基于区块链的电子证据系统架构模型

计算机科学 ›› 2018, Vol. 45 ›› Issue (6A): 348-351.

基于区块链的电子证据系统架构模型

侯义斌,梁勋,占小瑜

北京工业大学软件学院北京100024

出版日期:2018-06-20 发布日期:2018-08-03
作者简介:侯义斌(1952-),男,博士,教授,博士生导师,主要研究方向为嵌入式计算、深度学习;梁勋(1993-),男,硕士生,主要研究方向为深度学习、区块链等,E-mail:KeenSting@163.com;占小瑜(1995-),女,硕士生,主要研究方向为机器学习、区块链应用。

Block Chain Based Architecture Model of Electronic Evidence System

HOU Yi-bin,LIANG Xun,ZHAN Xiao-yu

School of Software Engineering,Beijing University of Technology,Beijing 100024,China

Online:2018-06-20 Published:2018-08-03

摘要/Abstract

摘要： 文中介绍了一种基于区块链技术的电子证据系统架构。区块链数据不可篡改的特性,保障了电子证据的真实性,从而推动了电子证据技术的快速发展与应用。架构中还描述了一种电子证据的批量打包方式,其可以降低区块链的存证成本,提高存证效率。

关键词: 电子证据, 批量打包, 区块链

Abstract: This paper proposed an electronic evidence system architecture based on block chain technology.The absolutely-credible characteristic of block chain data is used to guarantee the authenticity of electronic evidence and promote its development.The framework also describes a methodology to package a large quantity of data,which can reduce the cost and improve the efficiency when saving data into block chain.

Key words: Batch packing, Block chain, Electronic evidence

中图分类号:

TP311

侯义斌, 梁勋, 占小瑜. 基于区块链的电子证据系统架构模型[J]. 计算机科学, 2018, 45(6A): 348-351. https://doi.org/

HOU Yi-bin, LIANG Xun, ZHAN Xiao-yu. Block Chain Based Architecture Model of Electronic Evidence System[J]. Computer Science, 2018, 45(6A): 348-351. https://doi.org/

参考文献

[1]SWAN M.Blockchain:Blueprint for a new economy[M]. O’Reilly Media,Inc.,2015.
[2]NAKAMOTO S.Bitcoin:A peer-to-peer electronic cash system[OL].http://bitcoin.org/bitcoin.pdf.
[3]CROSBY M,PATTANAYAK P,VERMA S,et al.Blockchain technology:Beyond bitcoin[J].Applied Innovation,2016(2):6-10.
[4]MORI T.Financial technology:blockchain and securities settlement[J].Journal of Securities Operations & Custody,2016,8(3):208-227.
[5]TAPSCOTT D,TAPSCOTT A.Blockchain Revolution:How the technology behind Bitcoin is changing money,business,and the world[M].Penguin,2016.
[6]WATANABE H,FUJIMURA S,NAKADAIRA A,et al.Blockchain contract:Securing a blockchain applied to smart contracts[C]∥2016 IEEE International Conference on Consumer Electronics (ICCE).IEEE,2016:467-468.
[7]COHEN L R,SAMUELSON L,KATZ H.How Securitization Can Benefit from Blockchain Technology[J].The Journal of Structured Finance,2017,23(2):51-54.
[8]汪闽燕.电子证据的形成与真实性认定[J].法学,2017(6):183-192.
[9]陈金明.电子证据保全公证的保全措施及公证书效力研究[J].法制与经济,2016(10):77.
[10]何月.电子证据的归属及证明力研究[J].信息网络安全,2010(11):85-86.
[11]Damg?rd I B.A design principle for hash functions[C]∥Conference on the Theory and Application of Cryptology.Springer,New York,NY,1989:416-427.
[12]袁勇,王飞跃.区块链技术发展现状与展望[J].自动化学报,2016,42(4):481-494.
[13]SRINIVASAN R.RPC:Remote Procedure Call Protocol Specification:Verison 2.RFC,1995,11(3):5531.
[14]POON J,DRYJA T.The bitcoin lightning network:Scalable off-chain instant payments:Technical Report (draft)[R].2015.

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