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  • دکتری (1382)

    مهندسی برق - مخابرات

    دانشگاه تربیت مدرس،

  • کارشناسی‌ارشد (1376)

    مهندسی برق - مخابرات

    دانشگاه تربیت مدرس،

  • کارشناسی (1374)

    مهندسی برق - الکترونیک

    دانشگاه شیراز،

  • آنتن
  • مدارات فعال و غیرفعال مایکروویو
  • مخابرات ماهواره ای
  • توسعه فناوری آنتن

دکتر بیژن عباسی آرند مدرک کارشناسی خود را در رشته مهندسی برق گرایش الکترونیک از دانشگاه شیراز در سال 1374 و مدارک کارشناسی ارشد و دکتری خود را در رشته مهندسی برق گرایش مخابرات از دانشگاه تربیت مدرس به ترتیب در سال‌های 1376 و 1382 کسب کرده‌اند. ایشان از سال 1382 تا 1384 به عنوان محقق در دپارتمان انتشار امواج الکترومغناطیسی در مرکز تحقیقات مخابرات ایران مشغول به کار بوده‌اند و در سال 1384 به عنوان محقق پسادکتری به آزمایشگاه ارتباطات ماهواره‌ای دانشگاه تربیت مدرس پیوسته‌اند. همچنین در سال 1390 به‌عنوان هیات علمی به دانشکده مهندسی برق و کامپیوتر دانشگاه تربیت مدرس ملحق شده‌اند و هم‌اکنون با سمت دانشیاری به تدریس و تحقیق در این دانشگاه می‌پردازند. جناب آقای دکتر عباسی از بیش از 15 سال سابقه کار اجرایی در مراکز مختلف صنعتی برخوردارند.

ارتباط

رزومه

Circularly polarised backward, broadside, and forward beam scanning cross‐slot loaded periodic planar leaky‐wave antenna

Saeed Barzegari, Keyvan Forooraghi, Bijan A Arand
Journal PapersIET Microwaves, Antennas & Propagation , Volume 15 , Issue 2, 2021 February , {Pages 131-142 }

Abstract

In the present study, a novel periodic planar leaky‐wave antenna (PLWA) was designed, simulated, and fabricated based on the substrate integrated waveguide (SIW) technology. The antenna can scan the main beam from around −60? to +20? continuously with complete suppression of open stopband (OSB) by the sweeping frequency from 9.2 to 14.1?GHz. The proposed structure was designed to have circular polarisation (CP) in the entire operating frequency range, where the broadside or centre frequency is 12.25?GHz. Antenna gain in the broadside frequency is around 13 dBi. The radiation efficiency of the structure is improved and equalised through broadside, which is around 80% in the frequency band of operation. Also, series and shunt analysis wa

Generalized Kerker’s conditions under normal and oblique incidence using the polarizability tensors of nanoparticles

Maryam Hesari-Shermeh, Bijan Abbasi-Arand, Mohammad Yazdi
Journal PapersOptics Express , Volume 29 , Issue 2, 2021 January 18, {Pages 647-662 }

Abstract

The polarizability tensors of a particle are its characteristic parameters, which once obtained, can be applied as equivalent representations of the particle in any problems involving plane wave illuminations. In this paper, the generalized Kerker’s conditions for unidirectional scattering are derived, in the case of normal and oblique incidence, in terms of the polarizability tensors of any arbitrary nanostructures in homogeneous media and located on dielectric substrates. In order to present structures that corroborate the conditions derived from such polarizabilities, first, the effect of constituent material on the frequency response of the nanoparticle is investigated. Then, the dimensions of nanostructures that satisfy the first and

Analysis of substrated periodic metasurfaces under normal incidence

Maryam Hesari-Shermeh, Bijan Abbasi-Arand, Mohammad Yazdi
Journal PapersOptics Express , Volume 29 , Issue 2, 2021 January 18, {Pages 1694-1710 }

Abstract

The analysis and synthesis of metasurfaces are important because of their emerging applications in a broad range of the operational wavelengths from microwaves to the visible light spectrum. Moreover, in many applications, like optical nanoantennas, absorbers, solar cells, and sensing, the presence of a substrate is apparent. Therefore, understanding the effects of substrates upon the metasurfaces is important, as the substrates typically affect the resonance behaviors of particles, as well as the interactions between them. In order to consider the impacts of substrates, this paper develops a method for the characterization and homogenization of substrated metasurfaces. This approach is based on independent studies of the electromagnetic be

Surface Wave Propagation on Bianisotropic Metasurfaces by Using Electric and Magnetic Polarizabilities

