Resume

Resume – Personal Info

I am a goal-oriented RF design engineer with more than 6 years of experience designing innovative different types of antenna and RF products by way of demonstration. The implementation of cutting-edge concepts is driven by research and analysis, from large-scale product development to feasibility study. During 3 years of postdoctoral research career, experienced with different types of antenna design, fabrication, and measurement in different criteria.

COMPUTER SKILLS

  • ST STUDIO SUITE
  • ALTAIR FEKO
  • ANSYS HFSS
  • KEYSIGHT ADS
  • MATLAB
  • MICROSIM Ps PICE
  • MICROSOFT OFFICE
  • POWER POINT
  • MICROSOFT EXCEL
  • VISIO

COMPUTER SKILLS: 2

  • PROGRAMMING C/C++
  • LINUX (FEDORA CORE)
  • INTERNET & E-MAIL
  • PC ASSEMBLING
  • TROUBLESHOOTING
  • SOFTWARE DEVELOPMENT

LANGUAGE

  • ENGLISH
  • HINDI
  • BANGLA

HOBBIES

  • WATCHING MOVIE
  • TRAVELLING
  • PHOTOGRAPHY
  • WATCHING FOOTBALL
  • WATCHING CRICKET
  • LISTENING TO MUSIC

OTHER SKILLS

  • MENTORSHIP
  • MANAGEMENT
  • LEADERSHIP
  • DYNAMIC TEAM MEMBER

References

1) Dr. Jorge L. Salazar-Cerreno 

William H. Barkow Presidential Associate Professor
School of Electrical and Computer Engineering (ECE) 

Advanced Radar Research center (ARRC)
The University of Oklahoma, Norman
3190 Monitor Av. Norman Oklahoma, 73072 RIL-110
Email: [email protected]
web: www.ou-arrc-paard.com 

Off: (405)325-6499, Cell: (405)922-7848

2) Ifana Mahbub, Ph.D.

Associate Professor and Texas Instruments Early Career Award in Electrical and Computer Engineering

Department of Electrical and Computer Engineering

The University of Texas at Dallas

800 W Campbell Road
Richardson, Texas 75080

Office: ECSN 3.914

Email: [email protected]

Phone: 972-883-6463

3) Ir. Dr. Tiang Jun Jiat

Assistant Professor

FACULTY OF ARTIFICIAL INTELLIGENCE AND ENGINEERING (FAIE)

AR4008, Multimedia University, Persiaran Multimedia

63100, Cyberjaya, Selangor

 Phone: 03-83125496

 Email:  [email protected]

TECHNECAL KNOWLEDGE

Antenna Simulation: CST, Ansys HFSS, MATLAB, FEKO and Keysight ADS

Antenna Fabrication: LPKF ProtoLaser U4 Micro-material processing, Electroless- and

electro-plating setup, Multilayer lamination capabilities, Polymer chemical vapor deposition,

3D solid free-form fabrication and Photolithography patterning.

Major Testing Equipment: VNA, PNA, PNA-X with 20 to 110 GHz, Agilent PSA and

EXA Spectrum Analyzers, Agilent PSG Analog and digital generator and RF front extender

Cobalt FEV-10 Frequency Extension system and different spectrum and waveform generator

etc.

Antenna Measurement System: Diamond Engineering 360 Automated Measurement

System, NSI 2000 Near Field Measurement System, MiliBox Antenna Test Chamber.

Programing Languages: MATLAB, C and C++

EDUCATIONAL QUALIFICATIONS

Doctor Of Philosophy in Electrical & Communication Engineering (Ph.D.)

Multimedia University (MMU), MMU Cyberjaya, Malaysia

Duration: 3rd June 2019 to 11th Jan 2024

Master of Science in Electrical & Electronics Engineering (M. Sc. Engg.)

Khulna University of Engineering and Technology (KUET), Khulna, Bangladesh

CGPA: 3.71 (in a scale of 4.00)

Duration: 1st January 2013 to 27th February 2016

Bachelor of Science in Electronic & Comm. Engineering (B. Sc. Engg.)

Khulna University (KU), Khulna-9203, Bangladesh

CGPA: 3.60 (in a scale of 4.00)

Duration: 1st January 2007 to 4th August 2011

Cisco Local Certified (CCNA)

Khulna University of Engineering and Technology (KUET), Khulna, Bangladesh

Grade: A (75% marks)

Duration: 1st January 2014 to 30th December 2014

INTERESTS AND EXPERTISE AREA OF RESEARCH

UWB Phased Array for finite and infinite Approaches

Lens Antenna (dielectric and meta surface)

Beam Steerable Reconfigurable Reflectarray Antenna System

3D All Metal Antenna Array System

Rectifier and Rectenna System

Ambient RF Energy Harvesting System

Wireless Power Transfer (WPT) System

PROFESSIONAL EXPERIENCE

Postdoctoral Research Scientist at Advanced Radar Research Center (ARRC) of The

University of Oklahoma, UTD, Norman, Oklahoma

Project Details: Phased Array and Applied Electromagnetic System, Grant No: SPNSR

ENGO7101 00000

Duration: 9th September 2024 to present

Antenna and Electromagnetic Part:

Design and analysis of UWB Phased Array Antenna for Radar system.

