AUTHOR]

Published

2024

40. Evaluation of the effects of different lightning protection rods on the data quality of C-band weather radars.

Author

Hald, Cornelius, Schaper, Maximilian, Böhm, Annette, Frech, Michael, Petersen, Jan, Lange, Bertram, and Rohrdantz, Benjamin

Subjects

*WEATHER radar networks, *LIGHTNING protection, *ANTENNA radiation patterns, *METEOROLOGICAL services, *APERTURE antennas, *RADAR meteorology

Abstract

Lightning protection is important for weather radars to prevent critical damage or outages, but this can have negative effects on data quality. The existing lightning protection of the German Meteorological Service (Deutscher Wetterdienst, DWD) polarimetric C-band weather radar network consists of four vertical poles with a maximum diameter of 10 cm. During radar operation, these rods cause local scattering in the near field of the antenna, resulting in negative impacts on radar products. One effect is the removal of significant transmission power from the main beam axis and its addition to other areas or the side lobes. This results in wrongly localised precipitation fields in a radial direction. The second effect is the loss of transmitted and received power, appearing as a decrease in system gain, and subsequently an underestimation of all power-based radar moments in the vicinity of the rods. The underestimation in radar reflectivity Z then leads to a negative bias of approximately 20 % in the actual rain rate if a Z – R relationship is applied. These detrimental effects on data quality led to the requirement of developing a new lightning protection concept. The new concept must minimise the effect on data quality but also provide sufficient protection from lightning strikes according to the existing regulations and requirements. Three possible lighting protection concepts are described in this paper: two using vertical rods of different diameters (16 and 40 mm) and one with horizontally placed rods outside the antenna aperture. Their possible influence on data quality is quantified through a dedicated measurement campaign by analysing resulting antenna patterns and precipitation sum products. Antenna patterns are analysed with respect to the side-lobe levels compared to antenna patterns without lightning protection and the original lightning protection. With the newly tested lightning rods, the apparent side-lobe levels are slightly increased compared to an antenna pattern taken without lightning protection but are within the accepted antenna specifications. Compared to the original lightning protection, a decrease of up to - 15 dB in apparent side-lobe levels is found for all tested lightning protection options. Beam blockage is substantially reduced compared to the existing lightning protection, as shown by the evaluation of quantitative precipitation estimation (QPE) sums. These results and some structural considerations are a solid basis to recommend the installation of four rods with a maximum 40 mm diameter for all 17 radar systems of the DWD weather radar network. [ABSTRACT FROM AUTHOR]

Published

2024

41. Quad-port 28/38 GHz Antenna with Isolation Improvement for 5G Wireless Networks.

Author

Ahmed, Mai. F., Ahmed, Mohamed I., Ibrahim, Ahmed A., and Gaber, Shaymaa M.

Subjects

*ANTENNAS (Electronics), *5G networks, *ANTENNA radiation patterns, *ANECHOIC chambers, *SLOT antennas, *IMPEDANCE matching, *MICROSTRIP antennas

Abstract

A 28/38 GHz quad-port cross-shaped antenna printed on a 0.203 mm Roger RO4003 substrate is designed and fabricated for 5G networks. The antenna consists of a rectangular patch radiator with three triangle slots to enhance the antenna's impedance matching. The four elements are arranged in a cross-shaped layout to achieve the desired compactness of 29 mm × 24.2 mm × 0.203 mm. A thin parasitic strip is inserted between the second and fourth elements to enhance the port isolation. The designed antenna is simulated by utilizing the CST simulator. The antenna achieved S11 < -10 dB at 28 / 38 GHz, with isolation ≥ 20 dB. Furthermore, the E- and H-planes within the anechoic chamber are evaluated to validate the MIMO antenna radiation patterns and gain. The MIMO parameters are calculated, simulated, tested, and its outcomes are under the standard level which confirms the MIMO diversity feature. The ECC of the structure is < 0.001, the DG ≥ 9.95 dB. and the CCL was ≤ 0.2 bit/s/Hz across the dual working band. [ABSTRACT FROM AUTHOR]

Published

2024

42. Low sidelobe cosecant-squared pattern time-modulated antenna array with harmonic suppression.

Author

Sallam, Tarek and Attiya, Ahmed M.