Seyed Mojtaba Mousvai, Bijan Abbasi Arand, Keyvan Forooraghi
Journal PapersIEEE Access , Volume 9 , 2021 April 5, {Pages 54241-54253 }

Abstract

In this paper, we study the existence of a surface wave on bianisotropic metasurfaces (BMS) by using electric and magnetic polarizabilities. These polarizabilities connect the local electric and magnetic fields on BMSs with electric and magnetic surface polarizations. We have chosen the method based on surface polarizations because applying boundary conditions using surface polarizations gives a better physical insight than the other methods including surface impedance-based methods. Variations of the electric and magnetic surface polarizations are equivalent to electric and magnetic surface currents, respectively; so, the Variations lead to discontinuities of the magnetic and electric fields on the BMS’s surface. In BMS structures, one o

Design of circularly polarized planar leaky‐wave antenna using characteristic mode analysis

Saeed Barzegari, Keyvan Forooraghi, Bijan Abbasi Arand
Journal PapersIET Microwaves, Antennas & Propagation , 2021 January , {Pages }

Abstract

In the present study, a characteristic mode analysis (CMA) is proposed for the first time to design a periodic leaky‐wave antenna (LWA). By applying CMA to the unit cell of a periodic travelling wave structure, the open stopband is suppressed and circular polarization (CP) radiation is achieved. Also, some parametric studies are added to clarify the design processes. Eventually, to optimize the design, the series and shunt analysis is applied to the unit cell of the periodic travelling wave structure. Based on the proposed analysis, a wideband CP long microstrip LWA (MLWA) is designed and simulated. The MLWA can sweep the main beam from around −30? to +10? continuously through broadside by sweeping the frequency from 7.5 to 12.25 GHz.

Design of a broadband metamaterial-based acoustic lens using elaborated carpet cloak strategy

S Eslamzadeh, M Ghaffari-Miab, B Abbasi-Arand
Journal Papers , , {Pages }

Abstract

Multi-layered parallel plate waveguide with electrically and magnetically biased graphene sheets

M Mohaghegh, BA Arand
Journal Papers , , {Pages }

Abstract

Wideband stacked patch antenna array with reduced sidelobes for Ku-band applications

R Kazemi, M Fallah, B Abbasi Arand, H Mohseni Armaki
Journal Papers , , {Pages }

Abstract

A Novel Method for Analyzing Inhomogeneous Meta-Surfaces

EG Mizuji, BA Arand, K Forooraghi, M Hesari-Shermeh
Journal Papers , , {Pages }

Abstract

AoI Aware Radio Resource Management of Autonomous Platoons via Multi Agent Reinforcement Learning

M Parvini, MR Javan, N Mokari, BA Arand, EA Jorswieck
Journal Papers , , {Pages }

Abstract

A Novel Dual-Band Beam Scanning Antenna Based on slot Active Frequency-Selective Surfaces [Antenna Applications Corner]

V Najafy, BA Arand
Journal Papers , , {Pages }

Abstract

Performance enhancement of microstrip antenna using artificial magnetic conductor reflection phase characteristics

A Jamali Arand, B Abbasi Arand
Journal Papers , , {Pages }

Abstract

Design, Simulation and Fabrication of a Wideband Microstrip Antenna Using Multilayered Structure and Parasitic Element in Ku-Band

R Kazemi, M Fallah, B Abbasi Arand, SH Mohseni Armaki
Journal Papers , , {Pages }

Abstract

Time Resource Management in Cognitive Radar Using Adaptive Waveform Design

M Ghadian, R Fatemi Mofrad, B Abbasi Arand
Journal Papers , , {Pages }

Abstract

Design, Simulation and Fabrication of a High Gain Low Sidelobe Level Waveguide Slot Array Antenna at X-band with Zero Beam Tilts in Both Azimuth and Elevation Directions

M Atamanesh, A Zahedi, B Abbasi-Arand
Journal PapersIEEE Antennas and Wireless Propagation Letters , 2020 March 16, {Pages }

Abstract

In this letter, design, simulation and fabrication of a high gain and wideband waveguide slot array antenna at X-band frequency is presented. In order to reach the required bandwidth, the whole antenna array is divided into several sub arrays. The antenna designing process includes an iterative procedure to determine the antenna structure, the number of radiating slots in each sub array, the offset and length of each radiating slot along with the length and orientation of each coupling slot. For this purpose, a MATLAB program based on the Elliott formulae is developed. The full-wave simulation of the whole antenna array is carried out and the bandwidth and radiating pattern characteristics such as gain and sidelobe levels are measured. The

