EEiPDEx 2022

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

DEWAN SERI LANG

Organized by

PROGRAM INTRODUCTION

The organization of EEIPDEx'22 by the Department of Electrical Engineering is
thought to be very rational to be implemented as a platform for the presentation
of student work that involves an evaluation process by an internal and external
evaluation panel. This session will test students in terms of presentation skills as
well as creative and critical thinking in answering questions posed by the panel
of assessors.

The focus of the program is on the 94 DTK and DEP students who attended the
Project 2 course in the 1 : 2022/2023 session. The aim of this program is to
evaluate student projects in addition to showcasing the work and creativity of
students to the polytechnic and other students. The internal evaluation panel
consists of JKE lecturers. In addition, some selected student projects will also be
evaluated by an invited panel from other departments at PSIS as well as from
external academic institutions.

Overall, it is hoped that the EEIPDEx'22 program will be able to combine all the
elements of the Project 2 course to achieve the ultimate objective of this course,
which is success from the aspect of research, creativity and innovation which is
an added value to the polytechnic, community, industry and the country which
PSIS citizens can be proud of.




ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

CONTENTS

01 Welcome Message

02 Program

Tentative

04 Panels
Industrial Panels
Internal Panels

06 Committee

08 Projects list

Diploma of Electronic Engineering (Communication)

Diploma of Electronic Engineering (Computer)

13 Abstract

Diploma of Electronic Engineering (Communication)
Diploma of Electronic Engineering (Computer)

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

WELLCOME MESSAGE

Assalamualaikum Warahmatullahi Wabarakatuh

Alhamdulillah, thanks to God with the grace of His permission, the 6th ELEC-
TRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION 2022
(EEIPDEx'22) program was successfully carried out. First of all, I would like to
express my congratulations and appreciation to the program committee who
have worked hard to ensure the smooth running of today's program. I truly
appreciate your commitment and cooperation. The EEIPDEx'22 program is a
platform for students to express their creativity and project ideas to share with
other students. In addition, this competition gives recognition to students who
produce the best projects, innovate and have marketability value which is
evaluated by a panel from the institution and also an experienced industry panel.

Competitions and exhibitions like this aim to give students exposure to proper
communication skills through questions and answers and explanations given.
Apart from that, through programs like this, students are trained to be more
competitive and have a better level of confidence so that they can compete at a
higher level. The idea generation from the participants themselves is expected to
inspire other students to become more creative students and produce more
innovative projects in the future.

It is hoped that with efforts like this JKE will be able to produce students who are
balanced, excellent and able to compete and become the best generation who
can drive the development of the country in the future.

In connection with that, I would like to congratulate all the students who made
EEIPDEx'22 a success. May God bless this event.
Thank you.

Zharif Naqiuddin 01

Head of Electrical Engineering Department
Politeknik Sultan Idris Shah

PROGRAM TENTATIVE

Exhibition, Evaluation and Judging

8:00 a.m. Registration of participant
8:30 a.m. Registration and Assessment Panel Briefing
9:00 a.m. Project Exhibition
9:30 a.m. Evaluation and Judging Session
01:00 p.m. Break
2:00 p.m. Closing Ceremony
5:00 p.m. Program Ended

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

02

PROGRAM TENTATIVE

2:00 p.m. Closing Ceremony
2:15 p.m.
2:30 p.m. Arrival of Students, Lecturers and Invitations
2:35 p.m. Arrival and Marching in of the Deputy Director of Academic
2:40 p.m.
Welcome Speech of the Speaker of the Council
2:50 p.m. Recitation of Du'a
Closing Opening Speech by Deputy Director of Academic,

3:00 p.m. PSIS
3:10 p.m. Commentary by the Head of the Appraisal Panel
4:00 p.m. (Ms. Nurul Natasha binti Mohd Jais)
4:15 p.m. Montage Presentation

Project Certificate and Award Presentation
Photo session

End of event

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

03

INDUSTRIAL PANEL

NURUL NATASHA MOHD JAIS
CHIEF CUSTOMER CHAMPION & ASSOCIATES
Tracker Hero,
B-2-09, Jalan Vita 1, Plaza Crystalville,
Lingkaran Cyber Point timur,
Cyber 12,
63000 Cyberjaya

NUR FIRDA AYU BINTI JAMAL
RESEARCHED AND DEVELOPMENT ENGINEER
Sapura Technical Centre Sdn Bhd
No. 11, Jalan P/1, Section 13,
Kawasan Perindustrian Bangi
43650, Bandar Baru Bangi
Selangor

SHAHRIN AZLEE BIN MD SANIB
SOFTWARE DEVELOPER,
Tracker Hero,
B-2-09, Jalan Vita 1, Plaza Crystalville,
Lingkaran Cyber Point timur,
Cyber 12,
63000 Cyberjaya

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

04

INTERNAL PANEL

Mohamad Ramzan bin Mohd Toha Muhamad Anuar bin Marsib Rasna Binti Mansur Ts. Mohd At-Tarmizi Bin Abu Hassan
UPLI JTMK JMSK JKE

Nur Aliya Binti Jamal Hj. Ahmad Fuad Bin Ellias Azrin Hafizal Bin Abd Hamid Ikmal Hisham Bin Abdul Karim
JKE JKE JKE JKE

Hj. Lokman Bin Abbas Maizatul Zalela Binti Mohamed Sail Maszairisam Binti Ameruddin Hj. Miur Jailali Ikram B. Miur Zabidin
JKE JKE JKE JKE

Mohd Azim Bin Kamalolzaman Mohd Farhan ‘Uzair Bin Paisan Mohd Fadzil Bin Baharudin Hj. Mohd Safari Bin Jaafar
JKE JKE JKE JKE

Noor Hidayah Binti Muhamad Adnan Robiah Binti Zakaria Siti Nor Bainu Binti Jamingan Ts. Shahrizan Bin Mohd Razali
JKE JKE JKE JKE

Suhardi Bin Che Ahmad Wan Izma Izniza Binti Mohamed Roseli Wan Norhayati Binti Wan Tahir Hj. Zulkarnaen Bin Mohd Lajin
JKE JKE JKE JKE

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

05

COMMITTEE

Staff Committee

JK Jemputan Panel Luar & Liason Officer
Penaung Program
Ts. Nizam bin Mohd Nasir Cik. Murnie Shakilla binti Shidan (K)
En. Azrin Hafizal bin Abd Hamid
Penasihat Program

Ts. Mohd At-Tarmizi B Abu Hassan JK Multimedia dan Publisiti
Pn. Nur Aliya binti Jamal
En. Mohd Azim bin Kamalolzaman (K)
Pengarah Program En. Mohamad Faiz bin Jamaludin
En. Mohd Farhan 'Uzair bin Paisan

JK Pensijilan & Cenderamata
Timbalan Pengarah Program Pn. Robiah binti Udin (K)
Pn. Maizatul Zalela binti Mohamed Sail Pn. Mazlina binti Mahroji

Setiausaha En. Miur Jailali Ikram bin Miur Zabidin
Pn. Kartini binti Ali


Bendahari JK Persiapan Tempat
Pn. Robiah binti Zakaria (K) En. Mohd Azizy bin Adnan (K)
Cik Noor Hidayah binti Muhamad Adnan En. Mohd Raju @ Mohd Saiful bin Said

Pengurus Acara En. Hairulanuar bin Rosman
En. Zulkarnaen bin Mohd Lajin En. Lokman bin Abbas


