Zarrar Ullah Khan

Academic

Verbatim text

Zarrar Ullah Khan
+923325199389, zarrkha@gmail.com
Sector F-10/1, Islamabad.
LinkedIn: https://www.linkedin.com/in/zarrkha
Education
Bachelor of Science (Electrical Engineering)
Major:
Power
Beacon House Defence Campus, Lahore
A-Levels (Pre-Engineering)
Beacon House Educational Complex, Rawalpindi
O-Levels (Science)
Projects
Final Project:  HitBOX – Martial Arts Strike Trainer: Developed a professional training product that measures and
displays reaction time, speed, and impact force of a kick/punch in real-time for performance analysis. Data uploaded
to the cloud is shown on a personalized dashboard using Adafruit.io.
Semester Projects:
Home Automation and Security System using Bluetooth/GSM and ATmega32
Controlling home appliances through GSM/Bluetooth by communicating between Mobile Phone & ATmega32.
Implementation of Complex Engineering Problem in MATLAB
Implementation of Amplitude & Frequency Modulation/Demodulation schemes and calculation of SNR.
Audio Pre-Amplifier
Implementation of Pre-Amplifier on Proteus.
Traffic Signal Using Logic Gates
Designing an LED based Traffic Signal Generation Circuit for a 4-way intersection using clocks and timers.
Audio Equalizer
A 10-band software audio equalizer with multiple frequency bands implemented on MATLAB.
Digital Wattmeter using Arduino
Working Digital Wattmeter using Arduino with selector switch, LCD readout and 3 or 4 properly marked terminals.
Linear Regulated DC Power Supply
Designing a variable DC Power Supply of required voltages using Proteus.
Work Experience
Performing tasks using LabVIEW, FlowCode, MikroC, and Proteus.
Working of SCADA Systems, SAP Module, Plant Instrumentation & Control Systems, CP
Systems, Solar Power System for CP & SCADA, and Power Generation.
Oct 2021  -  Dec 2021
May 2021  - Jul 2021
Skills & Tools
Professional Skills:
Documentation, Reporting, Team Collaboration, and Presenting
Technical Skills:
LabVIEW, MATLAB, C++, FlowCode, Atmel, Arduino, Proteus, Multisim
Achievements
Final Year Project chosen amongst the top 03 in Fall ’21 Semester
Trainings / Certification
2-Day Workshop of Solar PV Performance and Design organized at NUST Islamabad
Cisco Certified Network Associate Cyber Ops (CCNA)
Activities
Vice Head Marketing & Sponsorship, EE – NaSCon’19
Coordinator Marketing & Sponsorship – NaSCon’18
Interests
Golf, Travelling
Muhammad Abdullah
+923115445834,muhammadabdullahbinqasim
@gmail.com
Sector F-11/4, Islamabad.
LinkedIn:
ttps://www.linkedin.com/in/muhammadabdullahsiddiqui/
Education
Bachelor of Science (Electrical Engineering)
Major:
Computer Engineering
Islamabad College of Arts and Sciences, Islamabad
A-levels (Pre-Engineering)
Schola Nova, Islamabad
O-levels (Pre-Engineering)
Projects
F inal Project: IOT Enabled Precision Agriculture using Machine Learning and Image Processing:
[Deep Learning Neural Network] Smart Agricultural System uses soil and weather conditions, in order to
predict the type of crop, fertilizer and pesticide to be used, using machine learning and image processing.
S emester Projects:
EDA on Global Terrorism: Exploratory Data Analysis on Global Terrorism.
Smart Airline Management System: Database management system using SQL and HTML.
Digital Wattmeter: Digital Wattmeter measuring voltage, current, phase difference and power. Circuit designed
on proteus and implemented on PCB.
Amplifier
Circuit made on PCB, using diodes, integrated circuits, rectifiers and diodes.
Security system using AT Mega 32
Using RFID and Keypad input to access a security system, where fingerprint of user accessed from database
and granted access accordingly.
Crafting of Wooden Table Lamp
Cutting and fixing of wooden pieces into a table lamp.
Work Experience
Intern at Sparks Foundation
Exploratory Data Analysis on Global Terrorism.
