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Diploma project database for semester-1 Academic year 2018-19
Project title: Base the Cup to get Energy
Project Supervisor: Ahlam Al Nuumani
Semester: I / 2018-2019
Level Diploma
ABSTRACT:
The project idea is a simple idea is to convert the resulting heat from drinking drinks or objects
into electrical energy. The heat generated from the hot or cold object, which is going to be
converted into electricity with a small voltage by using Peltire (TECI-12706). For increase, the
small voltage is converted by the using of the voltage boost convert circuit to produce the required
voltage and then through the output connection, we can get a voltage, this voltage can be used as
a charge for any small device.
Block Diagram
CIRCUIT DIAGRAM
Project title: Electronic thermometer
Project Supervisor: Ahlam Al Nuumani
Semester: I / 2018-2019
Level Diploma
ABSTRACT:
Heat is a physical concept that classified as a form of energy and produced through many
methods, such as chemical reactions such as nuclear reactivity and combustion, electromagnetic
radiation, such as what usually occurs in fireplaces, motion and friction. Temperature is the measure of
how hot an object or and there are many units for measuring temperature such as Kelvin and Seles.
Thermometer is a small device that measures the different materials such as gases, fluids, and solids. It is
measure by human temperature, and some types of thermometers used to determine the temperature
of the weather. The project aims to understand and implement the electronic thermometer system using
simple and cheaper electronics components. The circuit is assemble and tested using breadboard
connection. PCB fabrication, which is achieve by protest software. Components soldered at right positions
and tested for its performance. A diode is the heart of the circuit. The diode is sensor to the temperature
and the LCD display screen shows the output reading.
This thermometer can be benefit to be use in a hospitals or human care institution and for
mothers at home. In order to measure the temperature of people and children.
Block Diagram
CIRCUIT DIAGRAM
Project title: Cleaning Robot
Project Supervisor: Dr.Ben Sujin
Semester: I 2018-19
Level Diploma
ABSTRACT:
In this project, we have built a cleaning robot is Line Follower robot is a machine that follows a
line, either a black line on white surface or vise-versa. Nowadays, every robot is done with the
help of the microcontroller, and hence the circuit is too big and tough to understand and makes it
costly. For these reasons, in this project we have developed an intelligent Line follower robot with
a simple concept with simple circuitry. Basically there are two types of line follower robots: one
is black line follower which follows black line and second is white line follower which follows
white line. Here we have designed the first one. Line follower actually senses the line and run over
it.
Block Diagram
Power Supply
LM 358 LM 358
IR Sensor IR Sensor
CIRCUIT DIAGRAM
Project title: RF Controlled Robot
Project Supervisor: Dr.Ben Sujin
Semester: I 2018-19
Level Diploma
ABSTRACT:
Is the radio frequency controlled robotic truck the aim of this project to make truck circuit and remote
circuit so this project will be about how controlled the truck by the remote. The principle of working this
project is control the truck using remote control so whatever according to the switch we press from
transmitter circuit so the receiver circuit detect it and will control robot (truck) so to do this they have 3
main things which are encoder, decoder, RF transmitter and RF receiver.
Need of the project
We need this project in many robotic applications that use same operation method and for application
that control by same technology also this project can be extended by many industry applications to make
the work more automatic also it can be extended with additional microcontroller application.
Scope and Limitation of the project
Project can be used in robotics classes
Remote control it is the medium between the user and the machine
Cannot move the truck without the remote control
This project is limited to work with radio frequency (RF)
Block Diagram
Switches (push
Buttons)
IC(Encoder) RF Transmitter
S1
S2
S3
S4
antenna
RF Receiver IC(Decoder) Motor Driver
antenna
CIRCUIT DIAGRAM
Transmitter
Receiver.
Project title: OVER TEMPTETURE ALARM WITH FAN ON
Project Supervisor: Dr.P.Radika
Semester: I Academic year:2018-2019
Level Diploma
ABSTRACT:
In this project a temperature monitoring circuit is designed. The IC LM 35 is used
as temperature sensor. By setting a reference temperature and when the actual temperature is below
the reference temperature LED glows on. And when the actual temperature is above the reference
temperature fan and alarm becomes on. The reference temperature value can be set by adjusting
the variable resistor in the circuit, according to requirement. The reference and actual temperatures
are compared by a comparator IC LM 358.
