ABSTRACT
It is very important to understand the current situation of blockchain technology on a global scale. The large-scale application of blockchain technology is an inevitable trend. This article revolves around published papers related to blockchain technology, using keywords and abstract content to search for Chinese papers and English papers. Relevance analysis and sorting through the retrieved documents with six core layers of blockchain respectively: Application Layer, Contract Layer, Actuator Layer, Consensus Layer, Network Layer and Data Layer. Based on the analysis results, the study found that China's research is more preference and application of landing and industry, while international research is more preferred to the research of the underlying technology of finance and blockchain. This article illustrates the current status of blockchain technology and applications from the smart city, and contribute to scholars and technicians who are interested in or research blockchain.
- Wu Tong. Advantages, constraints and promotion strategies of open finance based on blockchain[J]. Economic Aspect ,2020(2):91-98.Google Scholar
- Zhu Liehuang, Gao Feng, Shen Meng, Summary of research on blockchain privacy protection% Survey on Privacy Preserving Techniques for Blockchain Technology[J]. Computer Research and Development, 2017, 54(10):2170-2186.Google Scholar
- Wan Guohua, Sun Ting. Research on the Ideal, Reality and Regulatory Countermeasures of "Blockchain + Securities"[J]. Shanghai Finance, 2017(6):58-64,57.Google Scholar
- Pu Dongping, Fan Chongjun, Liang Hejun. Construction and application of e-commerce platform system based on blockchain perspective[J]. China Circulation Economy, 2018,32(03):44-51.Google Scholar
- Zhou Maojun, Qin Wenyan. Reconstruction of e-commerce credit system in the era of blockchain 3.0[J]. Learning and Practice, 2019(11):47-56.Google Scholar
- Li Doudou. Research on the Coupling Development of Digital Economy, Cross-border E-commerce and Digital Trade——Also on the Application of Blockchain Technology in the Three[J]. Theoretical Discussion,2020(01):115-121.Google Scholar
- Yan Zhenya. A new sharing economy model based on blockchain technology[J]. Social Science Research, 2020(1):94-101.Google Scholar
- Zhang Xiaheng. Optimization of supply chain management model based on blockchain[J]. China Circulation Economy, 2018, 32(8):44-52.Google Scholar
- Zhang Xinwei, Zhang Hua, Guo Xiaowang, Research and analysis of electronic voting and election system based on blockchain[J]. Electronic Technology Applications, 2017, 43(11):132-135.Google Scholar
- Lu Minfeng. Research on the Reconstruction of Blockchain Technology and Social Credit System[J]. Lanzhou Academic Journal,2020(3):80-88.Google Scholar
- Shi Dan. On the value and risk of blockchain technology for digital copyright governance[J]. Science and Technology, 2019(06):111-120.Google Scholar
- Yan Zhanghua, Liu Lei, Li Qian. Cooperative Evolution of Parallel Society under Blockchain System[J]. China Science and Technology Forum, 2018(6):50-58.Google Scholar
- Liu Yuenan, Zhang Yifeng, Wu Yunpeng, Blockchain technology and document archive management: two-way thinking of technology and management[J]. Archives Newsletter, 2020(1):4-12.Google Scholar
- Lin Muxi, Zhang Ziwei. "Blockchain + Production" Promotes Enterprise Green Production——A New Thinking on the Hand of Government[J]. Economic Trends, 2019(5):42-56.Google Scholar
- Zhao Jinxu, Meng Tianguang. Technology Empowerment: How Blockchain Reshapes Governance Structure and Model[J]. Contemporary World and Socialism, 2019(03):187-194.Google Scholar
- Gao Qiqi, Zhang Jiteng. Blockchain and Transformation of Global Economic Governance——Based on the Perspective of Constructing a Global Justice Economic Order[J]. Academia, 2019(09):21-36.Google Scholar
- Yang Hao. The new globalization process after the volatility and the new issues of global governance—transnational coupling of blockchain, human mobility and authority[J]. Academic Circles, 2018,239(4):150-160.Google Scholar