Home Tutor at Cambridge Tuitions
Volunteer for Social Services at Baittusalam
Feb 2022 – Ma 2022
Dec 2019 – June 2020
Sep 2019 – June 2020
May 2018 – May 2022
Skills & Tools
Professional
Skills
Time Management, Team Management, Team work, Problem Solving, Adaptable.
Technical Skills
C++, Python, Arduino, AUTOCAD, Proteus, HTML, CSS, SQL, Tableau, Machine Learning,
MATLAB.
Achievements
High achiever in school life.
Trainings / Certification
Python for Data Sciences from University of Michigan.
Introduction to Data Visualization from Udemy.
Data Science Bootcamp from Udemy. Complete A-Z Machine Learning from Udemy.
Introduction to Blockchain from 101 Blockchain.
Activities
Member of Sponsorship team in
NaSCon. University Football team.
Interests
Sports, Video games and Exercise.
Class of BS (EE)
Final Year
Projects
ABMS-AXA BUILDING MANAGEMENT SYSTEM
In these recent times of evolution, high rise buildings have become a global standard to efficiently
utilize space. Once built, they have very limited resources for maintenance and rehabilitation. To
expand the service life of such an infrastructure, a management system is essential. Our project will
operate on the deterministic model approach with the help of data analysis, to provide the end
user with overall energy savings through predictive maintenance, convenience. In the absence of
such a system, there is no mechanism in place to critically analyze your business' operational
efficiency and achieve new heights.
A Building Management System is an all in all computer-based control system application with a
unique and  distinctive motive of providing cloud-based monitoring and control to extensive
structures. It has both, hardware and software, and is fully customizable depending upon certain
factors. Integrated in a hierarchical manner, the idea is to monitor the building's electrical
mechanical equipment, collect the respective data and after traversing and transforming it through
a gateway, providing essential analysis through predictive maintenance which can give wide-scale
control options. Such systems are called Analytics driven Embedded systems.
There has been a lot of  emphasis on the term “predictive maintenance” as it forms the basis of the
product that is to be developed and essentially refers to observing meaningful trends in data and
taking consequent action.
Technology Used:
Arduino, vmware, Nagios, WinSCP
Supervisor Name:
Dr Mukhtar Ullah
Mr Nafees Qureshi
Group Members:
Haadi Ali (I18 - 0819)
Sami Amjid (I18 - 0840)
Aon Abbas (I18 - 0819)
Automated Fuel Monitoring System
The project is described as an automated fuel monitoring system. International politics have played
a significant influence on prices of fuel in every country. This causes an unpredictability in fuel
prices every 2 to 3 years in the global market. Illegal fuel theft has become a serious problem
everywhere. To overcome this, this project has been devised. It uses non-contact based level
measurement instruments to measure fuel level periodically. These measurements are fed into an
internet based machine learning model. This model then determines whether fuel theft occurs or
not. The end user is informed of this via website. He/she can ascertain whether fuel theft has
occurred or whether it was a false alarm. This project uses AWS cloud services to perform these
actions. The user should have a capable WiFi system at hand and grid connected power supply.
Technology Used:
Machine Learning
Supervisor Name:
Dr. Mukhtar Ullah
Group Members:
Vaneeza Khan(I18-0812)
Eisha tir Razia(I18-0797)
Syed Asad Tariq(I18-0833)
Automated Rainwater Conservation System
This project aims to harvest rainwater. Water is a precious resource. Drinkable water is either
getting contaminated or water tables are lowering due to over pumping, climate change and
mismanagement of water resources.  Only 2% of the Earth’s fresh supply of water is locked in ice
caps and glaciers, while 97.5% of the earth’s water is saltwater. So, there is a pressing need to
conserve and harvest water.
Rainwater Conservation System stores rain water after testing its quality using TDS and Turbidity
Sensors for long term use. Necessary filtration is done to make the stored water drinkable. If water
is not potable, then it can be utilized for other household purposes like cleaning, washing, flushing
and bathing. The system also features real-time remote monitoring of sensor data through cloud
and generates alarms to signal storage depletion.