Subjects

*ANTENNA arrays, *ANTENNA radiation patterns, *LINEAR antenna arrays, *GENETIC algorithms, *DEGREES of freedom

Abstract

In this paper, a pulse shifting approach with phase-only weighting is proposed for a cosecant-squared radiation pattern time-modulated linear array (TMLA) synthesis. The sidelobe level (SLL) of fundamental signal and maximum sideband levels (SBLs) of harmonic signals is simultaneously reduced. This is achieved by controlling both the phase and the periodic switching time sequence of each element of the TMLA. In pulse shifting, the on–off switching sequence of each radiating element is characterized by a switch-on instant and interval within the modulation period which increases the degrees of freedom. A genetic algorithm (GA) is employed to optimize the switch-on and switch-off instants of each time pulse along with the phase weight for each element in the antenna array. The simulation results reveal that the proposed method can achieve the required patterns with very low SLL and SBLs. [ABSTRACT FROM AUTHOR]

Published

2024

43. Design and investigation of cavity backed bowtie antenna with unidirectional radiation pattern using characteristic mode analysis.

Author

Kamili, Jagadeesh Babu and Bhattacharya, Amitabha

Subjects

BOW-tie antennas, ANTENNA radiation patterns, GROUND penetrating radar, ANTENNAS (Electronics), ANECHOIC chambers, ANTENNA design

Abstract

In this work, a novel cavity backed leaf-shaped bowtie antenna is designed using Characteristic Mode Analysis (CMA). An analytical expression is proposed to arrive at the leaf shape of the bowtie antenna using optimization process. The developed antenna is backed by a square-cavity to get unidirectional radiation pattern with high gain and good front-to-back-ratio characteristics. CMA technique is used in the design and optimization of the cavity structure and generalized design equation is proposed to design the cavity for getting good impedance bandwidth and broadside radiation characteristics in the Desired Band of Interest (DBI). The developed antenna resonates from 0.8 to 4.3 GHz with stable and unidirectional radiation characteristics giving maximum gain and FBR of 11.5 dBi and 15.2 dB respectively, making it suitable for Ground Penetrating Radar (GPR) applications. [ABSTRACT FROM AUTHOR]

Published

2024

44. Design and Implementation of a High Gain Hexagon Loop Antenna for 5G and WLAN Application.

Author

Al-Zahrani, Ali Y. and Najim, Mohd

Subjects

LOOP antennas, ANTENNA radiation patterns, ANTENNAS (Electronics), UNIT cell, MICROSTRIP transmission lines, ANECHOIC chambers

Abstract

In this work, the design and implementation of a high-gain Hexagon Loop Antenna (HLA) for 5G and WLAN application is presented. Initially, a hexagon patch was designed to resonate at 3.5 GHz. A loopbased radiator was tailored to obtain miniaturization without affecting the overall performance of the proposed antenna. A CPW feed was utilized to maintain the wide bandwidth with improved return loss. FR-4 material was used as a dielectric to retain the low cost of the antenna. The return loss was kept well below -10 dB, from 3.2 GHz to 6.4 GHz. The gain of the proposed Microstrip Hexagon Loop Antenna (MHLA) is 5.3 dBi at 3.5 GHz and 8.2 dBi at 5.8 GHz, respectively. To improve the gain and directivity of the proposed antenna, a square-shaped AMC unit cell was considered, and finally, a [4×4] ground plane AMC was integrated with the antenna. The radiation pattern of the antenna is stable and low crosspolarization is maintained for the desired band. A simulation of the proposed antenna was carried out in the ANSYS HFSS tool and the experimental results were measured inside an anechoic chamber. The experimental and simulated results of the proposed antenna are in good agreement. Its simple and lowprofile structure, lower cost, and high gain ensure that the proposed high gain antenna is well suited for sub-6 GHz band and wireless application. [ABSTRACT FROM AUTHOR]

Published

2024

45. 안테나 복사 패턴을 고려한 포물형방정식기법기반레이다 탐지거리분석.

