IRJET- Automatic Bin Bot- Garbage Collecting System in Residential Areas and Enlightening Disposal Mechanism

© 2018, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 1312
Automatic Bin Bot- Garbage Collecting System in Residential Areas and
Enlightening Disposal Mechanism
Purushothaman.R1, Bharathi.V2
Asst.Prof (Department of ECE) J.J College of Engineering and Technology, Trichy, Tamilnadu.
Asst.Prof (Department of ECE) Kongunadu College of Engineering and Technology, Thottiam, Trichy, Tamilnadu.
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Abstract - The world today faces major garbage crisis-the
product of rapid economic growth, poor urban planning,
overcrowding, corrosive corruption and political dysfunction.
The present tried and tested methods of garbage collection in
residential areas have so far been done with Municipal solid
waste workers (MSWWs) where they expose too many work
related health hazards and safety risks, notably allergic and
other diseases of the respiratory system. Hence to overcome
this major problem of waste collection, BinBot (Automatic
Garbage collecting robot) is developed. It facilitates the
smarter way for garbage collectionautomaticallyfromhouses
in the Residential areas and intimates the municipality about
the BinBot status through IoT to collect the garbage when itis
filled. This would be helpful for the “Swachh Bharat” (clean
India) by 2019, India’s real garbage challenge.
Keywords: Arduino UNO, IoT Module, RFID, Ultrasonic
Sensor, IR Sensor
1. INTRODUCTION
Garbage is the major problem not only in cities but also in
rural areas of India. The ultimate need of the hour for a
developing nation is the key for “Smart City”. Even though
there are many existing systems that solve cleaning and
monitoring common dustbin but there is no proper method
for the disposal of garbage at every house daily. When the
human is not at home it is very difficult to dispose the
household waste while the MSWW’S come to collect the
waste. So this proposed system would facilitate disposal of
waste at every house in the absence of human. This System
consists of two bins that are home dustbin and the moving
dustbin (BinBot). This smarter way of garbage collection
facilitates the automatic garbage collection from house by
the BinBot (Moving dustbin) by moving in the predefined
path and facilitate disposal using IoT
1.1 Methodology Home Dustbin:
Home dustbin is for the people to throw their
household wastes. Dustbin is interfaced with RFID and door
opening mechanism. It is kept placed in a stand at certain
height from the ground in front of every house. RFID enable
interaction betweenhomedustbinandmovingdustbin.Ultra
sonic sensor would indicate when waste in it reaches the
maximum level. Door opening mechanism disposes the
waste when it is interfaced with BinBot. The major
advantage of using microcontroller is to control the devices
which are connected with it according to the signal from the
IR Sensors. In future depending upon the applications
sensors can be used. Both Analog and digital sensors can be
used.
Figure 1: Block Diagram of Home Dustbin
1.2 Moving Dustbin (BinBot)
Moving dustbin containUltra sonic sensor,IR sensor,
RFID reader, transmitter also interfaced with IoT.
Figure 2: Block Diagram of Moving Dustbin (Bin Bot)
2. WORKING PRINCIPLE
Moving dustbin(BinBot)movealongthedefined path
at the corner of the street (by line following mechanism).
When BinBot comes closer to the home dustbin RFID reader
reads the data from the RFID and stop moving then BinBot
transmit data to home dustbinthroughthetransmitter.After
receiving the data about the arrival of BinBot it enable the
door opening mechanism to dispose the waste to Bin Bot.
After waiting for some time BinBot starts moving and
continue this process at every house.
When BinBot comes in contact with any obstacle it
detects it with IR sensor it stops moving and wait until the
path is cleared. Garbage level in the BinBot is sensed by
Ultrasonic sensor. If the garbage in BinBot attains the
maximum level it stop moving and intimate municipality to
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056
Volume: 05 Issue: 08 | Aug 2018 www.irjet.net p-ISSN: 2395-0072

