The document describes a smart trash bin project created by a group of 3 students. The smart trash bin uses an ultrasonic sensor to detect when someone passes within 10cm of the bin, which triggers a servo motor to open the bin lid. LED lights and an LCD display indicate the bin status (full/empty), and a buzzer sounds when the bin is full. The project aims to promote proper trash disposal and make trash bins more automated.
This Project worked if someone pass in front of the trash bin,ultrasonic sensor will detect the distance,we set the distance in less 10cm so if someone pass less 10 cm from the trashbin,ultrasonic sensor will work and moved the servo motor, so that the trash bin will be open,and the Green LED will On,and if the distance more that 10cm the trashbin will keep closed and the Red LED will On.
Arduino-Based Smart Dustbin - Hemant Verma - Google Docs.pdfHEMANTVERMA6592
Creating a detailed guide on an Arduino-based smart dustbin involves covering various aspects, from the components required to the programming code and the step-by-step construction process. While a 3000-word response may be too extensive for this format, I'll provide an overview of the key sections you might include in such a guide:
### Introduction (Approx. 200 words)
Introduce the concept of a smart dustbin and its benefits in terms of waste management and environmental sustainability. Briefly explain how an Arduino-based system can enhance the functionality of a traditional dustbin.
### Components and Materials (Approx. 400 words)
List and describe the necessary components for the smart dustbin project. This includes an Arduino board (like Arduino Uno), ultrasonic sensor, servo motor, dustbin, connecting wires, power supply, and a prototyping board. Explain why each component is essential to the project.
### Circuit Diagram (Approx. 300 words)
Provide a detailed circuit diagram of how the components will be connected. Explain the role of each element in the circuit and how they interact to create the smart functionality of the dustbin.
### Setting Up the Arduino IDE (Approx. 200 words)
Guide readers through the process of setting up the Arduino Integrated Development Environment (IDE) on their computers. Include instructions for installing the necessary drivers and selecting the correct board.
### Writing the Arduino Code (Approx. 600 words)
Provide a step-by-step guide to writing the Arduino code. Explain the logic behind the code, detailing how the ultrasonic sensor will measure the distance of the waste in the dustbin and how the servo motor will respond to open and close the lid accordingly.
### Assembling the Hardware (Approx. 500 words)
Walk through the physical construction of the smart dustbin. Offer detailed instructions on how to mount the ultrasonic sensor, attach the servo motor to the dustbin lid, and connect all the components to the Arduino board. Include images or diagrams to aid understanding.
### Powering the System (Approx. 200 words)
Explain the power requirements for the smart dustbin and guide users on how to connect the power supply. Include considerations for power consumption and potential energy-saving features.
### Testing and Troubleshooting (Approx. 300 words)
Provide a testing procedure for users to ensure their smart dustbin is functioning correctly. Address common issues and offer troubleshooting tips for problems that may arise during the assembly or testing phase.
### Conclusion (Approx. 100 words)
Summarize the key points of the guide, emphasizing the benefits of the Arduino-based smart dustbin and its potential impact on waste management. Encourage readers to experiment with and customize the project further.
### Additional Tips and Advanced Features (Approx. 200 words)
Offer suggestions for additional features or improvements that users can explore, such as incorporating wireless connectivity for
Abstract : The project’s major goal is to create an intelligent trash can that would aid in maintaining a clean
and environmentally friendly environment. The Swachh Bharat Mission motivates us. Since technology is
becoming increasingly intelligent, we are utilising Arduino nano to develop an intelligent dustbin to help clean
the environment. The ultrasonic sensors on the trashcan are part of the dustbin control and management system,
which happens to be designed with a microcontroller-based platform. In the suggested method, we used an
ARDUINO NANO, an ultrasonic sensor, a Mini servo motor, and jumper wire linked to a charger to construct an
intelligent trash can. The Smart Dustbin application will launch when all hardware and software connections
have been made. Dustbin lid will wait for the person to pass by at a distance of 60 cm.
This Project worked if someone pass in front of the trash bin,ultrasonic sensor will detect the distance,we set the distance in less 10cm so if someone pass less 10 cm from the trashbin,ultrasonic sensor will work and moved the servo motor, so that the trash bin will be open,and the Green LED will On,and if the distance more that 10cm the trashbin will keep closed and the Red LED will On.
Arduino-Based Smart Dustbin - Hemant Verma - Google Docs.pdfHEMANTVERMA6592
Creating a detailed guide on an Arduino-based smart dustbin involves covering various aspects, from the components required to the programming code and the step-by-step construction process. While a 3000-word response may be too extensive for this format, I'll provide an overview of the key sections you might include in such a guide:
### Introduction (Approx. 200 words)
Introduce the concept of a smart dustbin and its benefits in terms of waste management and environmental sustainability. Briefly explain how an Arduino-based system can enhance the functionality of a traditional dustbin.
### Components and Materials (Approx. 400 words)
List and describe the necessary components for the smart dustbin project. This includes an Arduino board (like Arduino Uno), ultrasonic sensor, servo motor, dustbin, connecting wires, power supply, and a prototyping board. Explain why each component is essential to the project.
