DCSNN optimized with hybrid Border Collie optimization and Archimedes optimization algorithms for solid waste prediction in Chennai

DCSNN optimized with hybrid Border Collie optimization and Archimedes optimization algorithms for solid waste prediction in Chennai

The rapid growth of smart cities and industry causes an increase in waste production. The amount of municipal solid waste (MSW) increases by several factors, including population growth, economic status, and consumption trends. The inadequacy of basic trash data is a major issue for managing MSW. Nu...

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Veröffentlicht in:Environment protection engineering 2024, Vol.50 (1), p.5
Hauptverfasser: Vidya, Soundarapandian, Janani, Elangeswaran Srie Vidhya, Sreedevi, B
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Data processing
Firing pattern
Garbage
Horticulture
Landfills
Municipal landfills
Municipal solid waste
Municipal waste management
Neural networks
Ocean dumping
Optimization
Population growth
Predictions
Solid waste management
Solid wastes
Waste disposal sites
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container_title Environment protection engineering
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creator Vidya, Soundarapandian
Janani, Elangeswaran Srie Vidhya
Sreedevi, B
description The rapid growth of smart cities and industry causes an increase in waste production. The amount of municipal solid waste (MSW) increases by several factors, including population growth, economic status, and consumption trends. The inadequacy of basic trash data is a major issue for managing MSW. Numer-ous existing models based on solid waste prediction have been presented so far, but none of them predict solid waste accurately and it consumes more time. To address these concerns, a deep convolutional spiking neural network for solid waste prediction (DCSNN-SWP) is proposed in this paper. Here, the real-time solid waste prediction data are gathered from the quantity of municipal corporation of Chennai (MCC), landfill, garden garbage, and coconut shell reports in Tamil Nadu (Chennai), such as Zone 9 (Nungambak-kam), Zone 10 (Kodambakkam) and Zone 13 (Adyar). Then the collected solid waste data are pre-processed using the kernel correlation model. Then the pre-processing data is given to DCSNN-hybrid BCMO and Archimedes optimization algorithm which accurately predicts the solid waste as wet waste, dry waste, horti-culture waste, and dumping yard for 2022–2032 years. The proposed DCSNN-SWP method has been implemented in Python.
doi_str_mv 10.37190/epe240101
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source EZB-FREE-00999 freely available EZB journals
subjects Algorithms
Data processing
Firing pattern
Garbage
Horticulture
Landfills
Municipal landfills
Municipal solid waste
Municipal waste management
Neural networks
Ocean dumping
Optimization
Population growth
Predictions
Solid waste management
Solid wastes
Waste disposal sites
title DCSNN optimized with hybrid Border Collie optimization and Archimedes optimization algorithms for solid waste prediction in Chennai
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