collect the garbage. Also the BinBot status is sent through
IoT for collecting garbage by municipality workers.
3. HARDWARE USED MICROCONTROLLER:
PICs are popular with both industrial developers and
hobbyists alike due to their low cost, wide availability, large
user base, extensive collection of application notes,
availability of low cost or free development tools, and serial
programming (and re-programming with flash memory)
capability Various microcontrollers offer different kinds of
memories. EEPROM, EPROM, FLASH etc. are some of the
memories of which FLASH is the most recently developed.
Technology that is used in PIC 16877 is flash technology, so
that data is retained even when the power is switched off.
Easy programming and erasing are other features of PIC
16F877. PIC16F877A microcontroller is used in the project.
Figure 3: Pin Diagram of PIC16F874A
4. IR SENSOR:
4.1 IR TRANSMITTER: an IR led is also known as IR
transmitter, is a special purpose LED that transmitsinfrared
ray in the range of 760nm wavelength. An IR LED’ also
known as IR transmitter, is a special purpose LED that
transmits infrared ray in the range of 760nm wavelength.
Such LEDs are usually made of gallium arsenide. The
appearance is same as a common LED. Since the human eye
cannot see the infrared radiations, it is not possible for a
person to identify whether the IR LED is working or not,
unlike a common LED.
4.2 IR RECEVIER: An IR led is operated in forward bias just
like any ordinary led. When it is in reversedbiasedcondition
if there is no light falling on the diode it will decreased and
TX. When the sensor is placed in front of a white surface the
light emitted from led gets reflected on to diode so the
photodiode act as a short circuit. So the voltage at theoutput
will be almost equal to 0v in case of black body or spacethen
no light falls on the diode so it will act like an open circuit. So
voltage at output will be almost equal to 5v.
5. ARDUINO UNO:
The Arduino Uno is a microcontroller board grounded on
the ATmega328 (datasheet). It comprises of 14 digital
input/output pins (out of which 6 can be utilized as PWM
outputs),6 analog inputs, a 16MHz ceramic resonator, a
facilitation for USB connectivity, a power jack, an ICSP
header, and a reset button. Its designs comprises of
assistances that supports the microcontroller in every
possible way. In order to get to work with it one has to
simply connect it to a computer with a USB cable or power it
with an AC-to-DC adapter or battery. It is accessible in two
different versions namely Arduino Uno and Genuino Uno
which could be visualized. The variations are observed with
reference to the region. The Uno is unique fromall itsformer
boards in the way that it does not make use of the FTDI USB-
to-serial driver chip. The word "Uno" refers to one in Italian
and it is named so to mark the forthcoming release of
Arduino 1.0. The Uno and version 1.0 are the reference
versions of Arduino in the forward journey.
6. ULTRASONIC SENSOR:
Ultrasonic ranging module offers a 2cm - 400cm
non-contact measurement function, the ranging accuracy
could reach up to 3mm. The building modules includes
ultrasonic transmitters, receiver and control circuit. Here
electrical energy is transformedintosoundtosendthe pulse.
The sound that is received back is converted into electricity.
Thus the time lag between the sent and received sound
signal is used to estimate the distance to the object. Spacing
between sensors is dogged by their beam angles. The
sensors must be spaced so that they do not interfere with
each other. This interference is sometimes referred to as
“crosstalk”. The target should be mounted perpendicular to
the axis of the sensor.
7. RADIO FREQUENCY IDENTIFICATION:
7.1 RFID TAG
RFID tag is a tiny device that stores andforwardsthe
data to RFID reader. They are characterized in two types –
active tag and passive tag. Active tags are contains an
inherent internal battery and do not demands power from
the reader. Stereotypically active tags have a longerdistance
range than passive tags. Passive tags are slighter and lighter
in dimensions than that of the active tags. They do not
contain an inbuilt battery and thus they look upon RFID
reader for its operating power and undoubtedly have a
lower range limited up to few meters.
7.2 RFID READER
The radio frequency gets transmitted by the reader
when powered ON. When the tag is positioned close to the
reader, the RFID tag will collect the radio frequency via the
antenna placed inside the tag exclusively. The radio

frequency received will be converted into electrical power
that is enough for the tag to transmit the data back to the
RFID reader. In addition to this, the reader will transmit the
tag ID to the external device by a serial communication. A
wide range of reader modules are readily availablenow. The
most communal and easy way to use reader is EM-18.This
module read the RFID passive tag and shifts the tag ID to the
Arduino microcontroller.
8. WORKING PROCEDURE
1. Home dustbin is placed in front of every house
2. BinBot moves along the line on the street corner
3. If BinBot comes closer to home dustbin, RFID reader
read RFID and start communicating with the help of
transmitter and receiver
4. Then home dustbin open the door at the bottom to put
the waste into the BinBot
5. After collecting waste BinBot moves along the line and
collect from all the house
6. When met with any obstacle, itstopmovingandproceed
after the removal of obstacle
7. Ultrasonic sensor monitor the level of garbageinBinBot
and intimate municipality afterreachingmaximumlevel
through IoT
CONCLUSION
This paper gives basic idea about efficient garbagecollecting
in every house by reducing the workload of municipality
workers and enhanced the monitoring system by using IoT
technology. The Garbage pickup work is physically
demanding and when delayed it exposes workers too many
occupational hazards. In addition to this it also aids to
diminish the need for high human intervention in garbage
maintenance of the municipality and pollution monitoring
system. Thus this system comes in handy as an admirable
solution in environmental maintenance.
REFERENCES
[1] Shin’ichi Yuta, Makoto Mizukawa, Hideki Hashimoto,
Hirofumi Tashiro and Tsuyoshi Okubo “An Open
Experiment of Mobile Robot Autonomous Navigation at
the Pedestrian Streets in the City - Tsukuba Challenge”in
Proceedings of the 2011 IEEE International Conference
on Mechatronics and Automation August 7-
10,Beijing,China
[2] Gabriele Ferri, Alessandro Manzi,PericleSalvini,Barbara
Mazzolai , Cecilia Laschi , and Paolo Dario “ DustCart, an
autonomous robot for door-to-door garbage collection :
from DustBot project to the experimentation in the small
town of Peccioli ”in IEEE International Conference on
Robotics and Automation Shanghai International
Conference Center May 9-13, 2011, Shanghai, China
[3] By Pericle Salvini, Giancarlo Teti, Enza Spadoni, Cecilia
Laschi, Barbara Mazzolai, and Paolo Dario “The Robot
Dust Cart ” in IEEE robotics & automation magazine
March 2011
[4] Apoorva S, Chaithanya, Rukuma S Prabhu, Saiswaroop B
Shetty, Denita D’Souza “Autonomous Garbage Collector
Robot”in International Journal ofInternetofThings2017,
6(2): 40-42 DOI:10.5923/j.ijit.20170602.06
[5] Dr.N.Sathish Kumar, B.Vijayalakshmi , R. Jenifer
Prarthana, A .Shankar “IOT Based Smart Garbage alert
system using Arduino UNO” in 2016 IEEE Region 10
Conference (TENCON) -Proceedings of the International
Conference
AUTHORS
Purushothaman.R
Asst.Prof
(Department of ECE)
J.J College of Engineering &
Technology, Trichy, Tamilnadu
Bharathi.V
Asst.Prof
(Department of ECE)
Kongunadu College of
Engineering & Technology,
Thottiam, Trichy, Tamilnadu

IRJET- Automatic Bin Bot- Garbage Collecting System in Residential Areas and Enlightening Disposal Mechanism

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