Author

안 민, 허 준, 최남우, 김상수, 한유섭, and 박용배

Subjects

RADAR targets, ELECTRICAL conductors, REFRACTIVE index, ANTENNA radiation patterns, WEATHER

Abstract

This paper presents a novel approach for analyzing the detection range of radars using the split-step Fourier transform-based parabolic-equation (PE) method, which interprets the boundary conditions as perfect electric conductors. The proposed method overcomes the limitations of conventional PE methods, which primarily employ a Gaussian single-beam pattern, by enabling electro- magnetic-wave-propagation analysis based on the effects of antenna-radiation patterns. To verify that it can appropriately account for the antenna-radiation pattern, the path losses in the elevation-angle directions of the main and side lobes were analyzed and compared with the free-space path loss. Subsequently, the PE method, which accounts for the antenna-radiation pattern, was used to calculate the received power for a target with a specific radar cross-section under free-space and duct situations based on the atmospheric refractive index. The results showed that the proposed method enables an accurate detection-range analysis reflecting the actual operational environment of a radar. Additionally, it can be applied to the PE method based on the actual radar-antenna pattern by considering in- homogeneous atmospheric conditions and the curvature of the Earth. [ABSTRACT FROM AUTHOR]

Published

2024

46. RIS codebook‐based beamsteering validation and field trials.

Author

Wang, Yiwen, Wang, Weimin, Wu, Yongle, and Fan, Wei

Subjects

*FIELD research, *ANTENNA radiation patterns, *WIRELESS communications, *METAMATERIAL antennas, *BEAMFORMING

Abstract

Reconfigurable intelligent surface (RIS), equipped with a large number of small, low‐cost, and re‐configurable elements, is envisioned as a potential enabler for the upcoming 5G‐Advanced and 6G networks. Here, based on a flexibly tunable and readily programmable RIS, the capability of beamforming toward arbitrary desired directions and coverage enhancement are investigated and experimentally demonstrated. The theory of RIS‐based beamforming is introduced, the simulated beamforming radiation patterns are provided, and an over‐the‐air radiated testing platform is designed for characterizing RIS beamforming performance. The RIS beam steering radiation performance tests are conducted, and the radiation patterns for different directions are extracted and analyzed. In addition, the indoor field trials on the RIS performance evaluation of enhancing coverage are reported. The field trials for multiple RIS‐deployed scenarios, including RIS mirror placement, RIS non‐mirror placement, and non‐RIS assisted scenarios, are conducted, and the channel characteristics for those scenarios are extracted and modelled. Significant improvements in overcoming path loss and shadow fading in typical coverage holes can be observed. The proposed testing method and measurement results may provide some insights into the design and optimization of RIS‐aided wireless communications. [ABSTRACT FROM AUTHOR]

Published

2024

47. The effects of the antenna power pattern uncertainty within a global 21 cm experiment.

Author

Cumner, John, Pieterse, Carla, de Villiers, Dirk, and de Lera Acedo, Eloy

Subjects

*ANTENNA radiation patterns, *PHYSICAL cosmology, *GALAXY formation, *SIGNAL detection, *ANTENNAS (Electronics)

Abstract

Measuring the redshifted sky-averaged neutral hydrogen 21 cm signal with a wide-band antenna operating at metre wavelengths can probe the thermal history of the Universe and the first star and galaxy formation during the Cosmic Dawn. Measurement of this 'global 21 cm' signal is extremely challenging due to foreground signals that are orders of magnitude brighter than the cosmological signal, which must be modelled and removed first. The Radio Experiment for the Analysis of Cosmic Hydrogen (REACH) aims to improve this process by simultaneously fitting the full posterior distribution of both the cosmological and foreground signals with Bayesian inference. The method, however, relies on an informed prior; partially derived from a simulated antenna power pattern. This simulated antenna power pattern will differ from the true antenna power pattern of the deployed instrument, and the impact of this uncertainty is unknown. We investigate this problem by forward modelling mock data with different levels of power pattern uncertainty through the REACH pipeline. We construct perturbed antenna power patterns through truncation of a singular-value-decomposed simulated power pattern; using one to generate mock observation data and the others to inform the prior. The power pattern uncertainty is quantified as Δ D , the absolute mean of the difference between the original and perturbed power patterns. Comparing the evidence and root-mean-square error we find that Δ D better than −35 dB, equivalent to millimetre accuracy in the antennas dimensions, is necessary for confident detection of the global signal. We discuss potential solutions to achieve this high level of accuracy. [ABSTRACT FROM AUTHOR]

Published

2024

48. Effects of Fractional Time Delay as a Low-Power True Time Delay Digital Beamforming Architecture.

Author

Liebold, Zachary, Broughton, Bob, and Shemelya, Corey

Subjects

ANTENNA radiation patterns, TELECOMMUNICATION satellites, BEAMFORMING, ORBITS (Astronomy), TIME management, BEAM steering

