太赫兹科学与电子信息学报
太赫玆科學與電子信息學報
태혁자과학여전자신식학보
Information and Electronic Engineering
2013年
1期
113-118
,共6页
RFID标签%样品管理%物联网%追溯
RFID標籤%樣品管理%物聯網%追溯
RFID표첨%양품관리%물련망%추소
RFID label%sample management%Internet of Things(IoT)%traceability
基于射频识别原理,集成高度定制开发的采集系统和全新设计的 RFID标签,构建样品管理系统.重点阐述了该系统的基本工作原理和设计思路,解决了瓶装和盒装液态识别率较低的难题,大幅提高普通材质样品识别率,并给出程序设计方案流程图.从高效识别、科学管理与简单应用的角度设计适用于样品管理的识别系统.
基于射頻識彆原理,集成高度定製開髮的採集繫統和全新設計的 RFID標籤,構建樣品管理繫統.重點闡述瞭該繫統的基本工作原理和設計思路,解決瞭瓶裝和盒裝液態識彆率較低的難題,大幅提高普通材質樣品識彆率,併給齣程序設計方案流程圖.從高效識彆、科學管理與簡單應用的角度設計適用于樣品管理的識彆繫統.
기우사빈식별원리,집성고도정제개발적채집계통화전신설계적 RFID표첨,구건양품관리계통.중점천술료해계통적기본공작원리화설계사로,해결료병장화합장액태식별솔교저적난제,대폭제고보통재질양품식별솔,병급출정서설계방안류정도.종고효식별、과학관리여간단응용적각도설계괄용우양품관리적식별계통.
Based on Radio Frequency Identification(RFID) principle, Sample Information Management System(SIMS) is built by integrating a high degree custom acquisition system and newly designed RFID tags. The basic working principle and design ideas are introduced in detail. The proposed system can solve the problem of low recognition rate for bottled and boxed liquid, and substantially increase the recognition rate of ordinary material samples. The flowchart of the program design is put forward. The identification system is designed for the sample management from the perspective of efficient identification, scientific management and simple application.
