Sobhan Roshani scite author profile

COVID-19 outbreak has put the whole world in an unprecedented difficult situation bringing life around the world to a frightening halt and claiming thousands of lives. Due to COVID-19's spread in 212 countries and territories and increasing numbers of infected cases and death tolls mounting to 5,212,172 and 334,915 (as of May 22 2020), it remains a real threat to the public health system. This paper renders a response to combat the virus through Artificial Intelligence (AI). Some Deep Learning (DL) methods have been illustrated to reach this goal, including Generative Adversarial Networks (GANs), Extreme Learning Machine (ELM), and Long /Short Term Memory (LSTM). It delineates an integrated bioinformatics approach in which different aspects of information from a continuum of structured and unstructured data sources are put together to form the user-friendly platforms for physicians and researchers. The main advantage of these AI-based platforms is to accelerate the process of diagnosis and treatment of the COVID-19 disease. The most recent related publications and medical reports were investigated with the purpose of choosing inputs and targets of the network that could facilitate reaching a reliable Artificial Neural Network-based tool for challenges associated with COVID-19. Furthermore, there are some specific inputs for each platform, including various forms of the data, such as clinical data and medical imaging which can improve the performance of the introduced approaches toward the best responses in practical applications.

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Design of a Compact Planar Transmission Line for Miniaturized Rat-Race Coupler With Harmonics Suppression

Lalbakhsh

Mohamadpour

Roshani

et al. 2021

IEEE Access

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This paper presents an elegant yet straightforward design procedure for a compact rat-race coupler (RRC) with an extended harmonic suppression. The coupler's conventional λ/4 transmission lines (TLs) are replaced by a specialized TL that offers significant size reduction and harmonic elimination capabilities in the proposed approach. The design procedure is verified through the theoretical, circuit, and electromagnetic (EM) analyses, showing excellent agreement among different analyses and the measured results. The circuit and EM results show that the proposed TL replicates the same frequency behaviour of the conventional one at the design frequency of 1.8 GHz while enables harmonic suppression up to the 7 th harmonic and a size reduction of 74%. According to the measured results, the RRC has a fractional bandwidth of 20%, with input insertion losses of around 0.2 dB and isolation level better than 35 dB. Furthermore, the total footprint of the proposed RRC is only 31.7 mm × 15.9 mm, corresponding to 0.28 λ × 0.14 λ, where λ is the guided wavelength at 1.8 GHz.

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Enhancing the performance of a dual-energy gamma ray based three-phase flow meter with the help of grey wolf optimization algorithm

Karami

Roshani

Nazemi

et al. 2018

Flow Measurement and Instrumentation

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Size reduction and performance improvement of a microstrip Wilkinson power divider using a hybrid design technique

Jamshidi

Roshani

Talla

et al. 2021

Sci Rep

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In the design of a microstrip power divider, there are some important factors, including harmonic suppression, insertion loss, and size reduction, which affect the quality of the final product. Thus improving each of these factors contributes to a more efficient design. In this respect, a hybrid technique to reduce the size and improve the performance of a Wilkinson power divider (WPD) is introduced in this paper. The proposed method includes a typical series LC circuit, a miniaturizing inductor, and two transmission lines, which make an LC branch. Accordingly, two quarter-wavelength branches of the conventional WPD are replaced by two proposed LC branches. Not only does this modification lead to a 100% size reduction, an infinite number of harmonics suppression, and high-frequency selectivity theoretically, but it also results in a noticeable performance improvement practically compared to using quarter-wavelength branches in the conventional microstrip power dividers. The main important contributions of this technique are extreme size reduction and harmonic suppression for the implementation of a filtering power divider (FPD). Furthermore, by tuning the LC circuit, the arbitrary numbers of unwanted harmonics are blocked while the operating frequency, the stopband bandwidth, and the operating bandwidth are chosen optionally. The experimental result verifies the theoretical and simulated results of the proposed technique and demonstrates its potential for improving the performance and reducing the size of other similar microstrip components.

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Online measuring density of oil products in annular regime of gas-liquid two phase flows

Roshani

Nazemi

et al. 2018

Measurement

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A novel miniaturized Wilkinson power divider with nth harmonic suppression

Hayati

Roshani

et al. 2013

Journal of Electromagnetic Waves and Applications

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High‐efficiency balanced power amplifier using miniaturized harmonics suppressed coupler

Hookari

Roshani

2020

Int J RF Microw Comput Aided Eng

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A compact coupler design using meandered line compact microstrip resonant cell (MLCMRC) and bended lines

Roshani

2020

Wireless Netw

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Sobhan Roshani

Artificial Intelligence and COVID-19: Deep Learning Approaches for Diagnosis and Treatment

Design of a Compact Planar Transmission Line for Miniaturized Rat-Race Coupler With Harmonics Suppression

Enhancing the performance of a dual-energy gamma ray based three-phase flow meter with the help of grey wolf optimization algorithm

Size reduction and performance improvement of a microstrip Wilkinson power divider using a hybrid design technique

Online measuring density of oil products in annular regime of gas-liquid two phase flows

A novel miniaturized Wilkinson power divider with nth harmonic suppression

High‐efficiency balanced power amplifier using miniaturized harmonics suppressed coupler

A compact coupler design using meandered line compact microstrip resonant cell (MLCMRC) and bended lines

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