SOFTWARE DESIGN AND IMPLEMENTATION OF WASTE MANAGEMENT SYSTEM ON PUBLIC FACILITIES (CASE STUDIES: INSTITUT TEKNOLOGI BANDUNG)

One of the consequences of population growth is the increasing amount of waste produced. This could lead to many problems if the management of waste is not done effectively. Waste management process includes trash collection on trash bins, trash distribution, and trash dumping on the landfills. The...

Full description

Saved in:

Bibliographic Details
Main Author:	Andita Resapati, Fathia
Format:	Final Project
Language:	Indonesia
Online Access:	https://digilib.itb.ac.id/gdl/view/39989
Tags:	Add Tag No Tags, Be the first to tag this record!
Institution:	Institut Teknologi Bandung
Language:	Indonesia

id	id-itb.:39989
spelling	id-itb.:399892019-06-28T15:06:23ZSOFTWARE DESIGN AND IMPLEMENTATION OF WASTE MANAGEMENT SYSTEM ON PUBLIC FACILITIES (CASE STUDIES: INSTITUT TEKNOLOGI BANDUNG) Andita Resapati, Fathia Indonesia Final Project waste management system, software, models. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/39989 One of the consequences of population growth is the increasing amount of waste produced. This could lead to many problems if the management of waste is not done effectively. Waste management process includes trash collection on trash bins, trash distribution, and trash dumping on the landfills. The challenge to make waste management effective is the background for this final project. In this final project, the design of the waste management is carried out at the trash collection stage. This final project starts from identifying the user needs by collecting data from interviews and questionnaires to thy community of Bandung Institute of Technology. Based on these needs, functional and non-functional requirements specifications are defined. The functional requirements are; the system has several types of bins, the system can detect the type of garbage, the system can provide information about the flow of waste management in ITB, the system has an explanation of the waste category, the system can move trash to the correct containers, the system can provide information about the urgency of sorting waste, the system can identify users to give rewards, the system can detect the weight of the garbage collected, the system can display received reward information, the system can display statistics data from the weight of the garbage to analyze trash bin placement, the system can store historical data in the database, the system can send notifications when a trash bin is almost full or already full, the system can display the location of the trash binand the status of the trash bin, and the system can open the lid of the trash bin automatically. For the non-functional needs of the system is divided into 3 main needs, namely supportability, usability, and reliability. To test this waste management system, a trash bin model which is divided into several subsystems is made, the subsystems are the garbage validation subsystem, the reward subsystem, the monitoring subsystem, the trash opening subsystem and the infographic subsystem. Based on these subsystems, inductive sensor is selected to detect metals, then LDR sensor to detect plastics, RFID module to identify users, ESP8266-01 module to communicate wirelessly, ultrasonic sensor to detect the trash’ heights, load cell sensor to detect the waste’s load, and a servo motor to move the bulkhead. In addition, there is an information system in the form of websites and mobile applications consisting of servers and databases for processing and storing data, an interface for displaying notifications when the trash bin is full and an interface to display the location of the trash bin. Results produced from the testing are; the system can validate trashes, the trash bin can open its lid automatically, the system can communicate with the internet and send data to the server, the system can manage data on the server, the system can store data to the data base, the system can show the interface of a notification when the trash bin is fully loaded, and the system can show the interface of the location to the trash bin in websites and the mobile application This final project is done on a group. The main topic of this book is the software of the system. The hardware of the system is implemented by Airinnisa Nur Hidayati. text
institution	Institut Teknologi Bandung
building	Institut Teknologi Bandung Library
continent	Asia
country	Indonesia Indonesia
content_provider	Institut Teknologi Bandung
collection	Digital ITB
language	Indonesia