### Circuit Diagram (Approx. 300 words)
Provide a detailed circuit diagram of how the components will be connected. Explain the role of each element in the circuit and how they interact to create the smart functionality of the dustbin.
### Setting Up the Arduino IDE (Approx. 200 words)
Guide readers through the process of setting up the Arduino Integrated Development Environment (IDE) on their computers. Include instructions for installing the necessary drivers and selecting the correct board.
### Writing the Arduino Code (Approx. 600 words)
Provide a step-by-step guide to writing the Arduino code. Explain the logic behind the code, detailing how the ultrasonic sensor will measure the distance of the waste in the dustbin and how the servo motor will respond to open and close the lid accordingly.
### Assembling the Hardware (Approx. 500 words)
Walk through the physical construction of the smart dustbin. Offer detailed instructions on how to mount the ultrasonic sensor, attach the servo motor to the dustbin lid, and connect all the components to the Arduino board. Include images or diagrams to aid understanding.
### Powering the System (Approx. 200 words)
Explain the power requirements for the smart dustbin and guide users on how to connect the power supply. Include considerations for power consumption and potential energy-saving features.
### Testing and Troubleshooting (Approx. 300 words)
Provide a testing procedure for users to ensure their smart dustbin is functioning correctly. Address common issues and offer troubleshooting tips for problems that may arise during the assembly or testing phase.
### Conclusion (Approx. 100 words)
Summarize the key points of the guide, emphasizing the benefits of the Arduino-based smart dustbin and its potential impact on waste management. Encourage readers to experiment with and customize the project further.
### Additional Tips and Advanced Features (Approx. 200 words)
Offer suggestions for additional features or improvements that users can explore, such as incorporating wireless connectivity for
Abstract : The project’s major goal is to create an intelligent trash can that would aid in maintaining a clean
and environmentally friendly environment. The Swachh Bharat Mission motivates us. Since technology is
becoming increasingly intelligent, we are utilising Arduino nano to develop an intelligent dustbin to help clean
the environment. The ultrasonic sensors on the trashcan are part of the dustbin control and management system,
which happens to be designed with a microcontroller-based platform. In the suggested method, we used an
ARDUINO NANO, an ultrasonic sensor, a Mini servo motor, and jumper wire linked to a charger to construct an
intelligent trash can. The Smart Dustbin application will launch when all hardware and software connections
have been made. Dustbin lid will wait for the person to pass by at a distance of 60 cm.
Smart solution for collision at doors using ArduinoAmon Olimov
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In Bangladesh, to ensure better healthcare, we are looking forward to getting the best equipment with the least cost. The needs of my country basically motivate me in aiming this project.
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This project presents one of the solutions among various others, for operating a computer using hand gestures. It is one of the easiest ways of interaction between human and computer. It is a cost effective model which is only based on Arduino UNO and ultrasonic sensor. The python IDE allows a seamless integration with Arduino UNO in order to achieve different processing and controlling method for creating new gesture control solution.
Obstacle Detection robot detects the obstacle to avoid collision using ultrasonic sensor. The motors are connected through motor driver IC to microcontroller , to control the speed PWM is used.
Smart solution for collision at doors using ArduinoAmon Olimov
Lots of people work in offices in modern life, scientists, economists, program developers and such mental workers. At least little troubles or problems may be affected to employment rates of office workers. In fact these kind little troubles happen at solid doors. Without being aware of there is other person behind the door two person trying to open it at the same time. Result of these kinds of collisions might be fear, falling the documents, losing the mind, splitting coffee. We created the smart device to solve this problem using arduino and ultrasonic sensors. There are detailed information about this device's hardware and software.
Building of heart beat rate monitor & object detector by md syeduzzaman s...Syeduzzaman Sohag
In the recent years, huge improvements have been noticed in the world of technology and computerized systems. In the biomedical world, the equipment should features of user-friendly operation, portability, high level of safety and lower cost. These biomedical equipment ranges from medical diagnosis and treatments to provide supports for disable people for their daily movements.
In Bangladesh, to ensure better healthcare, we are looking forward to getting the best equipment with the least cost. The needs of my country basically motivate me in aiming this project.
This project has two parts, in the first part, the effort has made to build a simple, less expensive, graphic based heart beat rate monitor system which can be used for medical diagnosis. In the second part, an object detector system has been developed to help physically handicapped persons to detect object in front of them. The Object detector system can be modified for the vehicles safety as well as to minimize the risk at road accidents during travelling through foggy condition.
This project presents one of the solutions among various others, for operating a computer using hand gestures. It is one of the easiest ways of interaction between human and computer. It is a cost effective model which is only based on Arduino UNO and ultrasonic sensor. The python IDE allows a seamless integration with Arduino UNO in order to achieve different processing and controlling method for creating new gesture control solution.
Obstacle Detection robot detects the obstacle to avoid collision using ultrasonic sensor. The motors are connected through motor driver IC to microcontroller , to control the speed PWM is used.