Design and Implementation of a High Efficiency Microstrip Array Antenna for X-Band Monopulse Tracking Applications

Bijan Abbasi Arand, Amir Bazrkar
Journal PapersIET Microwaves, Antennas & Propagation , 2020 May 28, {Pages }

Abstract

In this paper, an X-band low-profile monopulse array antenna with high aperture efficiency is proposed for target tracking applications. The proposed structure consists of a 112-element patch array antenna, a monopulse comparator, and a full corporate feed network which is composed of waveguide and microstrip dividers. The monopulse comparator and waveguide part of the feed network are produced out of a single-layer substrate as the back-end section. Also, the printed array antenna and microstrip part of the feed network are integrated as the front-end. Finally, the back-end and the front-end sections are integrated through 32 SMP connectors. The proposed design decreases the lateral size of the feed network and results in achieving a high

Design, Simulation, and Fabrication of a High-Gain Low-Sidelobe-Level Waveguide Slot Array Antenna at X-Band With Zero Beam Tilts in Both Azimuth and Elevation Directions

Mehran Atamanesh, Amir Zahedi, Bijan Abbasi-Arand
Journal PapersIEEE Antennas and Wireless Propagation Letters , Volume 19 , Issue 5, 2020 March 16, {Pages 811-815 }

Abstract

In this letter, design, simulation, and fabrication of a high-gain and wideband waveguide slot array antenna at X-band frequency is presented. To reach the required bandwidth, the whole antenna array is divided into several subarrays. The antenna designing process includes an iterative procedure to determine the antenna structure, the number of radiating slots in each subarray, the offset and length of each radiating slot, along with the length and orientation of each coupling slot. For this purpose, a MATLAB program based on the Elliott formulas is developed. The full-wave simulation of the whole antenna array is carried out and the bandwidth and radiating pattern characteristics such as gain and sidelobe levels (SLLs) are measured. The me

Designing Adaptive Time Resource Management Cost Function for Cognitive Radar

Mohammad Ghadian, Reza Fatemi Mofrad, Bijan Abbasi Arand
Journal PapersIET Radar, Sonar & Navigation , 2020 June 17, {Pages }

Abstract

Cognitive radars have the capability of adapting the transmitted waveform with the dynamic state of target and environment, to enhance the radar performance. In this paper, a cost function is proposed for designing the waveform parameters in cognitive radars, along managing the radar time resources. The proposed cost function has the capability of adapting to any radar measurement vector. The purpose of the proposed cost function is to design the waveform parameters adaptively, so that a compromise between the different radar measurement errors is made. This compromise between the different radar measurement errors depends on the prior and posterior target state estimations. Both simulated target data and real target data are used for evalu

Ground (Weibull-Distributed) Clutter Suppression Based on Independent Component Analysis for Detection of Swerling Target Models

H Ghahramani, N Parhizgar, B Abbasi Arand, M Barari
Journal PapersJournal of Communications Technology and Electronics , Volume 65 , 2020 February , {Pages 160-171 }

Abstract

Abstract The present study considers detection of the weak Swerling targets which exist in the clutter Doppler cell of the Weibull-distributed ground-based clutter by means of Independent Component Analysis (ICA). We present a new detector based on convolutive ICA that is independent of target and clutter statistical distribution and has no need to the previous knowledge of the radar signals. For the detection of radar target using ICA, there are some problems that are solved by two wisely proposed approach through the detector. Synthetic generated clutter and target are used to show quantitatively and qualitatively the capability of the proposed ICA-based detector. Also, the method is tested against real-life data. Finally, the computatio

Hot Carbon Fiber Acoustic Vector Sensor and Flowmeter

Mehdi Abedi, Abolghasem Avazpour, Bijan Abbasi Arand
Journal PapersIEEE Sensors Journal , Volume 20 , Issue 12, 2020 February 28, {Pages 6670-6676 }

Abstract

In this paper, a new type of hot wire acoustic vector sensor based on Polyacrylonitrile base carbon fiber, as a sensing element is presented. The vector sensor employs two suspended carbon fiber with micro size diameter and millimeter length as a pair of hot wires that are close together with hundreds of micron separation. Resistance-Temperature curve shows that the temperature coefficient of resistance is negative for carbon fibers. Sensor response to air flow, directivity index, frequency response and sensitivity of the sensor in two different bias voltage have been measured.

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دروس نیمسال جاری

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    آنتن (2) ( واحد)
    دانشکده مهندسی برق و کامپیوتر، گروه مخابرات

دروس نیمسال قبل

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