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A classification and prediction based approach for real-time ETP outlet monitoring through E-IoT and remote sensing using machine learning and deep learning

Citation

Abstract

Water is a vital element in our environment but day by day water pollution is increasing in an alarming rate in our country. In Bangladesh’s perspective, industries such as textile and ready-made garments (RMG) contribute to a massive amount of waste or effluent. Effluent treatment plant (ETP) are used to remove as much suspended solids from wastewater as possible before it gets back to the environment. However, according to a report published by the Environment and forests ministry, seven state-run factories don’t have any effluent treatment plant (ETP) to treat their waste before disposal. And also even the factories which has ETP do not always keep the ETP up and running because it consumes a lot of electricity. The purpose of our research is to establish a setup which will monitor the real-time quality of water outside the industries and inform us whether the ETP is turned on or not with the help of E-IoT and various classification algorithm. It will also predict the seasonal impact where the ETP might be turned off again and what will be the quality of water with the help of various machine learning and deep learning algorithms such as CNN, KNN and LSTM. We have also tracking the sensor value for monitoring and the ETP outlet with RGB color analysis. We have successfully achieved an accuracy of 99% for KNN, 97.5% for CNN and 94.9% forecasting model accuracy for LSTM.

LC Subject Headings

Description

Cataloged from PDF version of thesis.
Includes bibliographical references (pages 55-56).
This thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Science in Computer Science and Engineering, 2021.

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Thesis