Abstract :

The Rapid Growth Of Digital Technologies Has Significantly Transformed The Traditional Business Landscape, Leading To The Emergence Of E-commerce Systems That Enable Seamless Online Transactions. This Research Presents The Design And Development Of An E-Commerce Website That Facilitates Online Buying And Selling Of Products Through An Efficient, Scalable, And User-friendly Platform. The Primary Objective Of This System Is To Provide Customers With The Ability To Browse Products, Add Items To A Cart, And Complete Purchases Anytime And Anywhere, Thereby Eliminating The Limitations Of Physical Shopping. The Proposed System Is Developed Using Modern Web Technologies Including HTML, CSS, JavaScript For Frontend Development, Python (Flask Framework) For Backend Processing, And SQLite For Database Management. The System Integrates Multiple Modules Such As User Authentication, Product Management, Shopping Cart Functionality, Order Processing, And An Administrative Dashboard. The Admin Module Allows Efficient Control Over Product Listings, Pricing, And Order Tracking, While The User Module Ensures Secure Login And Smooth Navigation. Compared To Traditional Systems, The Proposed Platform Offers Improved Accessibility, Reduced Operational Cost, Enhanced Customer Satisfaction, And Efficient Data Management. This Research Also Evaluates System Performance Based On Response Time, Usability, And Scalability. Experimental Results Demonstrate That The System Performs Efficiently Under Multiple User Conditions And Ensures Reliable Data Storage And Retrieval. Furthermore, The Integration Of Secure Authentication Mechanisms Enhances User Data Protection. The Study Concludes That The Developed Ecommerce System Provides A Practical And Effective Solution For Modern Online Shopping Needs. Future Enhancements May Include Integration Of AI-based Recommendation Systems, Secure Payment Gateways, And Cloudbased Scalability. This Work Contributes To The Advancement Of Web-based Commerce Platforms By Offering A Structured, Modular, And Efficient Implementation Suitable For Real-world Applications.

Published:

07-4-2026

Issue:

Vol. 26 No. 4 (2026)

Page Nos:

1391-1395

Section:

Articles

License:

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

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