description	One of the consequences of population growth is the increasing amount of waste produced. This could lead to many problems if the management of waste is not done effectively. Waste management process includes trash collection on trash bins, trash distribution, and trash dumping on the landfills. The challenge to make waste management effective is the background for this final project. In this final project, the design of the waste management is carried out at the trash collection stage. This final project starts from identifying the user needs by collecting data from interviews and questionnaires to thy community of Bandung Institute of Technology. Based on these needs, functional and non-functional requirements specifications are defined. The functional requirements are; the system has several types of bins, the system can detect the type of garbage, the system can provide information about the flow of waste management in ITB, the system has an explanation of the waste category, the system can move trash to the correct containers, the system can provide information about the urgency of sorting waste, the system can identify users to give rewards, the system can detect the weight of the garbage collected, the system can display received reward information, the system can display statistics data from the weight of the garbage to analyze trash bin placement, the system can store historical data in the database, the system can send notifications when a trash bin is almost full or already full, the system can display the location of the trash binand the status of the trash bin, and the system can open the lid of the trash bin automatically. For the non-functional needs of the system is divided into 3 main needs, namely supportability, usability, and reliability. To test this waste management system, a trash bin model which is divided into several subsystems is made, the subsystems are the garbage validation subsystem, the reward subsystem, the monitoring subsystem, the trash opening subsystem and the infographic subsystem. Based on these subsystems, inductive sensor is selected to detect metals, then LDR sensor to detect plastics, RFID module to identify users, ESP8266-01 module to communicate wirelessly, ultrasonic sensor to detect the trash’ heights, load cell sensor to detect the waste’s load, and a servo motor to move the bulkhead. In addition, there is an information system in the form of websites and mobile applications consisting of servers and databases for processing and storing data, an interface for displaying notifications when the trash bin is full and an interface to display the location of the trash bin. Results produced from the testing are; the system can validate trashes, the trash bin can open its lid automatically, the system can communicate with the internet and send data to the server, the system can manage data on the server, the system can store data to the data base, the system can show the interface of a notification when the trash bin is fully loaded, and the system can show the interface of the location to the trash bin in websites and the mobile application This final project is done on a group. The main topic of this book is the software of the system. The hardware of the system is implemented by Airinnisa Nur Hidayati.
format	Final Project
author	Andita Resapati, Fathia
spellingShingle	Andita Resapati, Fathia SOFTWARE DESIGN AND IMPLEMENTATION OF WASTE MANAGEMENT SYSTEM ON PUBLIC FACILITIES (CASE STUDIES: INSTITUT TEKNOLOGI BANDUNG)
author_facet	Andita Resapati, Fathia
author_sort	Andita Resapati, Fathia
title	SOFTWARE DESIGN AND IMPLEMENTATION OF WASTE MANAGEMENT SYSTEM ON PUBLIC FACILITIES (CASE STUDIES: INSTITUT TEKNOLOGI BANDUNG)
title_short	SOFTWARE DESIGN AND IMPLEMENTATION OF WASTE MANAGEMENT SYSTEM ON PUBLIC FACILITIES (CASE STUDIES: INSTITUT TEKNOLOGI BANDUNG)
title_full	SOFTWARE DESIGN AND IMPLEMENTATION OF WASTE MANAGEMENT SYSTEM ON PUBLIC FACILITIES (CASE STUDIES: INSTITUT TEKNOLOGI BANDUNG)
title_fullStr	SOFTWARE DESIGN AND IMPLEMENTATION OF WASTE MANAGEMENT SYSTEM ON PUBLIC FACILITIES (CASE STUDIES: INSTITUT TEKNOLOGI BANDUNG)
title_full_unstemmed	SOFTWARE DESIGN AND IMPLEMENTATION OF WASTE MANAGEMENT SYSTEM ON PUBLIC FACILITIES (CASE STUDIES: INSTITUT TEKNOLOGI BANDUNG)
title_sort	software design and implementation of waste management system on public facilities (case studies: institut teknologi bandung)
url	https://digilib.itb.ac.id/gdl/view/39989
_version_	1822925588666515456

SOFTWARE DESIGN AND IMPLEMENTATION OF WASTE MANAGEMENT SYSTEM ON PUBLIC FACILITIES (CASE STUDIES: INSTITUT TEKNOLOGI BANDUNG)

Similar Items