Technology Used:
Firebase, Arduino
Supervisor Name:
Mr. Aamer Munir
Group Members:
Tahreem Amjad  (I18 - 0908)
Hira Sohail (I18 - 0880)
Mohammad Abdullah  (I18 - 0774)
HitBOX (Martial Arts Strike Trainer)
Technology advancement has infiltrated all types of fields in recent years and the realm of martial-
arts is no different. Instead of old training methods passed down from generation to generation,
athletes are becoming more inclined to use effective tech-based training tools which is starting to
impact the standards of international martial arts competitions. For developing countries, to be
able to compete with these athletes on the international stages, there is a need for a cheaper
alternative to their smart training tools.
HitBOX(Martial Arts Strike Trainer) is an IOT-based training tool designed for modern combat
athletes which senses and records user strikes and displays relevant strike parameters in real-time
and in forms of graphs for comparison and contrast.
A single-point load cell along with an HX-711 load cell amplifier is used for this project. Data from
the sensor is sent to the microcontroller, i.e NodeMCU ESP8266 to process Impact Force, Reaction
Time, and Strike Velocity. These values are sent to the cloud and displayed on a user interface that
is designed using a personalized dashboard on Adafruit.io.
The entire system starts once a player is detected using an RFID module. The project provides a
cost-effective, alternative training tool that presents reasonably accurate data.
Technology Used:
Arduino, Proteus, Adafruit.io
Supervisor Name:
Engr. Aamer Munir
Group Members:
Zarrar Ullah Khan (I17 - 0406)
Mohammad Shauzab (I17 - 0407)
M. Hassnain Khizar( I17 - 0421)
Intelligent water quality monitoring boat
This project aims to design and implement a smart boat which will solve all the issues of water
quality testing of lakes in the future. Due to this product, there will be no need for humans to
practically go to the lake, take samples, test it, and then return back with results. Now, any part of
the lake can be measured for water quality by just telling our boat to go to that point. This will be
done via a mobile app through which we will send the coordinates of a particular point(s). Our
autonomous boat will autonomously go to that point, and will send us the data of the quality of
water in real time on an IoT dashboard via GSM. Data of the water quality will be measured via
sensors which will be embedded on our boat.
Not only that, but we can set up to as many as 5 coordinate points for our boat. Our boat will go to
those points one by one while giving us the real time data on an IoT dashboard. We can represent
that data graphically as well to have a better understanding of what areas of the lake possess what
kind of qualities.
Technology Used:
Arduino IDE, MIT APP Inventor
Supervisor Name:
Dr. Arshad Hassan
Group Members:
Usman Haider (I17 - 0560)
Saman Sajjad (I17 - 0492)
I2C Controller Core for 65nm CMOS
In this project, we aimed to establish communication between Integrated Circuits (IC) using only
two pads. I2C stands for Inter-Integrated Circuit. The I2C protocol is primarily used in the consumer
and telecom market sector and as a board-level communications protocol. We have designed the
I2C slave core (ASIC) to communicate with the outside for configuration, control, and data exchange
by using only two pads.  We mapped our I2C on 65-nm technology for lower power consumption
with improved signal integrity.
Inter-Integrated Circuit (I2C) establishes communication between Integrated Circuits (IC) using only
two pads, which connect an IC chip to external environment. The I2C protocol is a two-wire serial
interface, also known as a bidirectional wire interface. I2C communication requires two wires or
pads: SDA and SCL. SDA is the serial data line and SCL is the serial clock line. The implementation of
I2C protocol made data transfer possible using only two pads.
Technology Used:
Cadence, Vivado
Supervisor Name:
Dr. Rashad Ramzan
Dr. Hassan Saif
Group Members:
M. Usman Kiani (I18-0807)
Zoha Haider (I18-0863)
Rohail Ahmed (I18-0900)
IoT Based Beehive Monitoring
Honeybees are amongst the most important pollinators and the only source of honey. In recent
years, bee colony health has been affected by many factors which can cause adverse effects on the
environment and reduced honey production. Therefore, it is essential for beekeepers to maintain
healthy hives. Beekeepers are required to regularly check and
monitor hives, which is time consuming and laborious and especially difficult when situated at
remote locations. This project will allow remote monitoring of beehives and alarm the beekeepers
regarding any critical event. As a result, beekeepers will be able to make the right efforts to
maintain healthy beehives.
