[Purpose/significance] The consensus algorithm and decentralization thought of blockchain technology can effectively guarantee the information coordination of social network. Smart multi-information collaborative network for the elderly is one of the specific application scenarios using blockchain technology to ensure social network information collaboration. The application of blockchain technology in this scenario can effectively improve the information collaboration efficiency among multiple participants in the smart senior care, thus bringing convenience to all participants in the smart senior care. [Method/process] In this paper, on the basis of the principle of blockchain technology and combining the features of multivariate information wisdom endowment antipodal built 5 different structure of blockchain structure, namely the pension administrative information sovereignty chain architecture, medical and health information alliance chain architecture, community service information alliance chain architecture private chain architecture, the elderly personal health information about the experience of the medical and health information public chain structure, and on the basis of blockchain across chain technology, the 5 kinds of architecture to assemble the wisdom endowment multivariate information heterogeneous blockchain network. On this basis, this paper analyzed the advantages and disadvantages of the heterogeneous blockchain network in the aspect of information coordination to the development of China’s smart senior care. [Result/conclusion] Based on the heterogeneous block chain network technology, this paper proposes a smart endowment multi-information cooperation model, which enriches the application scenario of block chain technology.
Hu Mo
,
Ma Jie
. Research on Multi-information Collaborative Model of Smart Senior Care from the Perspective Heterogeneous Blockchain Network[J]. Library and Information Service, 2020
, 64(7)
: 110
-118
.
DOI: 10.13266/j.issn.0252-3116.2020.07.013
[1] 国家统计局:我国60岁以上老年人口24949万人,占总人口的17.9%,老龄化加深![EB/OL].[2019-07-04]. http://www.sohu.com/a/290855493_120067607.
[2] 王坚,张玥,朱庆华.智慧养老领域的研究现状与热点分析[J].信息资源管理学报,2019,9(1):10-20,29.
[3] ACHKAR C M, LENOBLE-HOSKOVEC C, PARASCHIV-LONESCU A, et al. Instrumented shoes for activity classification in the elderly[J]. Journal of gait & posture, 2015, 44:12-17.
[4] NI H, WU S, BESSAM A,et al.Non-intrusive sleep pattern recognition with ubiquitous sensing in elderly assistive environment[J]. Frontiers of computer science, 2015,9(6):966-979.
[5] LSMAIL W N, HASSAN M M. Mining productive-associated periodic-frequent patterns in body sensor data for smart home care[J]. sensors, 2017, 17(5):952-971.
[6] 毛羽,李冬玲. 基于UTAUT模型的智慧养老用户使用行为影响因素研究——以武汉市"一键通"为例[J]. 电子政务,2015(11):99-106.
[7] 左美云.智慧养老的含义与模式[J].中国社会工作,2018(32):26-27.
[8] 朱庆华.专题前言·智慧养老研究[J].信息资源管理学报,2019(1):9.
[9] 何振宇,白枚,朱庆华.2013-2017年我国养老政策量化研究[J].信息资源管理学报,2019(1):21-29.
[10] 马捷,李璐,耿寒冰,等.智慧居家养老服务三级应急响应信息协同体系构建[J].图书情报工作,2019,63(15):33-43.
[11] 马捷,张云开,蒲泓宇.信息协同:内涵、概念与研究进展[J].情报理论与实践,2018,41(11):12-19.
[12] 王俭,修国义,过仕明.虚拟学术社区科研人员信息行为协同机制研究——基于research gate平台的案例研究[J].情报科学,2019,37(1):94-98,111.
[13] 马捷,胡漠,连明.基于多元主体协同的智慧城市信息生态链设计[J].情报科学,2016,34(12):70-74,81.
[14] 胡漠,马捷. 信息协同视角下无边界化智慧政务推进机制研究[J]. 情报资料工作, 2019, 40(1):44-51.
[15] WANG S S. The impact of information sharing and coordination in make-to-order sup plychain[C]//2010 second international conference on communication systems, networks and applications. Hong Kong:IEEE, 2010:325-328.
[16] WANG S L, LIU Y. Research on collaboration model of enterprise digital information resources based on structure and component[C]//2011 international conference on business management and electronic information. Guangzhou:IEEE, 2011:285-287.
[17] WANG X L. Research on the construction of supply chain collaboration system based on information sharing[C]//2012 international conference on information management, innovation management and industrial engineering. Sanya:IEEE,2012:469-472.
[18] 信息中心发布《2018中国区块链产业白皮书》[EB/OL].[2019-07-04]. http://www.miit.gov.cn/n1146290/n1146402/n1146445/c6180238/content.html.
[19] 高胜,朱建明.基于区块链技术的新型分层数字图书馆体系架构[J].图书情报工作,2018,62(24):57-64.
[20] 黄敏聪.区块链技术及其对图书馆发展的变革性影响[J].图书情报工作,2018,62(13):11-18.
[21] 房永壮,王辉,王博.基于大数据共享环境下图书馆"区块链"技术应用研究[J].现代情报,2018,38(5):120-124.
[22] KSHETRI N. Blockchain's roles in strengthening cybersecurity and protecting privacy[J]. Telecommunications policy, 2017,41(10):1027-1038.
[23] KUO T T, KIM H E, Ohno-Machado L. Blockchain distributed ledger technologies for biomedical and health care applications[J]. Journal of the American Medical Informatics Association, 2017,24(6):1211-1220.
[24] 李彩宁. 构建智慧养老服务体系及平台[N]. 中国人口报,2019-02-22(3).
[25] 温雅. 国务院办公厅转发《关于推进医疗卫生与养老服务相结合的指导意见》[EB/OL].[2019-07-08]. http://www.gov.cn/xinwen/2015-11/20/content_2969404.htm.
[26] 冯丹, 冯泽永, 王霞, 等. 对医养结合养老机构的思考[J]. 医学与哲学, 2015,36(4A):25-29.
[27] ALEXANDER S. Copyright in the blockchain era:promises and challenges[J]. Computer law & security review, 2018, 66(2):59-82.
[28] 邹均, 张海宁, 唐屹, 等. 区块链技术指南[M]. 北京:机械工业出版社,2018.
[29] 曾子明,万品玉.基于主权区块链网络的公共安全大数据资源管理体系研究[J].情报理论与实践, 2019(8):110-115,77.
[30] 周平,杜宇,李斌. 中国区块链技术和应用发展白皮书[EB/OL].[2019-07-26].http://www.fullrich.con/Uploads/article/file/2016/1020/580866e374069.pdf.
[31] 连玉明.向新时代致敬——基于主权区块链的治理科技在协商民主中的运用[J]. 中国政协,2018(6):81-82.
[32] 李彬,曹望璋,张洁,等.基于异构区块链的多能系统交易体系及关键技术[J].电力系统自动化,2018,42(4):183-193.
[33] DENG L P, CHEN H, ZENG J, et al. Research on cross-chain technology based on sidechain and hash-locking[C]//Edge computing-EDGE2018. Seattle:SCF, 2018:144-151.
[34] 佘维,顾志豪,杨晓宇,等.异构能源区块链的多能互补安全交易模型[OL].电网技术, 2019(9):3193-3201.
[35] MARINO B, JUELS A. Setting standards for altering and undoing smart contracts[C]//International symposium on rules and rule markup languages for the semantic Web.USA:Stony Brook,2016:151-166.
