基于RFID的胴体分割信息系统研究与实现
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摘要
为解决传统猪肉胴体分割生产中人工数据采集低效易错的问题,顺应国家"互联网+"战略的要求,将RFID技术引入传统猪肉分割生产,构建了基于RFID技术的胴体分割信息系统。利用RFID技术完成胴体分割过程中的数据自动采集,并采用了基于混沌序列的FSA算法以有效抑制标签碰撞发生概率。结果表明:系统测试和运行中,该信息系统能够满足胴体分割企业的实际需求,为企业生产的自动化和数据管理信息化提供支持。
In order to solve the inefficient and error-prone problem of manual data collection in pork split production, conform to national "Internet+" strategy, and bring RFID technology into the traditional pork split production, a split information system based on RFID technology was constructed. RFID technology was used to complete the automatic data acquisition in the process of split production, and the FSA algorithm based on chaotic system was used to effectively suppress the probability of tags collision. The results showed that the information system could better improve the actual needs of the pork split enterprises and provide support for production automation and data management information.
In order to solve the inefficient and error-prone problem of manual data collection in pork split production, conform to national "Internet+" strategy, and bring RFID technology into the traditional pork split production, a split information system based on RFID technology was constructed. RFID technology was used to complete the automatic data acquisition in the process of split production, and the FSA algorithm based on chaotic system was used to effectively suppress the probability of tags collision. The results showed that the information system could better improve the actual needs of the pork split enterprises and provide support for production automation and data management information.
引文
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[2] 褚衍章,聂凤英,朱增勇.2016年中国猪肉市场回顾及2017年展望[J].农业展望,2017,13(3):8-12.
[3] WANG D,LI Y H,LI B,XUE X J.The applied research of HACCP food safety system in pork traceability[J].Adv Mat Res,2014,3632(1056):103-106.
[4] 何玲,陈长喜.基于物联网技术的生猪屠宰自动化监管系统[J].江苏农业科学,2016,44(4):390-393.
[5] FENG Y,CAI Z Y,GAN Y,et al.Design and implementation of the safety monitoring system with information technology for pork product[J].Adv Mat Res,2014,859:582-585.
[6] HWANG J,YOE H.Study of the ubiquitous hog farm system using wireless sensor networks for environmental Monitoring and Facilities Control[J].Sensors,2010,10(12):10752-77.
[7] 王小敏.基于RFID技术的库存管理系统研究[D].北京:对外经济贸易大学,2006.
[8] 杨广华,李玉兰,高铁成,等.RFID技术标准及在市场中的应用[J].中国高校科技,2006(S3):169-171.
[9] 王殊,阎毓杰,胡富平,等.无线网络传感器网络的理论及应用[M].北京:北京航空航天大学出版社,2007.
[10] 周娣.浅谈二维码的应用[J].齐鲁工业大学学报,2011,25(2):62-64.
[11] XU B C,LI J J, WANG Y.A pork traceability framework based on internet of things[J]. Soc Medi Retrieva Min,2013,387:159-166.
[12] 刘煜,梁琛,张建海.生猪产业“互联网+”发展现状与趋势[J].中国猪业,2017,12(5):42-44.
[13] 熊廷文,谈熙,闫娜,等.基于超高频RFID的实时定位系统的建模与仿真[J].系统仿真学报,2011,23(1):212-216.
[14] KIM J G.A divide-and-conquer technique for throughput enhancement of RFID anti-collision protocol[J].Communica Lett IEEE,2008,12(6):474-476.
[15] CUI Y,ZHAO Y.Performance evaluation of a multi-branch tree algorithm in RFID[J].IEEE Transactions on Communica,2010,58(5):1356-1364.
[16] 张小红,肖娟凤.无源RFID系统标签防碰撞优化算法研究[J].系统仿真学报,2014,26(6):1320-1326,1361.