The document is a resume for Jannatul Ferdous, who is seeking an internship or full-time position utilizing her expertise in radio frequency and communications systems. She has a Master's degree in Electrical Engineering from UT Dallas and a Bachelor's degree from United International University in Bangladesh. Her experience includes lab assistant work at UT Dallas, research engineering in Bangladesh, and an internship in communications engineering. She has skills in RF simulation, circuit design, and programming, and coursework in areas such as digital signal processing and wireless communications.
Towards 802.11g Signal Strength Estimation in an Industrial Environment: a Pr...Dalton Valadares
Paper published in the AINA-2019 (The 33-rd International Conference on Advanced Information Networking and Applications).
March 27-th to March 29-th, 2019 at Kunibiki Messe, Matsue, Japan.
Towards 802.11g Signal Strength Estimation in an Industrial Environment: a Pr...Dalton Valadares
Paper published in the AINA-2019 (The 33-rd International Conference on Advanced Information Networking and Applications).
March 27-th to March 29-th, 2019 at Kunibiki Messe, Matsue, Japan.
Smart Antenna Report for third year Electronics and Communication Students .
Smart Antenna is a really nice topic to discover and present for third year students of electronics and communication engineering branch. So this Report covers it all .
This ppt is about Smart Antenna which includes history, Introduction, Working of smart antenna and where this smart antennas can be used.This ppt also tells about the types of smart antenna and the main principle of working of smart antenna. Smart antennas mainly categorized as Adaptive and switched beam array.Among these two adaptive antenna is used for the efficient utilisation of frequency spectrum.
Experienced Project Assistant with a demonstrated history of working in the research industry. Skilled in Matlab, Fortran, Microsoft Excel, Microsoft Word and EM simulation tools like CST Microwave Studio, Ansoft HFSS and Agilent ADS and VNA measurements. Strong engineering professional with a Master of Technology - MTech focused in Microwave and radar electronics from Cochin University of Science and Technology.
Smart Antenna Report for third year Electronics and Communication Students .
Smart Antenna is a really nice topic to discover and present for third year students of electronics and communication engineering branch. So this Report covers it all .
This ppt is about Smart Antenna which includes history, Introduction, Working of smart antenna and where this smart antennas can be used.This ppt also tells about the types of smart antenna and the main principle of working of smart antenna. Smart antennas mainly categorized as Adaptive and switched beam array.Among these two adaptive antenna is used for the efficient utilisation of frequency spectrum.
Experienced Project Assistant with a demonstrated history of working in the research industry. Skilled in Matlab, Fortran, Microsoft Excel, Microsoft Word and EM simulation tools like CST Microwave Studio, Ansoft HFSS and Agilent ADS and VNA measurements. Strong engineering professional with a Master of Technology - MTech focused in Microwave and radar electronics from Cochin University of Science and Technology.
January2024-Top 10 Read Articles in JANT.pdfjantjournal
International Journal of Antennas is a peer-reviewed, open access journal that publishes original research as well as review articles in the field of antennas and its allied domain. This journal aims to bring together leading academic scientists, researchers, engineers and research scholars to exchange and share their experiences and research results in their specialized arena in antenna engineering. The journal invites good quality research and review papers for publications.
Design and Fabrication of S-Band MIC Power Amplifierijcisjournal
In this paper, we demonstrate an approach to design FET (pHEMT) based amplifier. The FET is from
Berex Inc.The design is carried out using the measured S-parameter data of the FET.ADS is used as design
tool for the design. A single-stage power amplifier demonstrated 13dB output gain from 3GHz-4GHz .The
saturated output power of 1W and the power added efficiency (PAE) up to 43%.The amplifier is fabricated
on a selective device GaAs power pHEMT process in MIC (Microwave Integrated Circuit) Technology.
MICs are realized using one or more different forms of transmission lines, all characterized by their ability
to be printed on a dielectric substrate.Active and passive components such as transistors/FET, thin or thick
film chip capacitors and resistors are attached
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JANNATUL FERDOUS
7825 McCallum Blvd, Apt 114, Dallas, TX-75252
(469)-288-6678| jferdous.utd@gmail.com
https://www.linkedin.com/in/jannatul-ferdous-38987a106
Objective:
Actively seeking a challenging internship/full time position for Fall 2016 to utilize my expertise in the field of radio
frequency with diversified interest in communications and wireless systems for betterment of the organization
and self.
Education:
Master of Science in Electrical Engineering GPA: 3.60/4
The University of Texas at Dallas, USA
Bachelor of Science in Electrical and Electronics Engineering GPA: 3.53/4
United International University, Bangladesh
Accomplishment: Project Connect participant at the 2016 International Microwave Symposium (IMS 2016) in San
Francisco, CA. `` May 23-May 27, 2016
Work Experience
1. Lab Assistant, Electrical Engineering - Teaching Labs, UTD May, 2016-present
Testing Multimeters, Oscilloscopes, Waveform Generators, Power Supplies etc.