The temperature controlled circuit /heat sensor circuit is important in computer and many
electronic circuits like amplifier. Due to overheating, the expensive components present in the
computer or other appliances could be damaged. Thus by using the heat sensor circuit when the
temperature around the heat sensor increases above its set value, then it senses the heat and gives
an indication to the user, so that we can protect the devices from damage.
.
Block Diagram
DC
Input Temperature
sensor
Voltage
divider
circuit
Comparator Transistors
with Fan,
Alarm,LEDs
CIRCUIT DIAGRAM
Project title: Gradual ON and OFF Bulb
Project Supervisor: Raghavendar Inguva Semester: I 2018-2019 Level Electronic and Telecommunication Engineering
ABSTRACT
This project aims to understand and implement of gradual ON and OFF bulb using simple
and cheaper electronics components. The circuit is assembled and tested using bread board
connection. PCB fabrication is done by proteus software. Components are soldered at right
positions and will be tested for its performance. The specialty of the light is that its brightness
increases gradually and once it reaches the brightness peak ,it gradually decreases and so on , this
cycle repeats until it is switched off . Generally, you can see various implementations like
Automobile DRLs (Daytime Running Lights), decorating houses, regular lamps, emergency lights
etc. One such important application is where the LED lights increase and decrease their intensity
depending on the number of persons entering or leaving at a particular place or a room.
Circuit Diagram
BLOCK DIAGRAM
230 AC
supply
Power
Circuit
12v
Charging &
Discharging
circuit
Capacitor
LED O/P
Project title: FIRE DETECTION USING ARDUINO
Project Supervisor: Raghavendar Inguva Semester: I 2018-2019 Level Computer Engineering / Communication Engineering
/ Diploma
ABSTRACT
This project about Fire Detection Using Arduino, the proposed Fire Detection is a
real-time monitoring system that detects the presence of fire and make alert. The embedded
systems used to develop this fire detection system is Arduino Uno. The key feature of the system
is the ability to make an alert when a fire is detected. When the presence of fire is detected, the
system will do a beeping of the state. The advantage of using this system is it will reduce the
danger of fire for the people.
Circuit Diagram
BLOCK DIAGRAM
Description of Block Diagram:
Project title: ELECTRONIC EYE SECURITY SYSTEM
Project Supervisor: Dr. M.Sivakumar
Semester: I 2018-19
Level Diploma/Electronics and Telecommunication
ABSTRACT:
Electronic eye controlled security system is provides security when any person is trying to
enter into your home or bank without your permission. Electronic eye controlled security system
is the electronic device that continuously watches if anyone is visiting your home.
Main objective of this project is to design a security system based on a photo sensing
arrangement. It uses dual comparator LM393 that is widely used in many commercial applications.
In this project, input signal sensed through a light-dependent resistor (LDR). Comparator output
drives a buzzer and a relay. Lamp getting supply through the relay.
Block Diagram
CIRCUIT DIAGRAM
Project title: Four-Way Traffic Light Control
Project Supervisor: Dr. G. Sugumaran
Semester: I / 2018-19
Level Diploma
Project title: Four-Way Traffic Light Control
Project Supervisor: Dr. G. Sugumaran
Semester: I / 2018-19
Level Diploma
ABSTRACT:
In this project, Traffic Light project is designed to control traffic lights on a four-way
signal. The circuit is designed by 555 IC Timer and a decade counter (CD4017 IC). The timer
generates pulses and these pulses are fed to the ten stage decade counter, because the ten stage
decade counter has a memory of ten; it can count up to ten pulses. Hence for every peak at clock,
the counter approves it as an event and remembers it. The number of events that counter
memorized.
Block Diagram
CIRCUIT DIAGRAM
Advanced diploma project database for semester-1 Academic year
2018-19
Project title: Automatic Water Dispenser using Arduino
Project Supervisor: Muhammad Khurram
Semester: I 2018-19
Level B.Tech Phase -II
ABSTRACT:
Water supply is the most important thing in daily home activity especially for washing, cleaning,
and taking a bath. However, the utilization of non-automated switch used to turn on and turn off a
pumping machine sometimes causes either the water spills or a wasteful electrical consumption.
The previous works reported the utilizations of Arduino based sensors for plant watering system,
water tank overflow control, and automated irrigation system.
