A TECHNOLOGY - DRIVEN APPROACH TO SMART WASTE HANDLING

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KASIREDDY HITESH; M. RAGHAVA NAIDU; G. BHARGAV; B. SIVA; K. UDAY

A TECHNOLOGY - DRIVEN APPROACH TO SMART WASTE HANDLING

Authors: KASIREDDY HITESH, M. RAGHAVA NAIDU, G. BHARGAV, B. SIVA, K. UDAY

Unique Paper ID: 177713
Volume: 11
Issue: 12
PageNo: 1259-1263

Keywords: No Keywords Found

Abstract:
Users interact with an intuitive webpage to create accounts, track materials, and schedule pickups, with the technical complexities of managing recyclable materials, tracking quantities, and logistics hidden from view, allowing them to focus on organizing and scheduling recycling. Recycling companies, on the other hand, have a dedicated interface for managing pickup requests, coordinating logistics, and updating recycling statuses, abstracting operational details like database queries, API calls, or user coordination, so they can focus on recycling management. The system employs a separation of concerns by dividing responsibilities into modules for user management, material tracking, and company operations, with the backend handling business logic, such as processing requests and scheduling pickups, and managing communication between users and companies, while securely storing data in a My SQL database with tables for users, materials, pickups, and company records, abstracted behind APIs. The frontend, built with HTML, CSS, and JavaScript, delivers a responsive and user-friendly experience that hides backend complexities while the backend, implemented using Node.js and Express, processes data, validates inputs, and handles API requests seamlessly. The system’s modular design ensures scalability and maintainability by independently developing components like the user management module for the registration, login, and profile updates; the material tracking module for managing recyclable materials; and the company operations module for scheduling pickups and managing requests. This design ensures that changes in one module do not affect others. The outcome-focused approach empowers users to concentrate on categorizing and recycling waste responsibly, while recycling companies can streamline operations with out dealing with technical intricacies like data synchronization or user communication.

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Copyright & License

Copyright © 2025 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{177713,
        author = {KASIREDDY HITESH and M. RAGHAVA NAIDU and G. BHARGAV and B. SIVA and K. UDAY},
        title = {A TECHNOLOGY - DRIVEN APPROACH TO SMART WASTE HANDLING},
        journal = {International Journal of Innovative Research in Technology},
        year = {2025},
        volume = {11},
        number = {12},
        pages = {1259-1263},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=177713},
        abstract = {Users interact with an intuitive webpage to create accounts, track materials, and schedule pickups, with the technical complexities of managing recyclable materials, tracking quantities, and logistics hidden from view, allowing them to focus on organizing and scheduling recycling. Recycling companies, on the other hand, have a dedicated interface for managing pickup requests, coordinating logistics, and updating recycling statuses, abstracting operational details like database queries, API calls, or user coordination, so they can focus on recycling management.
The system employs a separation of concerns by dividing responsibilities into modules for user management, material tracking, and company operations, with the backend handling business logic, such as processing requests and scheduling pickups, and managing communication between users and companies, while securely storing data in a My SQL database with tables for users, materials, pickups, and company records, abstracted behind APIs.
The frontend, built with HTML, CSS, and JavaScript, delivers a responsive and user-friendly experience that hides backend complexities while the backend, implemented using Node.js and
Express, processes data, validates inputs, and handles API requests seamlessly.
The system’s modular design ensures scalability and maintainability by independently developing components like the user management module for the registration, login, and profile updates; the
material tracking module for managing recyclable materials; and the company operations module for scheduling pickups and managing requests. This design ensures that changes in one module do not affect others.
The outcome-focused approach empowers users to concentrate on categorizing and recycling waste responsibly, while recycling companies can streamline operations with out dealing with technical intricacies like data synchronization or user communication.},
        keywords = {},
        month = {May},
        }

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Cite This Article

ISSN: 2349-6002
Volume: 11
Issue: 12
PageNo: 1259-1263

A TECHNOLOGY - DRIVEN APPROACH TO SMART WASTE HANDLING

Available:https://ijirt.org/article?manuscript=177713

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