JK Penilaian
Dr. Azrul bin Mahfurd (K) JK Pendaftaran Peserta &Jamuan
Ts. Shahrizan bin Mohd Razali Pn. Fairuzita binti Shahran (K)
Pn. Siti Harliza binti Mohd Razali
Pn. Idasuzana binti Idris Pn. Maszairisam binti Ameruddin


JK Perasmian Penutup
En. Mohd Fadzil bin Baharudin (K) JK Keselamatan & Kebersihan
Pn. Wan Norhayati binti Wan Tahir En. Mohd Safari bin. Jaafar (K)
En. Mohd Zeid bin Abu Bakar
En. Ahmad Fuad bin Ellias En. Suhardi bin Che Ahmad
En. Ikmal Hisham bin Abdul Karim



JK Buku Program
Cik Wan Izma Izniza binti Mohamed Roseli (K)
Pn. Siti Nor Bainu binti Jamingan



JK Teknikal
En Aizam Rizal bin Abdul Aziz
Nur Amirah Husna binti Jusaini Amir

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

06

COMMITTEE

Student Committee

JK Multimedia dan Publisiti

Pengarah Program Muhammad Irfan Hakim Bin Shahrul Faisal

Ahmad Daniel Mhiswar Bin Mohd Hassan
(17DEP20F2014)

(17DEP20F2021) Muhammad Haziq Irfan Bin Ahmad Shahrani

(17DEP20F2026)

Timbalan Pengarah Program


Muhammad Irfan Hakimi Bin Mohd Adri
JK Pensijilan & Cenderamata

(17DEP20F2023) Muhammad Fakrulrazi Bin Abdullah

(17DEP20F2015)

Setiausaha Tharishanan A/L Ganasan

Nur Ismahany Binti Razaly (17DEP20F2020) (17DEP20F2028)




Bendahari JK Persiapan Tempat

Mohamad Elham Danny Bin Mohamad Faizal
Muhammad Syamir Bin Mohd Ramadhan

(17DEP20F2031) (17DEP20F2022)

Arif Luqman Bin Zulazly

Pengurus Acara (17DEP20F2027)

Mohamad Yusuf Badawi (17DEP20F2030)


JK Pendaftaran Peserta &Jamuan

JK Penilaian Muhammad Arif Bin Masod

Muhammad Akmal Bin Imran (17DEP20F2019) (17DEP20F2004)

Muhammad Zamir Bin Rafiz (17DEP20F2003) Nurarfah Alya Binti Helmey

Muhamad Hanif Bin Ayub (17DEP20F2008) (17DEP20F2009)




JK Perasmian Penutup JK Keselamatan & Kebersihan

Muhammad Basyiruddin Bin Dahlam
Muhammad Razmer Ar-Ridzwan Bin Mohd

(17DEP20F2010) (17DEP20F2013)

Mohamad Amirul Hafiz Bin Shuib
Loganathan A/L Sathiaseelan (17DEP20F2017)

(17DEP20F2011)


JK Buku Program

JK Jemputan Panel Luar & Liason Officer Isaac John A/L Pichaymuthu (17DEP20F2006)

Muhammad Adzim Bin Ahmad



(17DEP20F2012) JK Teknikal

Syawal Aiman Bin Mohd Azman
Theeneshraj A/L Saravanan (17DEP20F2001)

(17DEP20F2025) Sulaiman Tanjung Bin Syahril (17DEP20F2029)




ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

07

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

Projects List

Diploma of Electronic Engineering (Communication)

17DEP19F1056 Muhammad Aqil Bin Mohd Rahimi 08
17DEP20F1002 Solar Smart Soil Moisture Detector
17DEP20F1003
17DEP20F1004 Muhammad Syahmi Bin Rosman
17DEP20F1005 Drunk Driver Alcohol Detection For Road Safety
17DEP20F1006
17DEP20F1007 Ahmad Amer Faris Bin Che Ramli
17DEP20F1008 Automatic Desk Lamp
17DEP20F1009
17DEP20F1010 Rabiatul Adawiyah Binti Mokhtar
17DEP20F1011 Height Measuring Machine
17DEP20F1012
17DEP20F1013 Muhammad Muazzanazuddin Bin Fadani
17DEP20F1014 Wireless Switch Bot
17DEP20F1015
17DEP20F1016 Wan Nurshakila Batrisyia Binti Wan Muhamad Unan
17DEP20F1017 Controlled Digital Signage
17DEP20F1018
17DEP20F1019 Nur Siti Hajar Binti Nasir
17DEP20F1020 Pet Feeding System

Muhammad Adam
Motion And Time-Triggered Bed Light

Thurkashini A/P Krishnan
Smart Pigeon Hole

John Allen Sabanal Teti
Infrared Home Automation System

Muhamad Rezial Chin
Air Quality And Weather Monitoring System

Norshazwana Binti Muhammad Shahril
Rfid Door Using Arduino

Muhammad Idham Khalid Bin Mohd Azlan
Iot Based Smart Parking System

Aishwariya Rao A/P Manickrow
Home Automation Light Monitoring System

Muhammad Aidil Bin Rosli
Bluetooth Car Parking System

Muhammad Azril Naim Bin Sharepul Baharim
Aquaponic System Using Arduino Mega

Muhammad Haiqal Faris Bin Mohd Rafiee
Auto Fan System

Muhamad Nur Nasrullah Bin Abu Nor
Smart Control Fan Using Arduino Sensor

Nazirah Binti Md Kassim
Fingerprint Safety Box

Muhammad Aiman Asyraaf Bin Khairul Nizam
Aquaponic System Using Esp32

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

17DEP20F1021 Che Ku Zamil Zakwan Bin C. Ku Rasid 09
17DEP20F1022 Electrical Circuit Dee(Code) Learning Aid
17DEP20F1023
17DEP20F1024 Muhammad Danial Fitri Bin Deddey Vijaya
17DEP20F1025 Temperature Sensor And Humidity Sensor Using Tft Lcd
17DEP20F1026
17DEP20F1027 Muhammad Zulkhair Bin Hanizam
17DEP20F1029 Smoke Activation For Warden
17DEP20F1031
17DEP20F1032 Muhammad Haqiemi Riezal Bin Mahadi
17DEP20F1033 Iot Based On Temperature And Humidity Monitoring Using Thingspeak And Esp8266
17DEP20F1034
17DEP20F1035 Muhamad Syafiq Bin Irwan
17DEP20F1037 Automatic Watering Plant System
17DEP20F1038
17DEP20F1039 Nur Haqqim Bin Ahmad Nazli
17DEP20F1040 Smoke Indicator Alert
17DEP20F1041
17DEP20F1042 Muhammad Al-Hafiz Bin Muzli
17DEP20F1043 Motion Monitoring For Home Safety
17DEP20F1044
17DEP20F1045 Fatin Hasmirah Binti Yak'Kub
Laser Security System To Prevent Cases Of Buglary

Muhammad Aqmal Rasyid Bin Suardi
Vending Machine Based On Iot

Izzat Rahimi Bin Ismazt
Water Quality Monitoring Using Iot

Muhammad Norshafiq Bin Abd Rahman
Hotel Reporter

Fahmi Bin Nazarulasmal
Prototype Smart Charging Dustbin Using Arduino

Muhammad Idham Nisam Bin Musa
Smart Inventory Shelves Of Goods

Muhammad Bin Zainal Abidin
Augmented Reality Fiber Optic Components For Education