In this work, an automated water tank filling system will be proposed. The system is designed by
applying an ultrasonic sensor, an automatic switch module, a water-flow sensor, an Arduino
microcontroller, and a pumping machine in order to automatically switch the water filling. By
applying an ultrasonic sensor, an ultrasonic transmitter is mounted on the top of the tank and
transmits an ultrasonic pulse down into the tank. This pulse which travels at the speed of sound
will be reflected back to the transmitter from the liquid surface. The time delay measurement
between transmitted and received signals enables the device to calculate the distance to the surface.
The transmitter is programmed to automatically determine the liquid level and switch the pumping
machine.
The dynamics of water flow and liquid level during filling and draining the water tank will be
reported. We hope to this system, people will enjoy supplying water without their worries related
to water spills and a wasteful electrical consumption.
Block Diagram
CIRCUIT DIAGRAM
Project title: Fridge Temperature and Humidity Indicator
Project Supervisor: Mr.Muthukumar Selvakkannu
Semester: I 2018-19
Level Advanced Diploma
ABSTRACT:
Fridge Temperature and Humidity Indicator is a combination of two circuits using Arduino board
and its program.
The first circuit contain a temperature and humidity sensor and a transmitter circuit controlled by
an Arduino board. The second circuits contain a receiver circuit and LCD display unit controlled by an
Arduino board.
The circuit one is placed inside the fridge and the second one outside the fridge. The circuit one
senses the temperature in degrees and humidity in percentage and transmit it through a 433 MHz
transmitter circuit and the receiver circuit which is placed outside receives it and display the content
through 16x2 LCD display unit to the user.
Block Diagram
1: Block diagram of Transmitter
2: Block diagram of Receiver
DHT 11 Sensor
Arduino Board 1
Transmitter
CIRCUIT DIAGRAM
Circuit Diagram of Fridge temperature and humidity indicator for transmitter
Circuit Diagram of Fridge temperature and humidity indicator for receiver
Receiver Arduino Board 2
16x2 LCD I2C
Display
Project title: Arduino RFID Door Lock/Open
Project Supervisor: Mohammed Abdul Nasar
Semester: I – 2018-19
Level Advance Diploma
ABSTRACT
The project is to implement RFID door access using arduino. In the process the devices and the
programming is done in such a way that, when a registered user enters, it should be given access
else the access should be denied. The access/denial has to be implemented with LED (Red/Green),
LCD (showing the access/denial) and the servo motor (to open/close the door).
Circuit Diagram/Block Diagram
Figure: Complete circuit diagram of the project
Project title: SMART CANE FOR THE VISUALLY IMPAIRED
USING ARDUINO-GSM/GPS Module
Project Supervisor: Mohammed Abdul Nasar
Semester: I – 2018-19
Level Advance Diploma
ABSTRACT
In this project, an open source Arduino project for a Smart Cane has been created to help the
visually impaired become independent. This Arduino smart cane can assist with walking alone for
the blind persons in new environments by taking inputs through an obstacle sensor (ultrasonic
sensor) and providing feedback to the person through haptics (vibration motor). Along with that
few more inclusions have been done like tracing the blind person when he has lost the way by
using a GPS-GSM module.
Circuit Diagram/Block Diagram
Figure: Complete Circuit diagram of the project
Project title: Aurdiono Calculator
Project Supervisor: Mrs.Beegum Salini
Semester: I 2018-19
Level Advanced Diploma
ABSTRACT:
A Calculator is a device that is used to perform simple arithmetic operations to complex
mathematical calculations. Nowadays calculator is important for everyone like students and
teachers to do all calculation very fast. So in this project we do calculator by Arduino because
arduino Uno has always helped to build projects easily and make them look more attractive. In this
project, we are going to make an Arduino Uno calculator which will take the values from user by
using the 4X4 keypad and then will perform the calculations to get the result. After calculating the
result, it will print those calculated values on LCD. This Arduino Uno based calculator can perform
four operations which are addition, sub-traction, multiplication, division and sin.
Block Diagram
CIRCUIT DIAGRAM
Project title: Automatic Pet Feeder with Wi-Fi
Project Supervisor: Mrs.Beegum Salini
Semester: I 2018-19
Level Advanced Diploma
ABSTRACT:
The automatic pet feeder with Wi-Fi intended for those who are owning a pet and due to a
several circumstance they cannot feed them manually. The basic of the project is to build a device
that give the ability to the owner to set up a several feeding time using a phone application without
needing to be near the device. The device has many features it can sense the amount of water left
in the tank and the in drinking bowl using water level sensor. Also, it can send a notification to the
owner via an app when the amount of water is too low. If the water in the drinking bowl is about
to run out, the device will automatically turn on the water pump which will pump the water into
the drinking bowl until it reaches a certain level and turn it off again.
