为实现对水产品流通过程的全程追溯,该文以供应链为视角,以罗非鱼为具体研究对象,立足消费者、企业和政府监管部门等三方,本着可跟踪、可追溯、可召回等基本目标,设计并开发了基于射频识别(radio frequency identification,RFID)和产品...为实现对水产品流通过程的全程追溯,该文以供应链为视角,以罗非鱼为具体研究对象,立足消费者、企业和政府监管部门等三方,本着可跟踪、可追溯、可召回等基本目标,设计并开发了基于射频识别(radio frequency identification,RFID)和产品电子代码(electronic product code,EPC)物联网的,包含养殖管理系统、加工管理系统、配送管理系统、销售管理系统、查询监管系统5个子系统的水产品供应链可追溯平台,并着重对平台的对象名称服务(object name service,ONS)和EPC信息服务(electronic product code information service,EPCIS)进行了详细的设计与实现,利用该平台可以实现水产品从养殖、加工、配送到销售的全程跟踪与追溯。该研究可为水产品供应链可追溯系统模型与软件的开发提供参考。展开更多
A robust digital receiver based on a matched filter (MF) is proposed for the radio frequency identification (RFID) reader system to enhance the reliability of signal processing in the electronic product code (EPC...A robust digital receiver based on a matched filter (MF) is proposed for the radio frequency identification (RFID) reader system to enhance the reliability of signal processing in the electronic product code (EPC) sensor network (ESN). The performance of the proposed receiver is investigated by examining the anti-collision algorithm in the EPC global Class1 Generation2 protocol. The validity and usefulness are demonstrated by both computer simulations and experiments. Based on the verification results, comparing with the conventional zero crossing detector (ZCD) based receiver, the proposed receiver is very robust against strong amplitude distortions and considerable frequency deviations happening on the backscattered signal from a passive tag.展开更多
文摘为实现对水产品流通过程的全程追溯,该文以供应链为视角,以罗非鱼为具体研究对象,立足消费者、企业和政府监管部门等三方,本着可跟踪、可追溯、可召回等基本目标,设计并开发了基于射频识别(radio frequency identification,RFID)和产品电子代码(electronic product code,EPC)物联网的,包含养殖管理系统、加工管理系统、配送管理系统、销售管理系统、查询监管系统5个子系统的水产品供应链可追溯平台,并着重对平台的对象名称服务(object name service,ONS)和EPC信息服务(electronic product code information service,EPCIS)进行了详细的设计与实现,利用该平台可以实现水产品从养殖、加工、配送到销售的全程跟踪与追溯。该研究可为水产品供应链可追溯系统模型与软件的开发提供参考。
基金supported by the Korea Evaluation Institute of Industrial Technology(KEIT),under the R&D Support Program of Ministry of Knowledge Economy,Korea
文摘A robust digital receiver based on a matched filter (MF) is proposed for the radio frequency identification (RFID) reader system to enhance the reliability of signal processing in the electronic product code (EPC) sensor network (ESN). The performance of the proposed receiver is investigated by examining the anti-collision algorithm in the EPC global Class1 Generation2 protocol. The validity and usefulness are demonstrated by both computer simulations and experiments. Based on the verification results, comparing with the conventional zero crossing detector (ZCD) based receiver, the proposed receiver is very robust against strong amplitude distortions and considerable frequency deviations happening on the backscattered signal from a passive tag.