Muhammad Khaikal Bin Kamaludin
Water Irrigation System Using Iot

Muurthi A/L Munusamy
Vehicle Location Identification System

Gokulan A/L Nadarajah
Manhole Gas Leakage Detector

Zaid Hariz Bin Abdullah Apandi
Automatic Hand Sanitizer Dispenser

Muhammad Syafi Bin Muhamad Razali
Fire And Smoke Alarm System

Muhammad Shafiq Amirul Bin Zamruni
Fingerprint Attendance System At Pusat Islam PSIS

Muhammad Irfan Bin Jamalullail
FM Radio Using Esp32

Syed Ahmad Izzuddin Bin Syed Ramlan
Water Quality Monitoring System Using Iot

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

17DEP20F1046 Muhammad Rizki Bin Mahfut
Magnetic Security Door Lock With Keypad Access And Sports Equipment Management
17DEP20F1047 System Application
17DEP20F1048
17DEP20F1049 Norazalilah Binti Fazli
17DEP20F1050 Soilcare Sensor Using Iot
17DEP20F1051
17DEP20F1053 Nik Izzul Danial Bin Nik Anuwar
17DEP20F1054 Iot Image Using Esp32-Cam Send To The Telegram With Solenoid Lock
17DEP20F1055
17DEP20F1056 Muhammad Danial Hakim Bin Zeaffery
17DEP20F1058 Hotel Reporter
17DEP20F1059
17DEP20F1060 Syaidatul Najwa Binti Zahidi
17DEP20F1061 Ergonomic Study Table With Power Supply
17DEP20F1063
Risheenesh A/L M Balamuthu
Smart Money Organizing Box

Thiwanisarao A/L Nagarajan
Portable Solar Monkey Repellent

Thineshraw A/L Nagarajan
Fingerprint Iot Home Door Lock

Mohammad Norikmal Bin Kasbon
Iot Irrigation Farming System

Vishwaa A/L Kanthavellu
Arduino Solar Tracker

Gooperaaraaj A/L Letchumanan
Fire Alert With Buzzer Sound

Zulfikar Bin Bukhari
Watering Plant Based Iot

Yasmin Faqiha Binti Azahari
Iot Led Strip Using Esp8266 Control By Blynk

Shahrin Azua Bin Sabaran
Design And Development Of Drone Spraying Pesticides

Muhammad Ammarul Arrif Bin Mohd Arrifin
Pigeonhole Alert System

10

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

Projects List

Diploma of Electronic Engineering (Computer)

17DTK19F1073 Muhammad Zulhilmi Bin Kamaruzaman 11
17DTK19F1092 Development Of Fingerprint Door Lock System Using Arduino
17DTK20F1001
17DTK20F1002 Lim Peng Ling
17DTK20F1003 Development Of Automatic Lighting System
17DTK20F1004
17DTK20F1005 Nurul Hanis Binti Mohamad Rizal
17DTK20F1006 Development Of Smart Plant Monitoring System
17DTK20F1007
17DTK20F1008 Syed Farid Bin Sayed Kamarul Bahrin
17DTK20F1010 Development Of A Single Tracking Solar Setup System
17DTK20F1012
17DTK20F1013 Nuraisyah Auni Binti Mustapha
17DTK20F1014 Development Of Controlled Home Automation
17DTK20F1015
17DTK20F1016 Fikri Bin Azhan
17DTK20F1017 Home Security System With Iot Features
17DTK20F1018
17DTK20F1019 Wan Aqmal Ariff Qhausar Bin Wan Shaipulnizam
17DTK20F1020 Iot Gas Leakage And Fire Detection System

Muhammad Aminin Khairuddin Bin Hisham Sam Mood
Rfid Based Door Lock System With Iot

Mohamad Haikal Hakimi Bin Jamaludin
Lock Door Using Iot

Saraniya A/P Retanasamy
Irrigation System Using Iot

Muhammad Aiman Hakim Bin Mohd Nazri
Face Recognition Door Lock System

Muhammad Norsaiful Fikri Bin Abdullah
Fingerprint & Keypad Locker System

Amirul Hafiz Bin Mazlan
Wireless And Contactless Doorbell

Abdul Rashid Bin Esa
Smart Surau Monitoring And Control System Using Wifi

Muhammad Reezqi Bin S. Sasmasari
Automatic Home Appliances Device

Nuraqilah Nasyitah Binti Azhari
Iot Base Hydroponic Monitoring System

Sathishwar Rao A/L Mahendra Rao
Door Lock System With Face Recognition And Telegram Bot

Badrul Aiman Bin Norhan
Laser Tripwire Backup Security System

Muhammad Hildzan Bin Sajari
Security Camera Using Web Server

Raisarusvayelina Binti Nazar
Smart Iot Fan

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

17DTK20F1022 Muhammad Nabil Hannan Bin Mustapha
17DTK20F1023 Universal Iot Smartplug
17DTK20F1024
17DTK20F1025 Muhammad Faris Fahmi Bin Arman
17DTK20F1027 Temperature And Humidity Monitoring For Shoes Compartment
17DTK20F1028
17DTK20F1029 Azminazman Bin Mat Yahya
17DTK20F1030 Smart Helmet With Accident Detector
17DTK20F1032
17DTK20F1034 Muhamad Aiman Bin Md Isnen
17DTK20F1035 Water Quality Monitoring System Using Iot
17DTK20F1037
17DTK20F1038 Muhammad Nasrul Syabil Bin NazliIot
17DTK20F1040 Pet Feeder
17DTK20F1044
17DTK20F1045 Jivan A/L Balan
17DTK20F1046 Automatic Plant Watering System

Irfan Firdaus Bin Mohd Jasni
Solar Power Monitoring

Muhammad Iskandar Bin Mohd Yusri
Rfid Door Lock Security System

Dayagaran Nair
Automated Plant Irrigation System And Aquaponic

Devashiree A/P Selvam
Gas Detector With Iot

Mohammad Akmal Husaini Bin Azhari
Water Trash Collecting Robot

Muhammad Aliff Daniel Bin Azamil
Dual Axis Solar Tracker

Ahmad Bukhari Bin Ahmad Hasrin
Smart Home Monitoring With Blynk-Iot Integration

Anwar Afifi Bin Ahmad
Automatic Hydraulic Jack

Muhammad Irfan Danial Bin Mohd Nadzir
Smart Attendance Face Id

Mohammad Krizuan Bin Winnie Pedroso @ Wayne
Automatic Wire Cutter Machine

Nurul Fazlyana Binti Zulkefli
Room Automation Using Arduino

12

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

Abstract

Diploma of Electronic Engineering (Communication)

DRUNK DRIVER ALCOHOL DETECTION FOR ROAD SAFETY



Muhammad Syahmi Bin Rosman
Politeknik Sultan Idris Shah


Abstract

The Drunk Driver Alcohol Detector was created to deal with the problem of drunk drivers
on the road. The MQ-3 Alcohol sensor on this device is to detect the presence of alcohol
produced by the driver. The objective of this device is to detect the alcohol on the breath
of a driver and to prevent drivers from driving while drunk. This device has a relay that will
be connected after the ignition key to control the engine from being turned on if the driver
does not do a breath test or the driver is drunk. The driver must perform a breath test
repeatedly within a set period. This is to ensure that the driver does not drink alcoholic
beverages and drives while drunk after taking the breath test the first time. In order to
further improve the quality and accuracy of this device in testing the alcohol content in the
driver's breath, it is suggested to study the BAC formula in mg/L and use actual alcoholic
beverages. The excellent response from road users to this Drunk Driver Alcohol
Detection device especially in efforts to deal with the cases of drunk drivers, shows this
device has great potential to be marketed.
Keyword: Drunk, Alcohol, Breath, MQ-3 Alcohol sensor

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ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

AUTOMATIC DESK LAMP





Ahmad Amer Faris Bin Che Ramli
Politeknik Sultan Idris Shah


Abstract



Nowadays, a desk lamp is the most important tool for a student. This is because a
student needs a suitable place to revise or something like that. In this day and age, many
students like to read books or do exercises in the dark because the existing lights are too
bright or too lazy to turn on the room lights when they want to do some work. The
purpose of this project was made to presence sensors that detect if there are people in a
certain space and, as a result. This can also help the user to do some work in a place like
a dorm room and not disturb other friends who are sleeping.
This lamp is produced by using Arduino as a microcontroller. Infrared sensor is used as a
tool to detect users who are using automatic desk lamp. Relays are also used in this
project to turn the desk lamp on and off. If the infrared sensor detects the user at a
distance that can be detected, the infrared sensor will give a signal to the arduino and the
arduino can also send a signal to the relay to turn on the lights.




