Engineering laboratory inventory management system using cloud and RFID technology: Conceptual approach in KDU University College

6TH INTERNATIONAL CONFERENCE ON ENVIRONMENT (ICENV2018): Empowering Environment and Sustainable Engineering Nexus Through Green Technology Pub Date : 2019-07-24 DOI:10.1063/1.5117103

H. Chua, S. Paramasivam, T. T. Goh, C. Gee

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Abstract

As quality standards are an integral part of the higher educational system; this project’s focus is on computerizing inventory management quality processes by using cloud architecture and radio frequency identification (RFID) technology dominantly to ensure accountability on University’s valuable assets as well as ensuring engineering laboratory consistency of performance on teaching and learning process. Radio Frequency Identification, which is a “contactless technology” has gain popularity due to its ability to scan multiple devices at a rapid pace, user friendly to end-user and has add-on security values. Due to these characteristics, RFID is considered to be the potential successor of barcode and may complement or replace barcode. This study presents a two prong approach: first optimizing advancement of internet of technology in creating an efficiency database that renders a secure and efficient inventory asset management system; secondly innovatively notify the laboratory staff of calibration and maintenance work schedule of each test and measurement equipment; In this project, system software and prototype are used which crucially involve RFID tag and reader. The RFID tag contains each individual devices’ information which will be transmitted via a long distance radio frequency to a cloud storage. This prototype will enable the assigned technical staff to have ready access to all technical specification information of the equipment more specifically its maintenance schedule and next calibration date. A real time notification will be propagated via a SMS mechanism to the technical support staff in the event it detects movement of equipment out of the engineering laboratory. Hence, significantly enhancing the effectiveness of the system in adhering to compliance of quality process requirements.As quality standards are an integral part of the higher educational system; this project’s focus is on computerizing inventory management quality processes by using cloud architecture and radio frequency identification (RFID) technology dominantly to ensure accountability on University’s valuable assets as well as ensuring engineering laboratory consistency of performance on teaching and learning process. Radio Frequency Identification, which is a “contactless technology” has gain popularity due to its ability to scan multiple devices at a rapid pace, user friendly to end-user and has add-on security values. Due to these characteristics, RFID is considered to be the potential successor of barcode and may complement or replace barcode. This study presents a two prong approach: first optimizing advancement of internet of technology in creating an efficiency database that renders a secure and efficient inventory asset management system; secondly innovatively notify the laboratory staff of calibration and mai...

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基于云和RFID技术的工程实验室库存管理系统:伯乐大学学院的概念方法

由于质量标准是高等教育体系的一个组成部分;该项目的重点是通过主要使用云架构和射频识别(RFID)技术将库存管理质量过程计算机化，以确保对大学宝贵资产的问责制，并确保工程实验室在教学过程中的绩效一致性。射频识别是一种“非接触式技术”，由于能够快速扫描多个设备，对最终用户友好，并且具有附加的安全价值，因此越来越受欢迎。由于这些特点，RFID被认为是条形码的潜在继承者，可以补充或取代条形码。本研究提出了一个双管齐下的方法:首先优化互联网技术的进步，创建一个效率数据库，提供一个安全高效的库存资产管理系统;第二，创新地向实验室人员通报各测试测量设备的校准和维护工作时间表;在这个项目中，使用了系统软件和原型，其中关键涉及RFID标签和读取器。RFID标签包含每个单独设备的信息，这些信息将通过远距离无线电频率传输到云存储。该样机将使指定的技术人员能够随时访问设备的所有技术规格信息，更具体地说，它的维护计划和下一次校准日期。如果检测到设备移出工程实验室，将通过SMS机制向技术支持人员传播实时通知。因此，在遵循质量过程要求方面，显著提高了体系的有效性。由于质量标准是高等教育体系的一个组成部分;该项目的重点是通过主要使用云架构和射频识别(RFID)技术将库存管理质量过程计算机化，以确保对大学宝贵资产的问责制，并确保工程实验室在教学过程中的绩效一致性。射频识别是一种“非接触式技术”，由于能够快速扫描多个设备，对最终用户友好，并且具有附加的安全价值，因此越来越受欢迎。由于这些特点，RFID被认为是条形码的潜在继承者，可以补充或取代条形码。本研究提出了一个双管齐下的方法:首先优化互联网技术的进步，创建一个效率数据库，提供一个安全高效的库存资产管理系统;第二，创新地通知实验室人员进行校准和检测。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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6TH INTERNATIONAL CONFERENCE ON ENVIRONMENT (ICENV2018): Empowering Environment and Sustainable Engineering Nexus Through Green Technology

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