As for food. The automatic pet feeder contained a servo motor that is
attached to a cover which used to look the food tank, bias on the feeding time which was set up by
the user through the phone application, the microcontroller will turn on the servo motor for a short
time leading to move the food tank cover for short time allowing the food to come out. The
automatic pet feeder can be controlled from anywhere in the word as the user phone is contacted
to the internet it as the device consisted of a Wi-Fi part that its accessible to the internet.
The object of the project is build a device that should be simple and friendly
to the owner application, as the project aim to by designing a phone app that is clear and dos not
contained any programing complication.
Block Diagram
Arduino UNO
(microcontroller)
Water Level
sensor 2
y
Servo
Motor
Real Time
Clock
Relay
Battery
Water
Pump
Wi-Fi Power
supply
Water Level
sensor 1
Power supply
CIRCUIT DIAGRAM
Project title: Smart safety system for school bus
Project Supervisor: Pandimadevi.G
Semester: I 2018-19
Level Advance Diploma
ABSTRACT:The main idea of the project is how to reduce the problem of forgetting children in
school buses. In the recent period, a large number of schoolchildren died because they did not
leave the bus after school without the driver's knowledge. In our project we tried to solve this
problem and we made a safer bus for the students. The idea of the bus is that it has advanced
devices that provide protection for the pepper and help the driver to avoid the problem. The bus
contains a device that limits the number of students and their names and sends a message to the
parents to tell them that their child has boarded the bus and also when it comes down. In our
project we tried to solve this problem and we made a safer bus for the students. The idea of the
bus is that it has advanced devices that provide protection for the pepper and help the driver to
avoid the problem. The bus contains a device that limits the number of students and their names
and sends a message to the parents to tell them that their child has boarded the bus and also when
it comes down. Also when the driver closes the bus will produce a sound that must be closed
from the end of the bus so he will see if there is a child in the bus and if the child under the chairs
there is a sensitive sensor movement of people and sends a signal to the driver of a person on the
bus.
Keywords: Arduino, PIR ,RFID, GSM etc.
Block Diagram
CIRCUIT DIAGRAM
Project title: Digital Thermometer Using Arduino
Project Supervisor: Dr.P.Radika
Semester: I Academic year:2018-2019
Level Adv Diploma
ABSTRACT:
In this project we design a digital Thermometer using Arduino and LM35 tem-
perature sensor. Output will display temperature in degree celcius in a seven segment displays.
Thermometer has two basic elements; a transduser, which senses some change in temperature, and
a converter which converts this into numerical value. These numerical values are then processed
and displayed. Temperature measurement using an analogue types (e.g. mercury in glass
thermometer) have some drawbacks like inaccuracy, poor sensitivity etc., The designed Arduino
based Digital thermometer is simple design circuit with low cost and less components.
.CIRCUIT DIAGRAM
B.tech Phase-2 project database for semester-1 Academic year 2018-
19
Project title: Smart Examination Hall
Project Supervisor: Mohammed Aleem
Semester: I 2018-19
Level B.Tech Phase -II
ABSTRACT:
Security is a major concern in our day to day life, in any organization or company, it is very necessary to
keep regular track on attendance of employees for consistent regulation of discipline and payment. There
are many types of security systems available to secure place. Some examples are PIR based Security
System; RFID based Security System, fingerprint attendance system and face recognition system.
Our concern is to make platform for both student and tutors; by making maximum use of Internet
technology and other advance technologies like Arduino mega 2560. Our project is about smart
examination system. The implementation is much more accurate and faster than our previous feature (i.e.
ID card based). The student’s attendance system in our college is done by using ID cards. But this method
needs a time and effort to check the card for each and every student.
In our project we will use both Fingerprint Scanner and RFID systems instead of ID card and
interface them with Arduino Mega. This saves the time and they are also low in cost. If we install the exam
hall authentication system, this circuit operates using both Fingerprint Scanner and RFID system. The
students have the full freedom to use any one of them. First, fingerprint scanner is used to scan finger on
the scanner, on scanning the data is sent to the microcontroller, based on this data the scanned finger is
now verified for authentication with already saved fingers on the database. Second, RFID system is used
to authenticate the user when the student put his/her card in front of the reader an electromagnetic field
will be generated, the reader will match that reading with saved data on SD card memory. So if the student
is verified by any of the two methods the microcontroller will opens the door and a green LED will glow
to indicate the student authorization and the student attendance will be mark on the online system, if not
the buzzer sound will work for indicating that he/she is not authorized.
