Secure and Scalable Framework for Campus Digital Commerce and Resource Management
DOI:
https://doi.org/10.15662/IJEETR.2026.0802061Keywords:
Digital Commerce, , Campus Management System, Multi-Vendor Platform, Full Stack Development, Online Transactions, Resource Management, Next.js, Secure TransactionsAbstract
The increasing demand for digital transformation in educational institutions has highlighted the need for efficient and centralized systems to manage campus services and resources. In most institutions, departments such as libraries, canteens, academic units, and administrative offices operate independently using manual or semi-digital systems, resulting in inefficiencies, lack of transparency, and increased time consumption for students and staff. The absence of a unified platform for managing transactions, resources, and services leads to poor coordination, fragmented data handling, and difficulty in maintaining accurate records. Existing systems often rely on cash-based transactions and isolated applications, which further increase the chances of errors and limit scalability. To address these challenges, this paper proposes a secure and scalable framework for campus digital commerce and resource management using modern full-stack technologies. The system is developed using Next.js, enabling seamless integration of frontend and backend functionalities with high performance and server-side rendering capabilities. It incorporates secure authentication, role-based access control, efficient inventory and order management, and digital payment integration to ensure safe and transparent cashless transactions. The platform allows multiple institutional departments to function as independent service providers within a unified multi-vendor environment, facilitating efficient resource sharing and service delivery. The system processes user requests, manages transactions, tracks orders, and provides real-time updates, improving operational efficiency and user experience. Experimental results demonstrate enhanced system performance, reduced response time, and increased efficiency compared to traditional approaches. Overall, the proposed framework provides a reliable, scalable, and user-friendly solution for digitizing campus services and supports the development of smart campus ecosystems aligned with modern digital transformation trends
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