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ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

HEIGHT MEASURING MACHINE



Rabiatul Adawiyah Binti Mokhtar
Politeknik Sultan Idris Shah


Abstract



This paper presents a machine vision based height measurement system. The system
will measure user height based on input from sensor (VL53L0X). The count from the
sensor will then be processed using height processing and then calculated to provide a
value on the LCD. In the market, there are many products that need to be measured
either in length or height. This product also has different sizes and different shapes.
There are some problems when using manual methods to measure such as human
power will be required at the station, a longer time is needed to measure the height and
the measurements may not be very accurate. This system aims to reduce this problem by
developing a measurement system based on the vision system. Problem statement for
my project is every school needs to have a human high measure to check BMI. With the
availability of this product, the brand is easier to use and wasting time because the
teacher had to look at the student's height by standing up. Objective is To make my
project shows the measured on the LCD. After that ,sec objective is measuring machine
can accurately measure the user's height when the user sits under the sensor for 15
second . input of my project is sensor VL53LOX will accurately calculate the height when
user sit under the input according to the set time. Result will show first step is “please
stand below the sensor” second step show at LCD is “please wait” and last step will show
the height measuring user. From the result, the system managed to measure the height
of any product with an accuracy of about 99% of the actual height. The main problem for
this system is the time under the sensor. Different times can make different calculations
to the image to the detriment of the output. Therefore the system can only be used in the
same time conditions.




15

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

WIRELESS SWITCH BOT



Muhammad Muazzanazuddin Bin Fadani
Politeknik Sultan Idris Shah


Abstract



Wireless technology is an industry that has seen much growth and progress in the years
following the inception of the internet and cell phones. Wireless switch bot was developed
for the difficulty of users moving to open and close the switch. The Wireless Switch Bot,
also for users who always forget to close the switch. The objective of the Wireless Switch
Bot project is to control the switch using a mobile phone through the Blynk application
and also to use ESP32 to control the turning (on/off) of the switch. For the Wireless
Switch Bot, it doesn't take long to control it, just open the blynk application and connect to
wifi at home, then you can control it by pressing the button (on/off) on the phone screen.
For the results made at the rate of remote function, which is at a distance of 2Km it can
work well and at a distance of 2.5Km it does not work very well while at a distance of 3km
it cannot work at all. In order to further improve the project, it is suggested to make a
better prototype.In conclussion bring benefit to to users who have switches located far
away in the house and will be very convenient for the elderly or special OKU user.



Keyword : Wireless, Switch , Wireless Switch Bot.

16

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

CONTROLLED DIGITAL SIGNAGE 17



Wan Nurshakila Batrisyia Binti Wan Muhamad Unan
Politeknik Sultan Idris Shah


Abstract



The term “digital signage” refers to a modern advertising alternative that adopts
advertising panels and other traditional advertisements such as menu books for cafes.
Digital signs have many advantages over static signs, such as the ability to update
content remotely over the internet, customize the screens for your audience, and even
interact with your local audience. This project introduces a new way of displaying the
latest news or info virtually with more advanced technology. Digital signage is growing
more important and powerful every day, and its capabilities are evolving into something
even more advanced than a passive system that just pushes content. It is a powerful
digital installation that can be used to display video or multimedia content. Traditional use
before using digital signage comes with negative impacts which are the use of banners
that involve waste and no technological advances, reduced use of technology
applications to attract customers and there is no maximum impact in the business world
as it has a high gap in technological advancement. Therefore, the project has the
capability of achieving the ability to follow an objective to use the Yodeck Application to
make digital signage display, The use of digital advertising displays is technologically able
to attract buyers more than the use of banners and this digital ad display can have a
positive impact in the business world. The block diagram is based on the microcontroller
Raspberry Pi 4 Model B the HDMI Microwire is joined to the raspberry pi to eliminate the
showcase. The Raspberry Pi 4 Model B HDMI Microwire microcontroller, which connects
to the cable type c and has a switch to prevent the microcontroller from overheating and
can be turned on or off by pressing the button without having to close the switch, serves
as the basis for the block diagram. Additionally, the content will be displayed if the
Raspberry Pi is connected to the established mobile phone hotspot. Otherwise, the
content will not be able to be displayed and will not be able to post without being
hampered in any way. In summary, the digital signage project was a success as planned
and designed. While creating this project, I was able to learn more about Raspberry Pi
and how to use it. For example, I used to have a monitor, and when I put my raspberry pi
microcontroller through an adapter and connected it to the monitor without using an HDMI
monitor, the content was not displayed properly. Then I changed and used the HDMI
monitor, and the result was successful. However, this project succeeded in overcoming
all the problems. This will help improve your problem-solving skills. The project was a
success with all the applied knowledge gained from the electrical engineering
(communications) course that student’s studied over the course of the semester and the
guidance and support of their supervisors.



Keyword: Raspberry Pi 4 Model B, Yodeck Application, Digital Signage

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

PET FEEDING SYSTEM



Nur Siti Hajar Binti Nasir
Politeknik Sultan Idris Shah



Abstract



Pet feeding system is an alternative system for pet owner to feed the pet whenever the
pet’s owner is not at home. This system controlled by mobile application, Blynk where the
pet owner only have to push the button over their device. The main reason why pet
feeding system is chosen because I have seen many people that have pet but didn’t feed
their pet on time due to their busy work especially when they need to work outstation.
Besides, the system is also managed to control of food portion for pet. Many people that
have pet but didn’t feed their pet on time due to their busy work especially when they
need to work outstation. This situation causes their pet don’t get enough food since they
need to wait for their owner to come back from work to feed them or the food left to them
has been sluggish. In addition, for the pet, their nutrition is taken care by using this
system.