We can conclude that both fingerprint and RFID system are considered to be one of the safest key
to lock or unlock any system as it can recognize any person uniquely and can’t be copied easily.as well as
it’s easy to use and maintain. Learning is not how much one can cramp up. It’s rather the knowledge that
remains after one forgets what he/she learned in schools. Thus we believe the Intelligent Environment
will be the right metaphor for people to interact with the computer systems in the ubiquitous computing
age.
Block Diagram
Door open
RTC module
Arduino mega 2560
Exam instructions
display on LCD
Student phone
Student can attend
the exam
OR
Student
2.1.2 Model 2:
Authentication Model
Project title: IOT BASED PATIENT HELTH MONITORING SYSTEM
Project Supervisor: SUBHRA DEBDAS
Semester: I 2018-19
Level B.Tech Phase -II
ABSTRACT:
This project deals with the design and development of IOT enabled embedded system for
simulated heart beat monitoring. The system uses IOT for communicating the abnormalities in the
simulated biomedical parameters. The abnormal deviation in the values of any of these parameters
from their set point vales will be immediately sensed and local help is sought from the nearby
people.
In this project one IOT based on heart beat monitoring system has been proposed to measure and
monitor human heart beat rate from any location around the world. Infrared-based pulse sensor
has been applied to collect the human heartbeat after processing data through Arduino, has been
transferred to Thinkspeak IOT server through ESP8266 Wi-Fi module Android App integration.
Block Diagram
CIRCUIT DIAGRAM
Project title: Realtime Geolocation Tracking and Monitoring of Alzheimer and Heart Patients
Project Supervisor: Dr Ravichandran M Semester: I , 2018-19
Level B.Tech Phase -II
Project done by students which is given below:
S No Student ID Name of the Student Section
1 26S1335 Nada Ibrahim Al Sulaimani CS
2 26S1342 Nuha Ibrahim Al Sulaimani CS
3 22S13412 Sana Ali Al Shaqsi CS
ABSTRACT:
This project deals with design and implementation of real time geolocation tracking &
monitoring of Alzheimer and Heart patient. Alzheimer Disease has major implications on
patient safety and care. The elderly Alzheimer’s patient encounters risk of losing their
memory capabilities and are unable to live a normal life accordingly. The short memory may
lead them to wander aimlessly and endanger their lives. Hence, the Alzheimer’s patients
need to be monitored and tracked closely to ensure their safety. Also patients suffering from
abnormal heart rhythm disorders should be closely monitored and timely medical intervention
could save their lives. In this project, an assistive technology tool called “Real time Geolocation
Tracking and Monitoring of Alzheimer and Heart Patients (RGTM-A&HP)” was developed.
The system tracks all the A&HP patients instantaneously in real time and helps in analyzing
patient spatial movement and their health conditions for enhancing their care management.
In the event of abnormal heart rhythms, the system is capable of tracking the patient’s location
using GPS and send the GPS coordinates along with heart rate and Sp02 values to the
doctor/care taker. Further the location of the Alzheimer patients can also be tracked by
caretaker in the same way.
Fig above shows the block diagram of the Real time Geolocation tracking and monitoring system
for Alzheimer and Heart Patients. It consists of Arduino Mega which is programmed to accept the Heart
Rate and Sp02 values of the user from the corresponding sensors. The values are transmitted to the
Arduino wirelessly using Bluetooth Tx and Bluetooth Rx. The received values are compared with trivial
values (critical thresholds) of HRM and Sp02. If the user values found to exceed the critical values, then
the location of the user detected using GPS is transferred to doctors mobile with patient parameters
using GSM. LCD Display is used to display the measured HRM and Sp02 values.
Fig above shows the flow diagram of the project. The user Heart Rate and Saturated percentage
of Oxygen are critical parameter used to determine the health of a person. Hence by monitoring these
values one can get a good understanding of the patient health condition. In our project, these values
are monitored using HRM and Sp02 sensor. If HR exceeds 100 bpm then the condition is known as
tachycardia and if HR falls below 60 bpm then the medical condition is known as bradycardia. Also the
critical level of 90 % Sp02 has to be maintained for good health.
If user values exceed the critical thresholds mentioned above, the GPS coordinates of
the
patient are sent to doctor’s mobile phone using GSM.