Analyzing and designing dielectric Lens Antenna using ray-tracing and optics

features.

Fabrication and measurement using fully anechoic chamber to check the Far/Near

field pattern for different criteria such as co-pol, cross-pol, RHCP, LHCP etc.

Responsibilities:

Design, analysis, and fabrication of various UWB phased array and lens antennas

covering frequency ranges such as 0.1– 6 GHz, 2–10 GHz, and 2–30 GHz.

The dual-polarized Airborne Phased Array Radar (APAR), featuring a two-

dimensional (2D) electronically scanned C-band radar system, is designed and

analyzed for integration with the C-130 aircraft using Altair Feko.

The FEKO-formatted data files (.ffe) were converted into MATLAB-formatted data

for use in analyzing different scanned far-field radiation patterns.

Advanced Tech Skills & Tools:

CST Studio Suite, Altair FEKO Keysight ADS, MATLAB, HFSS, VNA, Spectrum

Analyzer, Signal Generator, Oscilloscope, Digital Multimeter, Soldering Tools.

Antenna measurement experience using Anechoic Chamber with two types of

measurement systems like NSI2000 and DAMS.

Advanced Tech Skills & Tools

CST Studio Suite, Keysight ADS, HFSS, Spectrum Analyzer, VNA, Signal

Generator, Oscilloscope, Digital Multimeter.

PROFESSIONAL EXPERIENCE: 2

Postdoctoral Research Associate, The University of Taxes at Dallas, UTD, Tx

Project Details: DARPA, WPT system for UMV, Grant No: W911NF-23-1-0029

Duration: 1st January 2021 to 9th September 2024

Antenna and Electromagnetic Part:

Design, analyzed, and simulations different types of UWB antenna array such as

microstrip antenna array, reflectarray, metasurface array and metamaterial antenna

array.

Analyzing beam steering techniques for controlling the phase of the array antennas

using Lens technology.

NSI 2000 anechoic chamber is used to measure the Far/Near field pattern for

different criteria such as co-pol, cross-pol, RHCP, LHCP etc.

Active Circuit Part:

Design, analyzed, and simulation on UWB rectifiers and Rectenna.

Take fabricated printed circuit board test them various performance parameters (s-

parameter, rectification efficiency, dc generated voltage on load section etc.) on the

lab environment.

Demonstration and feasibility studied for long range WPT system by applying

different RF input power levels.

Advanced Tech Skills & Tools:

CST Studio Suite, Keysight ADS, MATLAB, HFSS, VNA, Spectrum Analyzer,

Signal Generator, Oscilloscope, Digital Multimeter, Soldering Tools.

Antenna measurement experience using Anechoic Chamber with two types of

measurement systems like NSI2000 and DAMS.

Advanced Tech Skills & Tools

CST Studio Suite, Keysight ADS, HFSS, Spectrum Analyzer, VNA, Signal

Generator, Oscilloscope, Digital Multimeter.

PATENT SUBMISSION

1) A Novel Hexagonal -shaped wideband dualpolarized RA antenna for Wireless

Power Transfer System (in review)

2) Y Shaped Dual Layer Ultra-wideband Reflectarray Antenna with Active-Feeding

Beam-Steering for Wireless Power Transfer (WPT) Application (in review)

Efficient Working Experience

Experience in the design and development of RF antennas encompasses a wide

range of applications, particularly in telecommunications and wireless

communication technologies.

Designed and analysis of UWB Phased Array Antenna for Radar system.

Analyzing and design large, phased Array for infinite and finite approach.

Lens antennas are designed in various shapes, each suited for specific functions

such as focusing, collimation, beam scanning, or minimizing aberrations. Based

on their features, the main types of lens shapes used in antenna systems are

described along with their design characteristics and ray-tracing behavior.

Designing a lens antenna using ray tracing properties involves applying

geometrical optics (GO) principles to focus or collimate electromagnetic waves

using a dielectric lens structure. Lens antennas are fabricated and measured in

lab used in satellite communications, radar, and other high-frequency

applications due to their high directivity and efficiency.

Antenna design involves the development and optimization of advanced

technologies to meet the demanding performance requirements of next-

generation wireless networks and space-based platforms. This includes

designing high-frequency, high-gain, and beam-forming antenna arrays that

support massive MIMO, low-latency links, and seamless global connectivity.