18

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

MOTION AND TIME-TRIGGERED BED LIGHT



Muhammad Adam
Politeknik Sultan Idris Shah



Abstract



In the context of this project, motion actuated sensors will be used to softly illuminate a
room or area, bringing both safety and comfort to the space. Because they are activated
by darkness, you can either put them wherever or hang them up, and they will light
whatever area of the room that you want. Next, in this project, propose a method for
cutting down on the amount of power that is consumed while a lighting fixture with a PIR
sensor is just sitting idle. In general, a PIR-sensor-based lighting system will turn on when
motion is detected, and will turn off when the motion fades. In addition, it is not only
simple to set up, but it is also affordable. When motion is detected by the circuit, power is
supplied to the lamp. When the motion stops being detected, the circuit switches off the
LED-strip and the electric power in order to limit the amount of power that is used while
the lamp is standing by.
Keyword : Arduino UNO, LED strip, PIR Sensor

19

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

SMART PIGEON HOLE



Thurkashini A/P Krishnan
Politeknik Sultan Idris Shah



Abstract



The goal of this project is to develop an electronic pigeonhole for office use that can
automatically recognize mail and garbage using infrared sensors. The pigeon-hole
selector will then be alerted to the smartphone via the wifi system. The project's goal is to
create an electronic pigeonhole that can send an application notice to the owner. In
addition, ESP 8266 will be used to control sensor and application notification systems.
The next step is to put up a gadget that will allow you to trace letters or scraps into the
pigeonhole. To collect information for this system, a mechanism known as the
development life cycle system was utilized. Planning, analysis. implementation, design,
and testing are the five phases of this system. This system is critical for ensuring product
quality and ensuring that project execution runs smoothly. The methods for delivering this
project include giving hardware such as a WiFi module, as well as source code to test the
project. Where sensors can identify mail or scrap, this project is a success. The telegram
bot program can then be used to send warnings to cell phones. Finally, the project is
quite helpful in overcoming delays in receiving important letters or memoranda.



Keyword: Smart pigeonhole, IR sensor, ESP 8266, letterbox

20

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

INFRARED HOME AUTOMATION SYSTEM



John Allen Sabanal Teti
Politeknik Sultan Idris Shah



Abstract



I will be doing an Infrared Home Automation System for my final year project. By doing
this project I will be able to show and perform the basics of developing a simple system
using the microcontroller Arduino. This also can be further developed into a more
advanced electrical system. In this system, I use an infrared receiver and an Infrared
remote control to turn on and off electrical appliances such as bulbs, and fans. One of the
reasons I designed this project is to make it easier for consumers to turn off and on their
electrical appliances without walking across their houses to get to the switch. Other than
that, this home automation system will save consumer's time and energy if the switch is
far from the consumer.




21

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

AIR QUALITY AND WEATHER MONITORING SYSTEM



Muhamad Rezial Chin
Politeknik Sultan Idris Shah



Abstract



This project was created to allow users to obtain weather data in real-time from
anywhere. The terms "real-time weather system" and "weather forecast" are not
interchangeable.Weather conditions have an impact on human activity, and weather
monitoring can aid in activity control.The purpose of a weather prediction is to predict the
weather for a specific location and time. Weather forecasts are created using quantitative
data about the current state of the atmosphere at a certain location. Meanwhile, a real-
time weather system is a gadget that uses a variety of sensors to collect data about the
weather and environment. A weather system is a device that measures atmospheric
parameters such as temperature, humidity, and air quality in order to give data for
weather forecasting.As a result, we require a weather system to create forecasts and
collect data on the weather. There are approaches that can be used to help this project
overcome the obstacles it faces. This project will create a weather system using the
Internet of Things and sensors. The weather system can aid forecasting by providing
data.



Keyword : Real-time , Weather forecast

22

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

RFID DOOR ACCESS CONTROL USING ARDUINO



Norshazwana Binti Muhammad Shahril
Politeknik Sultan Idris Shah


Abstract



RFID or Radio Frequency Identification, is a low-cost technology that can be used for a
variety of purposes, including security, asset monitoring, people tracking, inventory
tracking, and access control. The major goal of this project is to design and build a digital
security system that can be used in a secure area where only home users are allowed to
enter. It also makes it easier to open the door without having to use the manual door lock
method. The Arduino Uno will be utilised as the major portion of the system in this project,
and the RFID scanner, push buttons, and other sensors will be used as input to the
Arduino Uno. In addition, the door lock is controlled by a micro servo. When the user
presses a button, the micro servo responds by locking or unlocking the door from inside
the house without the usage of an RFID access scanner. As a result, this technology can
be used to tackle concerns of safety and convenience for home users.




23

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

HOME AUTOMATION LIGHT MONITORING SYSTEM



Aishwariya Rao A/P Manickrow
Politeknik Sultan Idris Shah


Abstract



The Internet of Things (IoT) is used to control electronic devices, such as lamps, that
perform control processes using Internet technologies. Today, many of these people
leave their homes after using the lights, forgetting to turn them off, and must manually
turn the lights on and off using traditional switch methods. This project proposes to
develop a home automatic light monitoring system using Nodemcu ESP8266, which can
replace the old generation light control system. Developed to control lighting systems in
the home using the Personal Light Blynk app, the system automatically turns lights on
and off based on a mobile application-based control. Moreover, this project will be
implemented by adding his 3 sensors: a PIR sensor, a Proximity sensor, and LDR light
sensor to improve the home security system. As a result, the lights were manually
controlled on and off using the Blynk app, and the detection of each sensor was displayed
on the LCD display, successfully turning the lights on when the environment was dark. To
improve, we propose to study existing technical methods. In particular, the Blynk app for
projects is based on an IoT system, which has been well received by users, indicating
that the project has great potential for marketing.
Keywords: Internet of Things, Home automatic light monitoring system

24

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

BLUETOOTH CAR PARKING SYSTEM



Muhammad Aidil Bin Rosli
Politeknik Sultan Idris Shah



Abstract



This paper proposes the Car Parking System that depends on Arduino parts, Android
applications, and based on Bluetooth. This gave the client the ability to check available
parking spaces using their smartphone. LCD display also helps them inform available
parking space in the front of gate. Ultrasonic sensors and LED are utilized to know if a car
park space is allowed. The LED light will illuminate indicating that parking slot is
occupied. Else, the LED will be off to indicate that the parking slot is not occupied. Its
area data are transmitted using the Bluetooth module to Arduino and are restored by the
mobile application that displays the amount of free parking space and at no cost to the
user. The parking system can be connected wirelessly using Bluetooth to easily track
available parking slots.

25

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

AQUAPONIC SYSTEM USING ARDUINO MEGA



Muhammad Azril Naim Bin Sharepul Baharim
Politeknik Sultan Idris Shah


Abstract



Nowadays, people prefer to use aquaponics for fish breeding, rather than hydroponic and
aquaculture systems, because this system can grow plants and at the same time filter the
water from the fish tank. This project uses The Arduino Development Environment (IDE)
software is used to develop programs for the microcontroller communicate with various
sensors and other hardware. Nowadays, people prefer to use aquaponics for fish
breeding, rather than hydroponic and aquaculture systems, because this system can
grow plants and at the same time filter the water from the fish tank. This project uses .The
Arduino Development Environment (IDE) software is used to develop programs for the
microcontroller communicate with various sensors and other hardware. This circuit
contains a water sensor. It is used to detect water in the grow bed in the event of a
clogged tube. In addition, a servo is used to automatically feed the fish every 12 hours

26

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

AUTO FAN SYSTEM



Muhammad Haiqal Faris Bin Mohd Rafiee
Politeknik Sultan Idris Shah


Abstract



This project will present the design, construction, development, control and evaluation of
an automatic switching speed electric fan. This further step of an intelligent electric fans
than before that using “intelligent technology’’ such sensing the sound of clapping and
functioning by analog circuit relay from the lowest to the highest speed. The
microcontroller base automatic fan system presented in this project is required to fulfill the
requirement of technologies. The electric fan automatically switches the speed according
to the environment temperature changes. This electric fan system contains combination
of sensor, controller, driver and motor with integration of embedded controlled
programming which means in this case using ADUINO UNO as the main controller. This
project also presents the expected performance of the auto fan system, construction of
hardware and software development to gather the performance data. Finally, this system
performance will be evaluated by comparing performance data to the theoretical normal
using.

