[1]王晓明,张龙昌,栾斯乔,等. 物联网和融合环境区域食品安全云服务框架[J].计算机技术与发展,2016,26(04):123-126.
 WANG Xiao-ming,ZHANG Long-chang,LUAN Si-qiao,et al. Cloud Service Framework of Food Security under Internet of Things and Fusion Region[J].,2016,26(04):123-126.
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 物联网和融合环境区域食品安全云服务框架()
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《计算机技术与发展》[ISSN:1006-6977/CN:61-1281/TN]

卷:
26
期数:
2016年04期
页码:
123-126
栏目:
应用开发研究
出版日期:
2016-04-10

文章信息/Info

Title:
 Cloud Service Framework of Food Security under Internet of Things and Fusion Region
文章编号:
1673-629X(2016)04-0123-04
作者:
 王晓明张龙昌栾斯乔林朗穆丽珠
 渤海大学 信息科学与技术学院
Author(s):
 WANG Xiao-mingZHANG Long-changLUAN Si-qiaoLIN LangMU Li-zhu
关键词:
 食品安全物联网融合云计算区域
Keywords:
 food securityInternet of Thingsintegrationcloud computingregion
分类号:
TP39
文献标志码:
A
摘要:
 随着时代的发展,人们对食品质量的要求逐步提高。消费者已经不希望局限于只通过互联网监管食品安全,还希望可以通过物联网获得食品安全监管信息。其希望即使不能获取准确的数据也需要获得能够表达食品安全实际情况的信息,同时期望通过融合环境的各种异构终端如手机、个人计算机、电视机等接收;食品企业希望获得自身企业食品安全的第一手数据,从而获取对应的实际的食品安全实时信息,降低成本并保密;管理部门则希望能够对其管辖区域内的食品企业分段管理。基于此,文中首先介绍了目前国内外相关的研究成果,然后在此基础上提出物联网和融合环境食品安全云服务框架及关键服务,之后研究物联网和融合环境区域食品安全云服务带来的影响,最后做了总结。
Abstract:
 With the development of the times,people gradually increase the requirement of food quality. Consumers already don’ t want to supervise the food security only through the Internet,also hope that the Internet of Things is used for food safety regulatory information. Even it could not get accurate data,also need to express the actual situation of food safety information,at the same time by heterogeneous terminals of integration environment such as mobile phone,personal computers,televisions,etc to receive. Food enterprises want to get the first-hand data about their own food safety,so as to obtain the corresponding actual food safety real-time information,and reduce the cost and be confidential. Management department is its jurisdiction to food companies block management. Based on this,the relevant research results at home and abroad is introduced,and then the cloud services framework of food security and key services under Internet of Things and integration environment is proposed key services,and the influence is studied for food security cloud services of Internet of Things and integration environment. Finally the summary has been made.

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 E Xu[][],FANG Yi-dong[],HU Shao-hua[],et al.Research on Knowledge Discovery of Aquatic Product Quality Information[J].,2014,24(04):153.
[2]鄂旭,杨健[],李建革,等.精简水产品安全评价指标算法研究[J].计算机技术与发展,2014,24(06):223.
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更新日期/Last Update: 2016-06-16