Successful beekeeping requires regular checking and inspection of beehives. Traditional means of
doing so are hiring and situating beekeepers at hive locations which can be cumbersome for
beekeepers and costly. Moreover, repeated intrusion of beehives can
aggravate bees and may cause them to abscond.
“Iot Based beehive monitoring” would allow beekeepers to monitor bee’s health even when they
are far from their hives which would curtail the challenges currently faced by the beekeepers. This
system automatically captures sensor data (temperature, sound, humidity, weight) and sends them
to the cloud via cellular link where it is analyzed. If any critical data is recorded, an alert will be sent
to notify beekeepers via SMS or email. As a result, swarming, decrease in number of bees due to
diseases, honey production, and other important events can be detected which will allow
farmers to make optimal decisions for the best maintenance of their hives.
Technology Used:
Arduino, Proteus , AWS, MySQL
Supervisor Name:
Dr. Mukhtar Ul Allah
Group Members:
Ayman Sajjad  (I18 - 0861)
Ayesha Ishaq (I18 - 0772)
Hamna Noor (I18 - 0884)
Muhammad Soban Younis (I18 - 088)
IoT Enabled Precision Agriculture Using Machine Learning and Image
Processing
This project aims to design and implement a real-time smart farming system, which could provide
farmers with access to AI technologies, enabling data-driven decisions to improve agricultural yield
that too at low cost. By the end of 2050, the world population will elevate to approximately thirty-
four per cent of todays. Food requirements will elevate too however due to conventional farming
and if this continues it will eventually lead to inflation and starvation of resources. Therefore,
through this project we aim to initiate a breakthrough revolution, leading to a drastic increase in
crop yield.
Our device will monitor the real time data from soil and weather sensors and send it to the azure
cloud where machine learning algorithms are deployed for determining the type of fertilizer
required and the type of crop to be sowed according to the obtained data. Moreover, image
processing will be used to identify the pest infecting the crop.
Technology Used:
Artificial Intelligence Cloud and IoT
Supervisor Name:
Dr. Muhammad Tariq
Group Members:
Muhammad Abdullah (I18 - 0778)
Syed Munib Ur Rehman Shah (I18 – 0827)
Muzna Naeem (I18 – 0891)
Kainat Arshad (I18 - 0911)
Single Input Multiple Output Smart Energy Meter
This project aims to design a smart energy meter with multiple output lines with the ability to
generate separate bill for each output. . The application of this meter will be in multi-story houses,
air-bnb’s and hotels. As for bill calculation in multi-story houses owners use sub-meters for each
portion and the installation of these sub-meters costs a lot. Our system will provide multiple
outputs with capability to calculate energy consumption bill of multiple users and therefore it will
be cost effective as the user will have to pay for the installation of only one meter.
Our system will be designed in such a way that even with electricity failure, it will retain the
system's information. Users can easily access its energy consumption information and predict
monthly billing through the mobile application. Owners can also allot a specific number of units to
residents and keep a check on them through the application.
Technology Used:
Arduino IDE, Proteus
Supervisor Name:
Dr. Muhammad Jafar
Group Members:
Wasif Ali Haider (I17-0416)
Amina Sajjad (I18 - 0841)
AD Memon (I18 - 0917)
A Single-Arm Robot for Clinical Trials
The project aims to develop a cost-effective automated system that deals with repetitive testing in
still doing hundreds of tests manually due to the high cost associated with it, which decreases the
overall productivity in labs. Ultimately, it affects the ability of the pathologists to perform high-
value tasks, especially during clinical trials where hundreds of samples have to be tested. Keeping
all these problems in mind, we're developing a system that'll help speed up the testing processes in
the lab. One of the key benefits of the system is that it ensures the testing process is not
contaminated due to human error hence providing accurate results and reducing the risk of
injuries.
Technology Used:
Arduino IDE, AutoCAD, Inventor, MATLAB,
Proteus.
