Nishat Anjumane Salsabila
B.Sc in EEE, CUET
About Me
Hello! I'm Nishat Anjumane Salsabila, a recent Electrical and Electronic Engineering (EEE) graduate with a strong enthusiasm for research and learning new things. My academic background has provided me with a solid foundation in VLSI circuit design, RF/microwave systems, and analog integrated circuits. I have particularly enjoyed exploring low-noise amplifiers (LNAs), LNA design with attenuator, Power Amplifier(PA), and multi-stage amplifier designs using simulation tools such as Cadence Virtuoso. I employed machine learning algorithms to optimize design parameters and speed up the simulation and analysis of these complex analog circuits.
With an eye toward advanced studies, I am eager to pursue a Master’s and Ph.D., where I can dive deeper into analog/RF IC design, low-power architectures, machine learning and emerging semiconductor technologies. While my primary interests lie in these areas, I am also open to conducting research in other relevant sectors. My long-term goal is to grow as a researcher and educator, contributing to innovative work while also inspiring the next generation of engineers. I am now seeking opportunities where I can apply my engineering mindset. I also love sharing my insights on this website. Feel free to reach out to me at nishatanjumane@gmail.com – I’d love to connect!
Education & Interests
Education
-
B.Sc in Electrical and Electronic Engineering, 2019-2025.
Chittagong University of Engineering and Technology, Bangladesh.
Grade: 3.72/4.00
Position: 14/180 -
Higher Secondary Certificate (Science), 2017-2019.
Noakhali Govt. Collage
Grade: 5.00/5.00 -
Secondary School Certificate (Science), 2017.
Noakhali Govt. Girls High School
Grade: 5.00/5.00 -
Junior School Certificate, 2014.
Noakhali Govt. Girls High School
Grade: 5.00/5.00 -
Primary School Certificate, 2010.
Noakhali Govt. Girls High School
Grade: 5.00/5.00
Interests
- VLSI
- Semiconductor
- Communication
- Biomedical Engineering
- Machine Learning
Skills
Programming Tools
- MATLAB : Numerical computing and data analysis.
- Python : Data analysis and Visualization.
- C/C++ : Efficient and structured coding.
- GitHub : Hosting and version control for web development projects.
- Microcontroller : Embedded systems programming.
- 8086 Emulator : Emulation of 8086 microprocessor architecture.
Circuit Design and Simulation
- Cadence Virtuoso (90 nm Technology) : Design and analysis of custom integrated circuits.
- Proteus : Electronic circuit simulation and testing.
- AutoCAD : Computer-aided design software for 2D and 3D drafting, including its application in building design.
- Advanced Design System (ADS) : RF and microwave circuit design.
Markup language and Text Editing
- LaTeX/ Overleaf : Typesetting for academic and professional documents
- HTML/CSS/JavaScript : Creating visually apealing and responsive web pages.
Office productivity and Design Tools
- Microsoft Office : Proficient in Word, Excel, and PowerPoint.
Research Experience
See my Publications for more details.
- Title: Design and Analysis of a Gain - Tunable Low Noise Amplifier for Advanced Medical Imaging Systems
- Supervisor: Dr. Prof Quazi Delwar Hossain
- Advisor: Assistant Prof Mohammad Mahmudul Hasan Tareq
- The thesis presents a high-gain, wideband Low Noise Amplifier (LNA) designed for frequencies above 6 GHz using 90nm technology in Cadence Virtuoso. The LNA, which achieves a power gain of 29 dB across a 1.7 GHz bandwidth (6.6-8.3 GHz) with an average noise figure below 3 dB, is primarily intended for bio-medical applications where signal amplification is crucial. A key innovation of this work is the integration of a gain control mechanism using an input-side attenuator, which maintains the circuit's superior performance while allowing for adjustable gain. This research demonstrates a significant advancement in LNA design, offering a low-power solution with excellent impedance matching for use in both bio-medical and wideband communication systems.