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Project Instrumentation (Smart Trashbin) POLITEKNIK NEGERI BANDUNG
1. Home Automation Project
SMART TRASHBIN
Created By : Group 9
Members : 1. Handy Mulyaguna (151611044)
2. Risana Dewi Saputri (151611059)
3. Siti Amimah (151611062)
5. Science and technology are the things most needed by the people in
this era of globalization in order to meet the necessities of life.
Science and technology continue to evolve over time, so that the
community needs can be easily met.
There are still a lot of trash scattered about the environment around
us, but we know that with littering would lead to disaster and
disease, By Utilizing Technology and Apply it on the Project Smart
trashbin aims to draw attention to the environment to dispose of
waste in place, to make automatic trashbin,we hope others can
develop a project that we've created, so can d use for a larger
scope.
Background
2
6. Description
3
This Project worked if someone pass in front of the trash bin,ultrasonic sensor
will detect the distance,we set the distance in less 10cm so if someone pass
less 10 cm from the trashbin,ultrasonic sensor will work and moved the servo
motor, so that the trash bin will be open,and the Green LED will On,and if the
distance more that 10cm the trashbin will keep closed and the Red LED will
On.
And if the volume of trash in the low position the Green LED will On and will
show an output in LCD Display “BERSIH ITU SEHAT,TERIMAKASIH”,and the
last the Red Led Will On if the volume of trash in high volume and the Buzzer
will On,and the output in the lcd display is “ PERHATIAN !!! Sampah Penuh”.
Smart Trash Bin
10. 7
Arduino Uno
Arduino/Genuino Uno is a microcontroller board based on the ATmega328P . It has 14 digital
input/output pins (of which 6 can be used as PWM outputs), 6 analog inputs, a 16 MHz quartz
crystal, a USB connection, a power jack, an ICSP header and a reset button.
11. 8
Buzzer
A buzzer or beeper is an audio signalling device, which may be mechanical, electromechanical,
or piezoelectric. Typical uses of buzzers and beepers include alarm devices, timers, and
confirmation of user input such as a mouse click or keystroke
12. 9
LCD Display
LCD (liquid crystal display) is the technology used for displays in notebook and other smaller
computers.
13. 10
Ultrasonic Sensor
An Ultrasonic sensor is a device that can measure the distance to an object by using sound waves.
It measures distance by sending out a sound wave at a specific frequency and listening for that
sound wave to bounce back. By recording the elapsed time between the sound wave being
generated and the sound wave bouncing back, it is possible to calculate the distance between the
sonar sensor and the object.
14. 11
Servo Motor
A servomotor is a rotary actuator or linear actuator that allows for precise control of angular or
linear position, velocity and acceleration. It consists of a suitable motor coupled to a sensor for
position feedback
15.
16. The Procedure
13
Prepared All the tools and material that we’ll
needed to make this project.
First Step
find out the module&code of every component.
After we find out all the module,we try the code of
every component to test all the component to make
sure that no error,to test the script program we should
use arduino apication
2th Step
Combain all the script porgram of every component
become one scipt programs,and upload the
script,before upload the script,connect Arduino to
computer used USB cable.
3rd layer
Connect every cable on all the component,and conncet
them to the pin on arduino,and assamble all of the
component on the prothoboard or PCB for the fix script
program.
4th Step
Made the desain to trashbin,and placed all the
component to the trashbin.
5th layer
After we finnish do the step,try the project,pass
in the front of trashbin with distance less than
10 cm,and we can see an output.
Last Step
23. Trial Table
23
Exp : V,for Servo Motor rottated,and moved the cover of trashbin
V,for LED turn Light
- , for servo motor not rottated,and the trashbin keep closed.
-, for LED turn Off.
No
Distance Servo LED
(cm)
0 180° RED GREEN
1 1 - V - V
2 3 - V - V
3 6 - V - V
4 9 - V - V
5 12 V - V -
6 15 V - V -
7 18 V - V -
8 20 V - V -
24. Analysis
24
At the time of the trash in a state of stand-by (the cover of trash can closed), which lights up green (no 1,
indicator for the trash not full yet) and red light (no1, indicator for cover of the trashbin can closed) when our hand
getting close ultrasonic sensor ( ultrasonic sensor 1), then the cover of trashbin opened and the lights turn green (1 &
2, No. 2 indicator for trash can opened) If the trash is empty, then the green light (no one on and the lCD will display the
words "Bersih itu sehat. Terimakasih".
If the trash is full, the led will turn red light (no 2 will light up) and the LCD will display the phrase
"Perhatian,Sampah Penuh".
25. Conclusion
25
Arduino Uno can be a controller in this experiment, depending on the script programthat has been created.
Datasheet of component is really needed in the trials. The Ultrasonic censor can be detect the distance. The module of
all materials is needed. We can applied this project in our daily.
26. Suggestion
26
If we want detect the volume of the trash with 3 variable,low,middle,and high,it’s use 2
ultrasonic sensor and set with different distance.
We can used 2 buzzer,for volume of trash and for the cover of the trasbin when the
cover of trashbin opened the buzzer will turn on.