Supervisor Name:
Dr. Shahzad Saleem
Group Members:
Muhammad Awais Butt (I18 - 0821)
Syed Arslan Ahmad (I18 - 0814)
Sajjad Ali Shah (I18 - 0830)
Smart Soil Monitoring System
This project aims to design and implement IOT based Soil Monitoring System.
increased agricultural production. In order to support greater production in farms, the requirement
of the amount of fresh water used in irrigation also rises. Unplanned use of water, technically
results in wastage of water. This suggests that there is an urgent need to develop system that
prevent water wastage without imposing pressure on farmers. Our idea is to improve the
conventional farming techniques. Our aim is to “only provide resources when they are needed”.
In order to avoid the wastage of water and crops, the smart soil monitoring system is employed in
the fields which regularly monitors the soil contents including pH, NPK, EC, Moisture &
Temperature and the farmer is notified about the soil contents over a user-friendly application
without him or her to physically keep track of the fields. This product will help the farmers grow the
crops with minimum wastage of water and minimum damage to crops while maximizing the yield.
Through this, we aim to digitalize our agriculture industry which can be of great use.
Technology Used:
Amazon Web Services (AWS) Arduino
My SQL WorkbencReact Native
Proteus
Supervisor Name:
Dr. Mukhtar Ullah
Group Members:
Syeda Alishbah Gul (I18 - 0858)
Kashif Buland (I18 - 0904)
Sarim Hussain (I18 - 0892)
Faisal Shabbir (I18 – 0816)
SPI CONTROLLER CORE FOR 65nm CMOS
This project aims to establish communication between IC chips using four pads to minimize number
of pads utilized in an IC chip. Serial Peripheral Communication (SPI) protocol was used to establish
bi-directional communication between the IC chips using pads, which connect an IC chip with the
external environment.  Through this project we targeted the implementation of SPI protocol on 65-
nm technology to lower power consumption and improve signal integrity. We wished to establish
communication with no data loss at a high baud rate so that IC chips can transfer and receive data
by using minimum number of pads. Implementing Serial Peripheral Communication (SPI) protocol
on 65-nm technology to communicate between IC chips at high baud rates using a minimum of four
pads, which connect an IC chip with the external environment. This product can be used for on-chip
communication, control devices and sensors.
SPI: SPI stands for Serial Peripheral Interface. SPI is synchronous serial interface for short distance
communication. Operates in full duplex mode. Supports Master-Slave architecture. Also called four-
wired interface. These 4 Wires are MOSI, MISO, SCLK and SS.
Technology Used:
Cadence Tool Suite, Xilinx Tool Suite.
Supervisor Name:
Dr. Rashad Ramzan
Dr. Hassan Saif
Group Members:
Taimoor Hassan(I18 - 0776)
Muhammad Bilal(I18 - 0824)
Hareem Rashid (I18 - 0895)
Digital Signage
Traditional signboards comprising of pan flexes or handmade paintings are often unattractive and
fail to gather the required audience attention and in addition they require large floodlights at night
to make the information visible which adds up more to the cost, so basically these traditional
signboards are not properly fulfilling their purpose of advertisements or public service or anything.
Digital signage is replacement of all these traditional signboards with HID’s and LED,s so that the
message or any content being displayed on the screens is more eye catching and clearly visible at all
times of day.
The basic aim of this project is to cater the advertisement industry.
The concept is to make everything wireless, so that it can be controlled form anywhere.
The purpose of this project is to replace the traditional sign language with digital signage.
A raspberry pi will receive signal form a webserver and it will be displayed on screen.
Technology Used:
Raspberry Pi
Supervisor Name:
Dr. Ata ul Aziz Ikram
Group Members:
Abdul Wahab Asif (I16-0583)
High Achievers
Class of BS (EE)
Ayesha Ishaq (I18-0772)
It is with great honor and pride that I, Ayesha Ishaq, am able to call myself a High Achiever at the
Gold Medalist at the end of every semester as I have managed to maintain a spectacular CGPA of
4.0 since the start.
Before joining FAST, I was consumed by the rumors about how maintaining a good GPA is not a
practice most get accustomed to in this university. This developed an unsettling fear inside of me,
over whether I would be able to perform well. However, once I got enrolled in the Electrical
Engineering program here, I came across some highly qualified professors that were always ready
to provide assistance to help improve my academic stance. With their support paired with my
determination and hard work, I managed to pull myself through the pressure and ended up
attaining excellent scores and grades in almost all courses. I found myself developing a newfound
interest in the field of computer engineering, which I later ended up choosing as my major. Apart
from the academic performance, FAST gave me uncountable opportunities to work on my soft skills
that needed polishing through multiple extra-curricular activities, which helped me pave my way
into becoming the President of one of the university’s esteemed societies. To sum it all up, it was an
exceptional experience, to be a part of FAST with its fair share of peaks and valleys. The advice that
I would like to put forward for the students would be: set your goals, but always keep an open
mindset and be adaptive to changes, be content with the situation and try to make the best out of
it.