Detecting and fixing the errors in the equipment, to ensure proper functionality of the devices
2. Research Engineer, Centre for Energy Research, Bangladesh Dec, 2012-Sep, 2013
Assisted the trainees in writing research proposals.
Provided training sessions to the field workers about Solar Home System, its maintenance and safety
Acquired practical knowledge of Solar Home System design.
3. Communications Engineering Intern, Grameen Phone, Bangladesh Sep, 2012-Nov, 2012
Worked in the Transport Planning under Technology Division.
Assisted in projects such as BTS Swap project, Microwave Swap project.
Assisted in transmission planning such as Re-route Mux, Path re-route, Rollout of BTS.
Hands-on-experience in software such as Network Configuration Management(NCM),
Transport Network Management System(TNMS)
Relevant Coursework Projects:
Design of an octave-bandwidth feedback MMIC amplifier on GaAs
The MMIC amplifier was designed and simulated for an octave bandwidth and an overall gain of 22 dB
was obtained with good input and output matching.
Implemented the feedback network and the matching networks.
Low cost, smaller size and stable amplifier was deigned.
Design of highly sensitive RADAR transceiver:
Designed and analyzed a radar system that consists of Transmit-Receive blocks. The radar system is
replaced with the camera of the drone.
Implemented the radar system in the drone to determine the position and velocity of the respective boat.
Simulations were performed in AWR Visual System Simulator to analyze nominal and worst case cascaded
gain, noise figure, P1dB and OIP3, estimated cost of implementation of the proposed project.
RF and Microwave Design and Measurements Laboratory:
Open Circuit Stub Resonators: Designed, simulated, tested single and parallel open-circuit stub
resonators. Simulations were performed in AWR Microwave office and AXIEM tool and milled in the
board.
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Design of Wilkinson Power Divider: Simulated, designed equal split Wilkinson Power Divider with
nominal power split of 3 dB in each port. Isolation between output ports is 31.36 dB at Center frequency
of 3 GHz.
Branch Coupler and Edge-line Coupler: Designed an edge coupler with coupling of 20 dB, Insertion loss at
center frequency of 3 GHz of <1 dB, relative phase between port 2 and 3 – 90 degrees, input return loss of
> 20 dB and isolation at center frequency of 3 GHz >20 dB. Designed a branch-line Coupler at center
frequency 3 GHz, 3 dB coupling. Insertion loss at ports 2 and 1<1 dB. Input return loss and isolation >20 dB
Microwave filter Design: Designed, simulated, tested RF Filters on FR-4 and Rogers Duroid using
microstrip.
Microwave Amplifier Design : Designed, simulated and tested RF Amplifiers on FR-4 with minimum gain
of 9 dB and frequency range 2-4 GHz
Characterization of Microwave Mixer: Microwave Mixer has been characterized for performance with
regards to conversion loss (dB),leakage loss at IF port (dB) and RF port(dB)
Design of patch antenna: Designed a narrowband patch antenna with return loss > 10 dB on RT Duroid
using AWR Microwave office. The radiation patterns were recorded at different elevation and azimuthal
angles.
Physical Layer Simulation of an OFDM System
Tool: Matlab
Implemented the modulation and demodulation techniques of simplified version of OFDM.
Simulated with AWGN and Multipath channel for WLAN (IEEE 802.11a) standard.
Calculated the Bit Error Rate (BER) for a given channel data.
Executed for BPSK & QAM.
Coursework:
Digital Communication Systems, Introduction to Wireless Communication Systems, RF and Microwave Systems
Engineering, RF and Microwave Circuits, RF Amplifiers, Microwave Design and Measurement Lab, Digital Signal
Processing, Random Process.
Skills:
RF Simulation and CAD : NI AWR Microwave Office , Agilent ADS , AXIEM
Programming : MATLAB , C , C++ ,Verilog , VHDL
Hardware: PCB Design and Soldering, Vector Network Analyzer, Spectrum Analyzer, Signal Analyzer,
Oscilloscopes, Signal Generator.
Circuit Simulation Tools :Multisim , Modelsim , Pspice
Interests : RF System modeling , characterization , validation , testing ; Passive Micro-strip Circuit Design ,
mm – wave Circuit design , LTE , OFDM
Honors and Awards:
Internal Funding, United International University (Bangladesh) : Merit Based Scholarship
Extracurricular Activities:
Member-IEEE, UT Dallas
Member of Bangladesh Student Organization (UTD)
Work Authorization
F-1 Visa (open to relocation)