Publications
Click here to search publications
Wideband CMOS Variable Gain Low-Noise Amplifier with Integrated Attenuator for C-Band Wireless Body Area Networks. (Under Review)
Data-Driven Modeling of a Wideband Power Amplifier for Performance Prediction and Feature Analysis (Submitted)
Projects
A lists of my Undergrad Projects
Light intensity measurement using Phototransistor as a sensor
This project is a compact, low-maintenance system that accurately monitors and displays ambient light intensity in real-time. It uses a phototransistor as a light sensor, with a PIC microcontroller serving as the core processing unit. The measured light intensity is then shown on a 16x2 LCD display for user-friendly viewing. The system was developed and validated through a multi-stage process, including simulation in Proteus, data-driven calibration, and final implementation on a custom PCB.
565 KVA Distribution Transformer design
This project details the comprehensive design of a 516 kVA, 3-phase, 50 Hz, 6.6 KV/415 V, delta/star distribution transformer. The work includes all major design calculations and performance analysis, such as efficiency, voltage regulation, and no-load current. I used AutoCAD to design the core and winding layouts, providing a practical, visual representation of the final product.
Generating certificate automatically using MATLAB
This project is an automated system for generating personalized certificates by leveraging MATLAB to streamline the process. It is designed to import data directly from Excel to efficiently create a large number of certificates. The project's core functionality can be easily adapted for other image processing tasks and for automated data analysis in applications like Big Data and IoT.
Electrical Service Design for a Residential Space
This project involved the complete design of an economical and safe electrical system for a residential home's ground floor. Using AutoCAD, I created a 2D floor plan and a single-line diagram, along with detailed calculations for load requirements, cable sizing, and protection devices.
Heartbeat Monitoring System
This project is a cost-effective, real-time heartbeat monitoring system designed with a heart rate sensor and an LCD display. It was prototyped using Proteus simulation and a breadboard before final implementation on a PCB. The system offers a comfortable, low-cost solution for personal health monitoring
Certifications
Machine Learning with Python
This course provided practical experience in applying various machine learning algorithms using Python, with a focus on both supervised and unsupervised learning techniques. I gained hands-on expertise with key libraries like Scikit-learn to build and evaluate predictive models.
Introduction to Deep Learning & Neural Networks
Through dedicated coursework, I have gained a solid foundation in neural networks and deep learning. My expertise includes implementing efficient, vectorized neural networks and identifying key architectural parameters to apply deep learning principles to real-world applications.
Deep Learning with Keras and Tensorflow
Through dedicated coursework and hands-on projects, I have developed expertise in advanced deep learning, specifically using frameworks like Keras and TensorFlow. My skills include building complex neural network architectures, optimizing models for performance, and applying advanced deep learning techniques to solve real-world problems.
IBM Advanced Deep Learning Specialist badge
This Advanced Deep Learning Specialist badge, a professional credential that recognizes my expertise in deep learning. This certification, powered by Coursera, demonstrates my commitment to achieving professional excellence in the field.
Engineering Design & Analysis with MATLAB
This hands-on training provided me a comprehensive mastery of MATLAB for data analysis, design optimization, and algorithm development. I am proficient in applying this expertise to construct and analyze sophisticated models of complex engineering systems.
Mastering VLSI and Semiconductor Techniques
Through this comprehensive course, I gained a strong command of VLSI design and semiconductor techniques. This training equipped me with the practical knowledge to tackle advanced concepts in circuit and system-level design.
Solar System Planning, Design, Installation and operation
This training has equipped me with the skills to manage the entire lifecycle of a solar project, from initial design to final operation. Now, I am proficient in solar system planning, design, and practical implementation.
Industrial Training
Through an industrial training program at DESCO, I developed a strong practical understanding of the electrical power sector. This training enhanced my expertize in the analysis of substation operations, fault detection, the maintenance of electrical distribution systems, applying engineering principles to real-world scenarios.
Scholarships
A list of scholarships I've achieved.
General Grade Scholarship in HSC
2019
I was awarded the General Grade Scholarship in Higher Secondary level by the Board of Secondary and Higher Secondary Education, Chittagong. My tuition fees were fully waived, and I received monthly stipends for four consecutive years.
General Grade Scholarship in JSC
2014
I was awarded the General Grade Scholarship in Junior Secondary level by the Board of Secondary and Higher Secondary Education, Chittagong. My tuition fees were fully waived, and I received monthly stipends for two consecutive years.