- Jin Yifu. Demand analysis and technical framework of blockchain + education[J]. China Audio-visual Education, 2021(2017-9):62-68.Google Scholar
- Xu Jie, Wang Jiayun. Trust Building of Academic Publishing Based on Blockchain Technology[J]. Publishing Science, 2017, 25(6):19-24.Google Scholar
- Xu Tao. Application and Challenge of Blockchain Technology in Education and Teaching[J]. Modern Education Technology, 2017(1):110-116.Google Scholar
- Li Zhihong, Qiu Tingyu, Li Kexin. Research on Credit Banking System Based on Blockchain Technology[J]. Modern Education Technology, 2019(7):120-126.Google Scholar
- Chen Xiaodong. Blockchain technology and its application in audit experiment teaching[J]. China Audio-Visual Education, 2019(06):131-132.Google Scholar
- Yang Yang, Du Jian, Luo Xiangdan. Analysis of the impact of blockchain technology on both parties of tax collection[J]. Tax Research, 2019, 409(2):116-120.Google Scholar
- Ren Chaoran. Research on tax collection and management model based on blockchain technology[J]. Tax Research, 2018, 406(11):92-99.Google Scholar
- Li Wanfu, Liu Hexiang, Deng Xuefei. Application of Blockchain Technology to Promote Credit Management of Tax Payment in my country[J]. Tax Research, 2018, 407(12):80-84.Google Scholar
- Tang Xiaodong, Zhou Heshan. Construction of tax governance framework based on blockchain technology[J]. Tax Research, 2018, (11):98-104.Google Scholar
- Dong Daiying, Wang Xueming. Research on electronic medical record sharing based on blockchain[J]. Computer Technology and Development, 2019, 29(5):121-125.Google Scholar
- Zhu Juan. Blockchain finance consumer rights protection: the path of experimental regulation[J]. Nanjing Social Sciences, 2018, 374(12):106-111.Google Scholar
- Ding Xiaowei. Thoughts on the integration of blockchain into copyright insurance[J]. Nanjing Social Sciences, 2018, (9):120-125.Google Scholar
- Zhang Lupeng, Zhou Yuan, Xue Lan. Intellectual Property Management and Policy Research of Strategic Emerging Industries Based on Blockchain Technology[J]. China Science and Technology Forum, 2018, (12):120-126.Google Scholar
- Huang Butian, Deng Xu, Yu Zhibei, A data synchronization method based on the operation of blockchain state unit network.CN108667928A[P].2018.Google Scholar
- Zhang Yanhua, Wang Yong, Yang Zhaoxin, Blockchain smart contract script design based on machine learning[J]. Information Engineering, 2019, 5(04):4-10.Google Scholar
- Hao Shibo, Xu Wenzhe, Tang Zhengyun. Research on scientific data sharing blockchain model and implementation mechanism[J]. Information Theory and Practice, 2018, 41(11):57-62.Google Scholar
- Tang Changbing, Yang Zhen, Zheng Zhonglong, Analysis and Optimization of Game Dilemma in PoW Consensus Algorithm[J]. Journal of Automation, 2017,43(09):1520-1531.Google Scholar
- Zhu Xiujun. Blockchain-based transaction buffer/acceleration method and blockchain transaction processing system: China.CN108805702A[P].2018-11-13Google Scholar
- Wang Lei, Zhao Xiaoyong. Research on service composition strategy in cloud computing environment based on blockchain mechanism[J]. Journal of Computer Applications, 2019, 36(01):87-92+96.Google Scholar
- Lin Jiaqin. Promote the development of blockchain technology through the integration of IPv6 technology[J]. Computer Products and Circulation, 2019(06):81+160.Google Scholar
- Weng Jian, Weng Jiasi, Liu Jianan, Blockchain-based software-defined network control layer security mechanism construction method: China. CN107222478A[P].2017-09-29.Google Scholar
- Jiao Tong, JIAO Tong, Shen Derong, Blockchain database: a queryable and tamper-proof database[J]. Journal of Software, 2019,30(09):2671-2685.Google Scholar
- Yang Min, Zhang Shibin, Zhang Hang, User trust negotiation model based on two-layer blockchain in heterogeneous alliance system[J]. Journal of Applied Sciences, 2019,37(02):244-252.Google Scholar
- Wang Maoning, Duan Meijiao. Merkle Hash Tree Structure Based Blockchain Second Preimage Attack[J]. Information Network Security, 2018(01):38-44.Google Scholar
- Deng Enyan. A method for secure transmission of blockchain data based on SCTP protocol: China.CN107104977A[P].2017-08-29.Google Scholar