Abstract

True time delay digital beamforming enables large squint-free bandwidths and high beamcounts, ideal for Low Earth Orbit (LEO) satellite communication links. This work proposes a true time delay architecture using Variable Fractional Delay (VFD). True time delay eliminates many analog beamforming performance constraints including inaccurate beam steering and limited beamcounts, while managing system quantization error. This article presents a method of implementing true time delay using a VFD digital filter with sufficient time resolution to minimize quantization error and enable both gigahertz bandwidths and sampling frequencies. Simulations of antenna patterns utilizing the proposed VFD digital filters demonstrate satisfactory LEO beamforming performance with only a 29-tap filter. The VFD filter was implemented using a Xilinx Virtex Ultrascale FPGA and demonstrated a 1077% reduction in dynamic power and a minimum 498% reduction in logic resources, with only a modest increase in multipliers required when compared to Farrow-based architectures previously proposed in the literature. [ABSTRACT FROM AUTHOR]

Published

2024

49. Analysis, Design, and Experimental Validation of a High-Isolation, Low-Cross-Polarization Antenna Array Demonstrator for Software-Defined-Radar Applications.

Author

Ricciardella, Nicholas, Fuscaldo, Walter, Mattei, Tito, Fiorello, Anna Maria, Infante, Leopoldo, and Galli, Alessandro

Subjects

RADAR antennas, PLANAR antenna arrays, ANTENNA radiation patterns, PHASED array antennas, ANTENNA arrays

Abstract

In a software-defined radar (SDR) system, most of the signal processing usually implemented in hardware is implemented by software, thus allowing for higher flexibility and modularity compared to conventional radar systems. However, the majority of SDR demonstrators and proofs of concept reported in the open literature so far have been based on simple antenna systems. As a result, the full potentialities of an SDR approach have not been completely exploited yet. In this work, we propose a flexible antenna module to be integrated into an active electronically scanning array (AESA) with controlled sidelobe level over a wide angular range, exhibiting polarization reconfigurability with a low cross-polarization level and high isolation. For this purpose, analytical and numerically efficient techniques for the synthesis of the aperture distribution and the correct evaluation of the radiating features (e.g., beamwidth, pointing angle, sidelobe levels, etc.) are presented in order to grant real-time control of the digital beamforming network. A sub-array module demonstrator is fabricated and measured to corroborate the concept. [ABSTRACT FROM AUTHOR]

Published

2024

50. A Wild Horse Optimization algorithm with chaotic inertia weights and its application in linear antenna array synthesis.

Author

Zhao, WanRu, Liu, Yan, Li, JianHui, Zhu, TianNing, Zhao, KunXia, and Hu, Kui

Subjects

*LINEAR antenna arrays, *OPTIMIZATION algorithms, *ANTENNA arrays, *WILD horses, *ANTENNA radiation patterns, *ADAPTIVE antennas, *PARTICLE swarm optimization, *METAHEURISTIC algorithms

Abstract

Antennas play a crucial role in designing an efficient communication system. However, reducing the maximum sidelobe level (SLL) of the beam pattern is a crucial challenge in antenna arrays. Pattern synthesis in smart antennas is a major area of research because of its widespread application across various radar and communication systems. This paper presents an effective technique to minimize the SLL and thus improve the radiation pattern of the linear antenna array (LAA) using the chaotic inertia-weighted Wild Horse optimization (IERWHO) algorithm. The wild horse optimizer (WHO) is a new metaheuristic algorithm based on the social behavior of wild horses. The IERWHO algorithm is an improved Wild Horse optimization (WHO) algorithm that combines the concepts of chaotic sequence factor, nonlinear factor, and inertia weights factor. In this paper, the method is applied for the first time in antenna array synthesis by optimizing parameters such as inter-element spacing and excitation to minimize the SLL while keeping other constraints within the boundary limits, while ensuring that the performance is not affected. For performance evaluation, the simulation tests include 12 benchmark test functions and 12 test functions to verify the effectiveness of the improvement strategies. According to the encouraging research results in this paper, the IERWHO algorithm proposed has a place in the field of optimization. [ABSTRACT FROM AUTHOR]

Published

2024