27

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

SMART CONTROL FAN USING ARDUINO SENSOR



Muhamad Nur Nasrullah Bin Abu Nor
Politeknik Sultan Idris Shah


Abstract



Electricity is a major resource in daily life and is now classified as a major human
resource requirement. The country's electricity supply recorded an increase of 6.1 percent
per year. There are many cases where people use electricity but do not turn off electrical
switches after using it. This will cause an increase in the electricity bill. Apart from that,
due to the current covid 19 crises, the reduction in the sharing of goods or contact should
be taken seriously. There are elderly or disabled people who find it difficult to reach high-
placed fan switches. This project presents an approach to control the household electrical
devices like room fan in a room environment using clap and smartphone. There are two
techniques to switch on the fan, the first one using Bluetooth where the information is
sending to smartphone and the second option is using clapping near the sound sensor.
an This circuit is used to make the fan ON through a clap sound. The essential
components used to build this project are electric condenser mic as a sound sensor. The
main function of this device is to change the energy of sound to electrical. Although there
are many alternative techniques to remotely control electrical devices in room
environment such as using a TV remote control or speech recognition techniques etc. But
this approach is the most cost effective. Though this product is aimed at physically
challenged user, it has universal appeal as a comfortable way to control the room
environment.

28

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

FINGERPRINT SAFETY BOX



Nazirah Binti Md Kassim
Politeknik Sultan Idris Shah



Abstract



Safe box is a security box and type of artificial intelligence system which will provide
human being with smooth, safe & convenient storage for anything such as important
documents, treasure, money, and any important thing because the safe box is no easy to
open without the key, password, and fingerprint. One method of securing the safe is to
using the keypad to enter a password, as well as a fingerprint scanner and a buzzer. Both
of these can be used in conjunction to safeguard the valuables kept in safes. This
security, detector system is built using the fingerprint sensor as the main detection
purposes. Another essential point, as a detector, the fingerprint sensor will take the user's
fingerprint and send it to the microcontroller to compare it to the record and go to the
software data base. If the print matches one of the microcontroller memory fingerprints,
depending on its current state, the latch will be locked or unlocked. After that,
microcontroller will set as the core controller for governing the input and output of this
project. If the microcontroller recognizes the fingerprint, then the liquid crystal display
(LCD) will display “ID user’s and name UNLOCK” and vice versa. If fingerprint do not
recognize the buzzer will on.

29

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

AQUAPONIC SYSTEM USING ESP32



Muhammad Aiman Asyraaf Bin Khairul Nizam
Politeknik Sultan Idris Shah


Abstract



Cold-climate plants are best grown at a soil temperature range of 15 - 20°C. The
temperature of the root zone also has a greater influence on plant growth compared to
the ambient temperature. Currently, the cultivation of cool-climate vegetables and fruits in
Malaysia is concentrated in highland areas such as in Cameron Highland and Genting
Highland. However, limited land in highland areas as well as the cost of logistics and
postharvest storage can increase the market price of these plants. The use of
greenhouses whose environment is fully controlled in addition to causing an increase in
global warming also requires capital and maintenance the big one. That is why this
project of mine was built that will maintain the temperature of tree roots at 20 degrees
Celsius below

30

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

ELECTRICAL CIRCUIT LEARNING AID



Che Ku Zamil Zakwan bin C. Ku Rasid
Politeknik Sultan Idris Shah


Abstract



Smart light control system is a teaching aid tool that aims to control the light switch via
smartphone via bluetooth technology. This project consists of using an Arduino, a cheap
bluetooth module and a relay to control some types of lights, by connecting it with your
smartphone via bluetooth. There are fewer systems that use mobile phones to control the
lights This project is intended to be simple using the least amount of resources and code,
but still including important demonstrations and descriptions of the whole process. The
objective to design a lighting control system using Arduino circuit an bluetooth module.
After, we have to download bluetooth electronics application on phone. And then open
the application create switch in panel. Next, connect bluetooth with hc-05. Lastly click run,
then you can on/off lamp with smartphone.

31

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

SMOKE ACTIVATION FOR WARDEN



Muhammad Zulkhair Bin Hanizam
Politeknik Sultan Idris Shah


Abstract



Detection of cigarette smoke is very necessary in school hostel. The main purpose of this
project is to overcome the problems of smoking among students in dormitory area. During
this situation, students are easily escaped from a disciplinary action when smoking in
hidden areas such as bathrooms. Therefore, this system is designed to solve this
problem by sending a location if the student is smoking in the area and continues to send
a notification to the user .Users only need to use applications in their mobile phone to
control which devices will be installed in a suspected area of student places will be
smoking. . In this system, the MQ-2 sensor is used to detect cigarette smoke in the toilet,
the Arduino Uno microcontroller as a data processor received from the sensor and the
Blynk application to display notifications if the toilet is detected by cigarette smoke. The
sensitivity level of the MQ-2 sensor is strongly influenced by the distance of the source of
cigarette smoke with the sensor. The use of the internet of thing system affects the signal
strength and network on the user's smartphone which results in a delay when sending
notifications The use of IoT technology in detecting cigarette smoke in a student hostel
will be an alternative solution to decrease the smoker in school.

32

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

IOT BASED TEMPERATURE AND HUMIDITY MONITORING USING THINGSPEAK
AND ESP8266



Muhammad Haqiemi Riezal Bin Mahadi
Politeknik Sultan Idris Shah


Abstract



In this project, we are going to send Temperature and Humidity sensor data to
Thingspeak using DHT11. By this method, we can monitor our DHT11 sensor’s
temperature and humidity data over the internet using the ThingSpeak IoT server, and we
can view the logged data and graph over time on the ThingSpeak dashboard. NodeMCU
reads the current temperature and humidity from DHT11 and sends it to the ThingSpeak
server for live monitoring. The Arduino program Uses DHT library, if it is not presented in
your arduino IDE, select Sketch Include library Manage libraries Install DHT Sensor
library. Then compile the program and upload to a Arduino Uno through Arduino IDE.
Ensure that WiFi modem and internet connection in your Smartphone or PC are working
properly. After uploaded a program, the Temperature and Humidity data is uploaded on
ThingSpeak platform. You can see it graphically in the private view window of your
channel.
Keywords: DHT11 and ThingSpeak

33

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

SMOKE INDICATOR ALERT



Nur Haqqim Bin Ahmad Nazli
Politeknik Sultan Idris Shah


Abstract



In this project, I am going to make an IoT smoke indicator alert that functions as an alarm
to alert people around it if there is smoke nearby. People nowadays are always smoking
or do not care about the environment near them, and with this smoke indicator, we hope
that they will be alert to the environment. The smoke will be detected by the sensor, and
then the buzzer will start beeping and the red-light LED will light up, and a warning will be
displayed on the system page or web page, which will be created using the ESP8266
module. This web page can connect to any devices like smartphones, laptops, PCs,
tablets, and more. The smoke sensor module will be the MQ-2 module smoke sensor.
This smoke sensor will give an output in the form of an analogue voltage. The value of
the output will be read at certain value if there are smoke nearby, then the buzzer will
start beeping, and after that, the red-light LED will also light up. The output will not
response to any , then the buzzer will not beep and remain quiet all the time. The green-
light LED will light up all the time when the output value is not reaching the threshold that
will trigger the sensor.