- Andriole S J . Blockchain, Cryptocurrency, and Cybersecurity[J]. IT Professional, 2020, 22(1):13-16.Google ScholarCross Ref
- Rezaeibagha F , Mu Y . Efficient Micropayment of Cryptocurrency from Blockchains[J]. Computer Journal, 2019,62(04):507-517.Google ScholarCross Ref
- Zhong L , Wu Q , Xie J , A secure large-scale instant payment system based on blockchain[J]. Computers & Security, 2019, 84:349-364.Google ScholarDigital Library
- Yin H H S , Langenheldt K , Harlev M , Regulating Cryptocurrencies: A Supervised Machine Learning Approach to De-Anonymizing the Bitcoin Blockchain[J]. Journal of management information systems, 2019, 36(1):37-73.Google Scholar
- Juhasz P L, Steger J, Kondor D, A Bayesian approach to identify Bitcoin users[J]. PloS one, 2018, 13(12): e0207000-e0207000.Google Scholar
- Ante L. A place next to Satoshi: foundations of blockchain and cryptocurrency research in business and economics[J]. Scientometrics, 2020, 124(02): 1305-1333.Google ScholarDigital Library
- Eyal, Ittay. Blockchain Technology: Transforming Libertarian Cryptocurrency Dreams to Finance and Banking Realities[J]. Computer, 2017, 50(09):38-49.Google ScholarDigital Library
- Hegadekatti K , Yatish S G . The Programmable Economy: Envisaging an Entire Planned Economic System as a Single Computer through Blockchain Networks[J]. MPRA Paper, 2017,58(09):32.Google Scholar
- Aste T , Tasca P , Matteo T D . Blockchain Technologies: The Foreseeable Impact on Society and Industry[J]. Computer, 2017, 50(09):18-28.Google ScholarDigital Library
- Campbell-Verduyn M . Introduction to special section on blockchains and financial globalization[J]. Global Networks, 2019, 19(03):283-290.Google ScholarCross Ref
- Abe R , Watanabe H , Ohashi S , Storage Protocol for Securing Blockchain Transparency[C]// 2018 IEEE 42nd Annual Computer Software and Applications Conference (COMPSAC). IEEE Computer Society, 2018.Google Scholar
- Wang S , Ouyang L , Yuan Y , Blockchain-Enabled Smart Contracts: Architecture, Applications, and Future Trends[J]. IEEE Transactions on Systems Man & Cybernetics Systems, 2019,49(11):2266-2277.Google ScholarCross Ref
- Sri Aravinda Krishnan Thyagarajan, Adithya Bhat, Bernardo Magri, Daniel Tschudi, Aniket Kate,Reparo: Publicly Verifiable Layer to Repair Blockchains[J],2020,12675(02):37-56.Google Scholar
- Manimaran P , Dhanalakshmi R . Blockchain-Based Smart Contract for E-Bidding System[C]// International Conference on Intelligent Communication & Computational Techniques. 2019.Google Scholar
- Fabrizio, Lamberti, Valentina, Blockchains Can Work for Car Insurance: Using Smart Contracts and Sensors to Provide On-Demand Coverage[J]. IEEE Consumer Electronics Magazine, 2018,7(04):72-81.Google ScholarCross Ref
- Wang E K , Liang Z , Chen C M , PoRX: A reputation incentive scheme for blockchain consensus of IIoT[J]. Future generation computer systems, 2020, 102:140-151.Google Scholar
- Okada H , Yamasaki S , Bracamonte V . Proposed classification of blockchains based on authority and incentive dimensions[C]// International Conference on Advanced Communication Technology. IEEE, 2017.Google Scholar
- Wu W , Gao Z . An Improved Blockchain Consensus Mechanism Based on Open Business Environment[J]. IOP Conference Series Earth and Environmental ence, 2020, 428(01):012043.Google ScholarCross Ref
- Yang D , Jeon S , Doh I , Randomly Elected Blockchain System based on Grouping Verifiers for Efficiency and Security[C]// 2020 22nd International Conference on Advanced Communication Technology (ICACT). IEEE, 2020.Google Scholar
- Leonardos S , Reijsbergen D , Piliouras G . Weighted Voting on the Blockchain: Improving Consensus in Proof of Stake Protocols[C]// IEEE International Conference on Blockchain and Cryptocurrency (ICBC 2019). IEEE, 2019.Google Scholar
- Zou J , Ye B , Qu L , A Proof-of-Trust Consensus Protocol for Enhancing Accountability in Crowdsourcing Services[J]. IEEE Transactions on Services Computing, 2018, 12(03):429-445.Google ScholarCross Ref