Ayman Sajjad (I18-0861)
I am sharing my experience as I am about to be a proud electrical engineer from National University
of Computer and Emerging Sciences (FAST). I can declare with great satisfaction that I have
accomplished academic success during my university career.
What I learned from FAST is that even if the competition is fierce, you can succeed if you are
consistent and set high goals. I'd also like to highlight FAST's diversified environment, which not
only assisted me in refining myself but also resulted in numerous memorable inventive, and
me with a bronze medal in the first semester.
I'd also like to recognize my parents and instructors contributions and endeavors. If they weren't
there to encourage me, my fight and efforts would have been in vain.
In conclusion, I'd want to say that enrolling in FAST was the finest decision I've ever made. Making
the most of my course opportunities, as well as all of the university opportunities is a truly
invaluable experience that I don’t regret. FAST has helped develop my character and I hope it
continues to do so for the next generations to come.
Hamna Noor (I18-0884)
I am happy to be leaving FAST to embark on a new journey. I have passed through many stages of
being a student and going through exigent tasks while being a student has taught me that one
should always be clothed with spirit of curiosity. It really annoys me people say that GPA does not
matter if you remain true to process of learning. I oppose that, for me GPA stands for Getting Past
All dexterities that coming years behold for you. Those difficulties include devoting time to your
studies, indulging in healthy competition, and bonding with people. All these challenges can be
overcome by staying determined. Those four years really imparted a lot of lessons to me, source of
which were my super smart friends and instructors who genuinely cared about what they do and
respected their profession.
Life at FAST has been exhausting and I enjoyed every bit of it (except for waking up for 8am classes
and waiting for bus).
Kainat Arshad (I18-0911)
With utmost gratitude and joy I am proud to call myself a High Achiever at the National University
of Computer and Emerging Sciences in the Electrical Engineering Department.
Like many others the thought of doing Electrical Engineering from FAST scared me but who knew
what the journey would unfold.  The thought of being a high achiever never occurred to me but as
they say HARD WORK always pays off and so it did. One after the other i was bestowed with medals
due to my reckless efforts. Believe me guys, hard work and consistency is the key to success, it can
make you do wonders.
FAST is not just a university, honestly its a world in itself. The highly qualified professors are like
parents who provide ceaseless support and keep you determined.You will experience Lows and
Highs in your journey at FAST but will never find yourself alone. It is a one big family where love,
discipline and respect are the key values that hold it together! Also, FAST isn't just about education
and academics. It provided me with a platform to showcase my skills in every other field. I am
honored to say that it is FAST that assisted me to polish my skills at volleyball, hence leading me to
become the captain of the FAST volleyball team. I will conclude by just giving a little advice to the
students that indeed for short span GPA is enough but for a lifetime of gain, work on your values
and success will come to you eventually.
Kashif Buland (I18-0904)
With great pride and joy, I am able to say, I have achieved something in my university life. FAST
NUCES has awarded me with two prestigious medals in my four years tenure. I am more than
honored to receive them.
Getting a medal was never my sole objective.  The aim was to make my degree worth it. The only
thing that mattered to me was the skills and knowledge I am gaining. I learnt everything with
sincerity. FAST has given me a skillset that will make me settle in this competitive world. I am more
thankful to this institute for shaping me into a completely different person and preparing me to
face the challenges of the world.
Lastly, I am thankful to my teachers and my family for giving me the opportunity to learn. I will
always try to put all my skills and effort for the betterment of this society.
Muhammad Soban Younis (I18-0889)
I, Soban Younis, am honored to call myself a High Achiever at the National University of Computer
and Emerging Sciences, having received a Silver Medal in the second semester and maintained my
name in the Dean’s List of Honor.