34

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

MOTION MONITORING FOR HOME SAFETY



Muhammad Al-Hafiz Bin Muzli
Politeknik Sultan Idris Shah


Abstract



Anxiety is a feeling of uneasiness and worry, usually generalized and unfocused as an
overreaction to a situation that is only subjectively seen as menacing. For them,
experiencing anxiety about the surrounding situation even when they are at home will
disturb their peace and tranquility. This project aims to design a system that can help
people with a feeling of anxiety, implement a system that can detect motion in the front
door, and develop motion monitoring for home safety. The implementation of this project
does not take long to implement and the cost to do is low. This guarantees an impressive
profit if commercialized widely and has a high impact on the home security system. The
study was conducted based on the efficiency of the motion detector that gives the
respondent a distance of 1 to 6 meters. To further enhance this security system, it is
proposed that the system can detect movement in the dark. In conclusion, with the advent
of this security system, the feeling of anxiety in a person can be reduced and the system
has the potential to be marketed.
Keyword : Motion Monitoring For Home Safety, Esp32 Cam capture image send to
Telegram, Esp32 Cam using Pir sensor, Arduino Nano Project, Esp32 Cam with Arduino
Nano

35

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

LASER SECURITY SYSTEM TO PREVENT CASES OF BUGLARY



Fatin Hasmirah Binti Yak'kub
Politeknik Sultan Idris Shah


Abstract



This project deals with a model of laser security alarm system design. Now, there are
dozens of different security systems on the market that utilize lasers and can effectively
protect everything from small apartments and businesses to large areas of property. Most
home laser security systems consist of two parts : a basic alarm unit and an infrared
motion detector. Laser based security system is a type of security and alarm system that
uses laser light and a light sensor. Why a laser to be used? It is known that a laser light
goes through long distance without any scattering effect (disturbing) and it is only visible
at source and the destination but to analyse the source and the destination point so it can
be used as mediator between source and destination but to analyse the source a sensor
is need, here the use of LDR sensor is applicable. Just analysis is not enough alerting
should be done in general alerting is sound effect so here buzzer act as alerting. Making
use of this, a laser security system is designed. Its working : There is a laser diode that
generates the laser beam which continuously strikes over the Light dependent resister
sensors. When any person crosses the path, it inhibits laser to reach LDR and the sensor
generate a low which is read by controller to power on the buzzer and automatically send
a notification to Telegram App.

Keyword : ESP32, Telegram Application, LDR sensor, Laser beam, Security System,
Alarm, notification alert.

36

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

CASHLESS VENDING MACHINE BASED ON IOT



Muhammad Aqmal Rasyid Bin Suardi
Politeknik Sultan Idris Shah


Abstract



As we know, the internet of things is one of the things that can change a time towards
progress. Generally speaking, the Internet of Things or (IOT) is a process that connects
the environment and the internet. So, my idea in creating this project is to change the
public's perception of technology that is used in today's era, for example, vending
machines today. less and less used due to the increasing number of online services
around the world. So with the creation of my project, which is a vending machine that has
the characteristics of a cashless method that does not require cash to pay. The materials
and components needed to produce my project include an Arduino ATMEGA 2560 as a
microcontroller, two Ultrasonic Sensors as object detection sensors in my project, an LCD
to produce a display on the screen to give any information as long as my order works,
and also two servo motors that are used to move the items that I will fill in the prototype
box of my project.
Keyword : Vending machine, snacks, cashless

37

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

WATER QUALITY MONITORING SYSTEM USING IOT



Izzat Rahimi Bin Ismazt
Politeknik Sultan Idris Shah



Abstract



The development of wireless communications is resulting in new sensor capabilities.
Recent advancements in the field of sensor networks are significant for system water
applications. The Internet of Things (loT) links different gadgets and enables
communication and data collection between them. In addition to industrial automation, loT
expands its capacity to address environmental issues using Business 4.0. Water is one of
the most essential elements for human existence, hence a system to monitor the quality
of the water must be present. Water contamination accounts for over 40% of fatalities
globally. The technology known as "Water Quality Monitoring" (WQM) is efficient and
inexpensive. to monitor water quality using Internet of Things (loT) technology The
system suggested in this paper is made up of several sensors that can measure a variety
of variables, including pH, water turbidity, and temperature. Additionally, a Micro Control
Unit (MCU) is coupled to these sensors, and a Personal Computer is used for extra
processing (PC). Data is sent to the cloud for water quality monitoring using the loT-
based Blynk application.
Keyword : pH value, temperature value, turbidity, water

38

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

PROTOTYPE SMART CHARGING DUSTBIN



Fahmi Bin Nazarulasmal
Politeknik Sultan Idris Shah



Abstract
The main purpose of this project is to build a prototype for an automatic open trash can
that opens the lid automatically when it detects people wanting to dispose of their trash.
For the problem statement is It is difficult to open and close the dustbin lid when it is too
low, users will default and are not aware of the full contents of the garbage and there is
garbage dumping so that it emits an unpleasant odor. For the objective of this project is
design and build a prototype for an automatic open dustbin that can automatically open
the lid, build an automation system that can provide indicators and can produce buzzer
sounds if the trash is full. This project management system is built on a microcontroller
based system that has an ultrasonic sensor on the dustbin. If the dustbin are not
maintained, this can cause an unhealthy environment and can cause pollution that affects
our health. The methods used in achieving the design of this project include designing a
hardware unit consisting of an Arduino connected to a bin. The dustbin lid will open when
someone comes near, at some range, and wait for the user to put the garbage in and
close it. It will also give 3 signals about the level of garbage collection sent via LED.

39

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

WATER QUALITY MONITORING SYSTEM USING IOT



Izzat Rahimi Bin Isnazt
Politeknik Sultan Idris Shah



Abstract



The development of wireless communications is resulting in new sensor capabilities.
Recent advancements in the field of sensor networks are significant for system water
applications. The Internet of Things (loT) links different gadgets and enables
communication and data collection between them. In addition to industrial automation, loT
expands its capacity to address environmental issues using Business 4.0. Water is one of
the most essential elements for human existence, hence a system to monitor the quality
of the water must be present. Water contamination accounts for over 40% of fatalities
globally. The technology known as "Water Quality Monitoring" (WQM) is efficient and
inexpensive. to monitor water quality using Internet of Things (loT) technology The
system suggested in this paper is made up of several sensors that can measure a variety
of variables, including pH, water turbidity, and temperature. Additionally, a Micro Control
Unit (MCU) is coupled to these sensors, and a Personal Computer is used for extra
processing (PC). Data is sent to the cloud for water quality monitoring using the loT-
based Blynk application.
Keyword : pH value, temperature value, turbidity, water

40

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

SMART INVENTORY SHELVES OF GOODS



Muhammad Idham Nisam Bin Musa
Politeknik Sultan Idris Shah


Abstract



The project is made for any of business people who have the small grocery store to
monitor any kind of thing on that inventory weight shelves. The use of shelf is the stock
have to put on the shelf and lcd will show if there is the stock on there. The objective of
the shelf is to produce smart inventory shelf, that can monitor the quantity of grocery
stock more accurately and reduce labor consumption and costs. To make this shelf is not
to hard and it is cheap. This can help the owner small grocery store to buy the inventory
shelf without using too much money. Duration to made the inventory shelf not too long
like the other smart shelf. The use of Arduino uno, weight sensor, and LCD is a
combination of hardware for this project where the LCD will display the value of weight in
grams.
Keyword : weight sensor, Shelf, Store, Stock

