Optimizing Efficiency Using a Low-Cost RFID-Based Inventory Management System
This paper presents the design and evaluation of an RFID-based laboratory equipment tracking system, aimed at enhancing research laboratory inventory management, security, and operations. The process of designing and deploying the RFID infrastructure involves careful selection of RFID components, a microcontroller, and inventory management software. This includes database construction, cloud connection, and graphical user interface development, with a focus on prioritizing real-time data tracking, ensuring data accuracy, and creating user-friendly interfaces. The RFID-based Lab Inventory Management System simplifies laboratory resource management by employing RFID Reader units and tags at specific locations for accurate monitoring. The strategic placement of RFID readers in crucial areas enhances real-time tracking capabilities. Integration with Hostinger connectivity offers an intuitive GUI and centralized database, streamlining operations. The use of resource-efficient RFID tags and reader kits, along with a wide range of hardware solutions, helps reduce costs. Overall, the proposed system's effectiveness lies in its ability to improve laboratory accountability and resource management through real-time tracking, access to historical data, and user-friendly control interfaces.
Item Type | Book Section |
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Additional information | © 2024 IEEE. This is the accepted manuscript version of an article which has been published in final form at https://doi.org/10.1109/IWCMC61514.2024.10592581 |
Keywords | data accessibility, rfid, real-time visibility, laboratory inventory, radio frequency, information systems and management, artificial intelligence, safety, risk, reliability and quality, signal processing, computer networks and communications |
Date Deposited | 15 May 2025 16:50 |
Last Modified | 06 Jun 2025 23:12 |