基于无线射频的智能型服装仓储配送评估系统设计
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摘要
为了提高智能型服装仓储配送能力,进行智能型服装仓储配送评估系统设计,提出一种基于无线射频的智能型服装仓储配送评估系统。系统设计分为服装仓储配送调度算法设计和系统硬件设计两部分,采用无线射频识别技术进行智能型服装仓储配送信息采集,对采集的智能型服装仓储配送信息进行分区域调度和智能信息处理,提取服装仓储配送无线射频信息的匹配特征量,采用相关性统计分析方法实现服装仓储配送信息评估和智能调度。基于RFID技术进行智能型服装仓储配送评估系统的硬件设计,在操作系统层和应用软件层分别配置MCU控制单元实现服装仓储配送评估系统的状态监测和调度,在集成DSP处理器中实现系统硬件开发。测试结果表明,采用该系统进行服装仓储配送评估的智能性较好,控制能力较强,具有很好的评估识别能力。
In order to improve the capacity of intelligent clothing warehousing and distribution,an intelligent clothing warehousing and distribution evaluation system based on wireless radio frequency(RF) was proposed.The system design is divided into two parts:the algorithm design of clothing warehousing and distribution scheduling and the hardware design of the system.The intelligent clothing warehousing and distribution information collection is carried out by using radio frequency identification technology.The intelligent clothing warehousing and distribution information is divided into regional scheduling and intelligent information processing,and the matching characteristic quantity of the wireless radio frequency information of clothing warehousing distribution is extracted.The method of correlation statistical analysis is used to realize the information evaluation and intelligent scheduling of clothing warehousing and distribution.Based on the RFID technology,the hardware design of the intelligent clothing warehousing and distribution evaluation system is carried out.The MCU control unit is configured in the operating system layer and the application software layer to realize the status monitoring and scheduling of the clothing warehousing and distribution evaluation system.The hardware development of the system is realized in the integrated DSP processor.The test results show that the system has good intelligence,strong control ability and good evaluation and identification ability.
In order to improve the capacity of intelligent clothing warehousing and distribution,an intelligent clothing warehousing and distribution evaluation system based on wireless radio frequency(RF) was proposed.The system design is divided into two parts:the algorithm design of clothing warehousing and distribution scheduling and the hardware design of the system.The intelligent clothing warehousing and distribution information collection is carried out by using radio frequency identification technology.The intelligent clothing warehousing and distribution information is divided into regional scheduling and intelligent information processing,and the matching characteristic quantity of the wireless radio frequency information of clothing warehousing distribution is extracted.The method of correlation statistical analysis is used to realize the information evaluation and intelligent scheduling of clothing warehousing and distribution.Based on the RFID technology,the hardware design of the intelligent clothing warehousing and distribution evaluation system is carried out.The MCU control unit is configured in the operating system layer and the application software layer to realize the status monitoring and scheduling of the clothing warehousing and distribution evaluation system.The hardware development of the system is realized in the integrated DSP processor.The test results show that the system has good intelligence,strong control ability and good evaluation and identification ability.
引文
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[2] 王莉萍.面向中小电商企业城市共同配送模式探讨[J].物流工程与管理,2018,40(11):101-102.
[3] 叶梦雄,程国建.基于ZigBee网络的混合路由能耗问题优化[J].自动化与仪器仪表,2018,(8):127-130.
[4] 赵亚娟.基于等比数列递增的线性WSNs网络部署方案[J].中国电子科学研究院学报,2018,13(04):389-393.
[5] 刘畅,蔡旭,陈强.具有储能功能的链式STATCOM研究[J].电源学报,2018,16(4):21-27.
[6] 彭巧静,刘立.电子标签拣货系统在医药仓储配送中的应用——以H医药配送中心为例[J].物流技术,2014,(08):37-39.
[7] 郭佳,雷勇,周凯,等.用于HVDC电缆主绝缘料选型的空间电荷检测系统[J].仪器仪表学报,2018,39(04):213-219.
[8] 赵成.省级计量中心智能化仓储系统的规划设计[J].电测与仪表,2014,51(12):17-22.
[9] 李婷.基于物联网技术的物流仓储配送系统设计[J].物流工程与管理,2018,40(06):100-101.
[10] DAI H,HUANG Y,LI C,et al.Energy-efficient resource allocation for device-to-device communication with WPT[J].IET Communications,2017,11(3):326-334.
[11] LI D,SHEN C,QIU Z.Two-way relay beamforming for sum-rate maximization and energy harvesting[C]//IEEE International Conference on Communications(ICC),2013:3115-3120.
[12] LIU Y.Joint resource allocation in SWIPT-based multi-antenna decode-and-forward relay networks[J].IEEE Transactions on Vehicular Technology,2017,66(10):9192-9200.
[13] ZHANG R,HO C K.MIMO broadcasting for simultaneous wireless information and power transfer[J].IEEE Transactions on Wireless Communications,2013,12(5):1989-2001.
[14] WANG Y,SUN R,WANG X.Transceiver design to maximize the weighted sum secrecy rate in full-duplex SWIPT systems[J].IEEE Signal Processing Letters,2016,23(6):883-887.
[15] WANG R,TAO M,LIU Y.Optimal linear transceiver designs for cognitive two-way relay networks[J].IEEE Transactions on Signal Processing,2013,61(4):992-1005.