41

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

AUGMENTED REALITY FIBER OPTIC COMPONENTS FOR EDUCATION



Muhammad Bin Zainal Abidin
Politeknik Sultan Idris Shah


Abstract



Augmented Reality Fiber Optic Components is a virtual displays the object that is not be
caught by the students sensory. It makes the Augmented Reality (AR) is a useful tool to
help the student making interaction with the perception in the real world. The objective of
this project is to ensure the student understands the function of the equipment and relate
to the theoretical study make the practical learning more interactive and fun with AR. The
software that has been used to create this AR is Unity Hub and Vuforia which Unity is for
developing the application, rendering 3D objects, and publishing the app while Vuforia
used for image recognition and target tracking in AR. Using the AR mobile app requires
students to download it from the Google Play Store into their smartphone and activate it.
Upon scanning the markers, they can watch 3D fiber optic’s components which guide
them to learn about it. To improve the students understanding, it is recommended to
make the AR 3D can self-teach the students. Looking at the use of AR in electronic
education there is considerable scope for growing new methods for learning.
Keyword : augmented reality, fiber optic components, students, study and learning

42

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

WATER IRRIGATION MONITORING SYSTEM BY USING IOT



Muhammad Khaikal Bin Kamaludin
Politeknik Sultan Idris Shah


Abstract



Water is artificially delivered to the soil by a variety of tube, pump, and spraying systems.
In regions with erratic rainfall, dry spells, or potential drought, irrigation is frequently
employed. There are many different kinds of irrigation systems, where water is distributed
evenly throughout the entire area. In this project, water irrigation system by using IOT is
send notification to the gardener when they far from crops. When the gardener get the
notification, Gardener can active the water pump and flow the water from tank. This water
irrigation system project are using ESP8266 and using Wifi to connect with the notification
device. Notification device are using blynk app and can download at Playstore or
Appstore. How to know if the plant not enough moisture, theoretically the leave may turn
brown and dry along their edge or tips. When the quantity of moisture inside the soil is
less, the soil moisture sensor will detect and send a notification to the farmers. Then, the
farmers can turn on button on the screen or phone to open water pump to flow the water
to the plants. For the next project, any improvement can be made to make this water
irrigation system more futuristic. For example, make the water tank re-fill the tank by itself
after watering the plants.
Keyword : ESP8266, notification, water pump, Blynk.

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ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

VEHICLE LOCATION IDENTIFICATION SYSTEM



Muurthi A/L Munusamy
Politeknik Sultan Idris Shah



Abstract



Vehicle location identification system is a system for routing and tracking of vehicles
based on the Global Positioning System (GPS) and Global System for Mobile (GSM). The
supporting device GPS continuously move with the car and will calculate the co-ordinates
of each position and it can be communicated to the owner with the help of GSM modem.
This system is to make it cost effective and easy to configure so that any person can
afford it. The system can be used for the purpose of safety of the vehicle. The method
that I have used in my project is locate the longitude and latitude of the project and sent
the data via google link to user using SMS notification. The thing that I learned from my
project is the function and benefit of vehicle location identification system. However, this
project is successfully done as planned. During the process of completing this project I
was able to understand more details about the components and programmer that I use.
The challenges draw out the best in us.

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ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

MANHOLE GAS DETECTOR



Gokulan A/L Nadarajah
Politeknik Sultan Idris Shah



Abstract



Manhole Gas Detecting Device is a safety device which are used to reduce the rate of the
accident or death while working in the manhole. The objective of the project is to develop
an alert system that can detect gas leakage and smoke and give an early warning to
people at manhole, design a gas leakage detector using IoT for reduce risk of accident
and remotely watch the value of gas and graph in mobile phone and get notification and
email if gas value (AQI) is higher than 50 AQI. The device will alert the manhole worker
about the danger gas level by giving red LED indicator, buzzer sound and send
notification via Blynk app in mobile phone. The ESP8266, MQ2 sensor and Blynk
application will be used. It is set up warning level if the gas level above 50 AQI. When the
gas level is above 50AQI, the project will light up red LED and the buzzer will sound. The
notification will send to the owner via application notification and e-mail. The gas level
also visible on the LCD screen. It is easier for manhole workers to take action
immediately to avoid accident. This safety feature is expected to safeguard manhole and
sewer workers from losses and damages caused by dangerous gas. This will decrease
the rate of the accident and death caused by dangerous gas in manhole or sewer pipe
system.

Keyword : ESP8266, Gas detector, Manhole, Alert system

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ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

AUTOMATIC HAND SANITIZER DISPENSER



Zaid Hariz Bin Abdullah Apandi
Politeknik Sultan Idris Shah


Abstract



This project aims to develop an automatic hand sanitizer dispenser (AHSD) where
sanitizer can come out automatically. The objective of producing this Automatic Hand
Sanitizer Dispenser is to develop an automatic hand sanitizer dispenser in the toilet to
minimize any contact and to prevent the spread of covid-19 epidemic. Besides that,
automated hand sanitizer will send notification to the smartphone, if the liquid has run out.
The Infrared sensor will sense the presence of heat and motion of the object near and
pump out the sanitizer. Other than that, it also has LCD display that show the quantity
liquid. Ultrasonic sensor detects the distance of the remaining liquid, then it will send data
via NodeMCU ESP8266 that connect to Blynk server. It can transfer the real time data to
the output devices such as smartphones or PC based on the Internet of Things (IOT).
The production of this Automatic Hand Sanitizer Dispenser does not require so much cost
because the components are easy to find in the market and do not require a long time.
The test of the level of liquid remaining in the container is that every 100ml there will be a
change in the level shown after the reaction of the Ultrasonic Sensor to the ESP 8266.
The total amount of liquid that can fit in the container is 500ml. There are five levels
displayed on the LCD including full, high, medium, low and very low. In addition, there are
also five red LEDs that show each amount of liquid left in the container. In addition, by
using the Blynk application on the phone you can also know the amount of liquid from a
distance when the ESP8266 is connected to the phone using WIFI.

Keyword : automatic dispenser

46

ELECTRICAL ELECTRONIC INNOVATION & PROJECT DESIGN EXPOSITION

FINGERPRINT ATTENDANCE SYSTEM AT PUSAT ISLAM POLITEKNIK SULTAN
IDRIS SHAH



Muhammad Shafiq Amirul Bin Zamruni
Politeknik Sultan Idris Shah


Abstract



Technology has become an essential part of our lives. Tremendous advancement in
technology is succeeded in last few years. In recent years, people are looking forward for
an innovation in their daily life, and even now people are excited to see an innovation
system. Fingerprint Attendance System is and innovation project to design and develop
students attendance report at Pusat Islam Politeknik Sultan Idris Shah. There are some
students who never come to Pusat Islam but sign attendance by proxy. Besides, there
are also students that scan matrices card on behalf of their friends. To overcome this
problem fingerprint recognition is useful because this system using finger scan methods
that only scanning for the owner of the attend. There are also students that attend to the
Pusat Islam but forget to bring matrices card. In this context, they maybe can sign their
attendance manually but by using fingerprint recognition is more efficient. The objective of
this project is to design & develop attendance fingerprint system at Pusat Islam Politeknik
Sultan Idris Shah. Besides, to generate accurate student attendance report for the college
management. The software that use to develop this project are Arduino IDE and Arduino
Uno. The reason for using Arduino IDE is due to its large number of built in functions in
implementation of algorithms and data structures. In addition, Arduino IDE is easy to
interface with Arduino Uno as it allows input data transmission. Both software & hardware
are combine to running a simulation to shows detection and recognition of the fingerprint.
In conclusion, this project brings benefits to the student & college management. It is very
efficient and usefulness in taking student attendance.

Keyword : Fingerprint Attendance System, Arduino UNO, Arduino IDE

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