I have always had an aspiration to working hard with complete honesty and integrity, though
before joining university I was not among the brightest students. When I got enrolled in the
Electrical Engineering program here, I saw myself perform well academically, which gradually
inculcated this passion for computer hardware and its programming in me. With the ideologies and
theories portrayed by some of my esteemed professors here at FAST, I found myself being inclined
to learning new concepts and doing personal research over it as it naturally kept on sparking my
interest. Other than that, FAST also gave me the opportunity to take part in multiple extra-
curricular activities for example being part of societies, where I am currently the Vice President of
one, and other flagship events, which helped me build my confidence and polish my people skills. It
taught me a great deal about event management, marketing strategies etcetera. In all, it was an
honor to be a part of this journey at a reputed university like FAST. It came with its ups and downs,
like all adventures, but nevertheless it shaped the person that I am today, graduating as a High
Achiever and I could not be more grateful for that. My only advice to the students catching up on
this ride would be, that hard work never fails you in the long run, be it academically or in any other
sector, so never give up on it.
Muzna Naeem (I18-0891)
I, Muzna Naeem, am overwhelmed with joy and pride to call myself as a High Achiever at the
Stepping into FAST scared me due to the rumours surrounding it about how maintaining a good
GPA is not a practice in here. Well, honestly it was the opposite for me. Yes, certainly the journey
was a roller coaster ride full of lows and highs but one thing i can assure you all that GPA will come
if you put your hard-work and enjoy what you are doing.
Electrical Engineering wasn't a preference but after stepping into FAST it became a passion. Mainly
due to the highly qualified professors who provide ceaseless support and keep one determined. It
was due to their efforts and faith in me that I managed to pull myself through the pressure and
ended up attaining excellent scores and grades in almost all courses.
Well, another myth surrounding FAST that it’s all about studying needs to be cleared too. Apart
from the academics, FAST provided me with uncountable opportunities be it working in societies at
various positions or be it outshining in my sport "Volleyball ".  FAST gives you all!! To sum it all up, it
was a phenomenal experience at FAST and one that i will appreciate for a lifetime. Lastly a piece of
advice that I would like to share would be that have high aims no matter what others say, keep
your head clear ,be adaptive to changes,  and cling to all opportunities the university provides you
with!
Vaneeza Khan (I18-0812)
Looking back to the time when I came in FAST certainly it was the toughest time of my life, I
couldn't adapt to university life in the beginning but with the support of my family, friends and
teachers I got the honour of becoming one of the Best Students of our batch. I never thought I
would say this but ''It's hard to say goodbye''. The bond developed in the past 4 years is
irreplaceable. Every day going to University hits me with nostalgia, with all the memories I have
with this institution. All those unforgettable and cheerful experiences helped me bond with variant
people which became a part of my grooming.
For those who think that only talented people are successful or there's favouritism. There's nothing
like that. Self-belief and Hard work will always earn you success. No matter how many people are
against you, you just need to be determined and motivated to pursue your goals. So, trust yourself.
Never doubt your abilities because you can do anything, you can be anything you want as long as
you believe in yourself and work hard.
Lastly a sincere thanks to all my teachers for their consideration and time. Also thank you all for
being patient and helping me improve.
There's a lot more to say but I’ll end it here.
PosiƟon Holder
Class of BS (EE)
Medal Holders of Bachelor of Science (Electrical Engineering)
Batch 2018
S.No Roll-No
Name
Fall-18 Spring-19 Fall-19 Spring-20 Fall-20 Spring-21 Fall-21
18I-0772 Ayesha Ishaq
Gold
Gold
Gold
-
Gold
Gold
Gold
18I-0861 Ayman Sajjad
Bronze
-
-
-
-
-
-
18I-0884 Hamna Noor
Silver
-
-
-
-
-
-
18I-0911 Kainat Arshad
-
-
Silver
-
Silver
Bronze
-
18I-0904 Kashif Buland
-
Bronze
-
-
-
-
Bronze
18I-0889 M Soban Younis
.
-
Silver
-
-
-
-
-
18I-0891 Muzna Naeem
Silver
-
-
-
Bronze
Silver
Silver
18I-0812 Vaneeza Khan
-
-
Bronze
-
-
-
-

AI enrichment