- Feng L , Hui Z , Tsai W T , System architecture for high-performance permissioned blockchains[J]. Frontiers of Computer Science, 2019, 13(06):1151-1165.Google ScholarDigital Library
- Frahat R T , Monowar M M , Buhari S M . Secure and Scalable Trust Management Model for IoT P2P Network[C]// 2019 2nd International Conference on Computer Applications & Information Security (ICCAIS). 2019.Google Scholar
- Chicarino V , Célio Albuquerque, Jesus E , On the detection of selfish mining and stalker attacks in blockchain networks[J]. Annals of Telecommunications, 2020, 75(03):143-152.Google ScholarCross Ref
- Ito K , Tago K , Jin Q . i-Blockchain: A Blockchain-Empowered Individual-Centric Framework for Privacy-Preserved Use of Personal Health Data[C]// 2018 9th International Conference on Information Technology in Medicine and Education (ITME). IEEE Computer Society, 2018.Google Scholar
- Ferretti S , D'Angelo G . On the Ethereum Blockchain Structure: a Complex Networks Theory Perspective[J]. Concurrency and Computation: Practice and Experience, 2020, 32(12): e5493.Google ScholarCross Ref
- Xu J , Wei L , Zhang Y , Dynamic Fully Homomorphic encryption-based Merkle Tree for lightweight streaming authenticated data structures[J]. Journal of Network and Computer Applications, 2018:113-124.Google Scholar
- Waqas P , Byun Y . A Blockchain-Based Secure Image Encryption Scheme for the Industrial Internet of Things[J]. Entropy, 2020, 22(2):175.Google ScholarCross Ref
- Liu Feng, Yang Jie, Li Zhibin, Qi Jiayin*. Research on an Endogenous Data Security Interaction Protocol for Dual-Central-Two-chain Architecture [J]. Journal of East China Normal University (Natural Science Edition), 2020(05): 44-55.Google Scholar
- Liu Feng, Yang Jie, Li Zhibin*, Qi Jiayin*. A secure multi-party computation protocol for general data privacy protection based on blockchain [J]. Computer Research and Development, 2021, 58(2): 281-290.Google Scholar
- Liu Feng, Yang Jie, Qi Jiayin*. Blockchain Two-Party Elliptic Curve Based on Hash Proof System [J]. Information Network Security, 2021,1(01):89-96.Google Scholar
- Lv Tingjie, Liu Feng*. Research on computing power network under the background of digital economy [J]. Journal of Beijing Jiaotong University (Social Science Edition), 2021, 20(01):11-18.Google Scholar
- Liu Feng, Wang Yifan, Yang Jie, Zhou Aimin, Qi Jiayin*. A blockchain-based high-threshold signature protocol integrating DKG and BLS[J]. Computer Science, 2021, 48(11):46-53.Google Scholar
- Liu Feng, Yang Chengyi, Yu Xincheng, Qi Jiayin. Spectrograph Convolutional Neural Network for Decentralized Double Differential Privacy [J]. Information Network Security, 2022, 22(1):152-159.Google Scholar
- Liu Feng, Zhang Jiahao, Zhou Junjie, Li Mu, Kong Deli, Yang Jie, Qi Jiayin, Zhou Aimin. Blockchain Cross-Chain Asset Interaction Protocol Based on Improved Hash Time Lock [J]. Computer Science, 2022, 49(1):336-344.Google Scholar
- Liu Jiaqi, Liu Feng, Qi Jiayin. Modeling and Efficiency Analysis of Blockchain Public Opinion Evidence Storage System Based on Stochastic Petri Nets [J]. Journal of Shanghai University of International Business and Economics, 2022,29(01):109-124.DOI:10.16060/j.cnki.issn2095-8072.2022.01.008.Google ScholarCross Ref
- Hu Mo, Ma Jie. Research on the mechanism of promoting borderless smart government in the perspective of information collaboration[J]. Intelligence data work,2019,40(01):44-51.Google Scholar
- Fei Jun,Jia Huizhen. The path selection of public service platform provided by government APP from the perspective of smart government [J]. E-government, 2015(9):31-37.Google Scholar
- Yu Shiyang, Yang Daoling, Wang Jingxuan, Big data-based smart government portal: from concept to practice [J]. E-Government, 2013(5):64-74.Google Scholar
- Luo Xianchun, Yu Bo, Yao Ming. Analysis of e-government development stages from the perspective of information chain[J]. Library Studies, 2014(6):35-40Google Scholar
- Lv Z H, Li X M, Wang W X,et al. Government affairs service platform for smart city[J]. Future Generation Computer Systems the International Journal of EScience, 2018, 81:443-451Google ScholarDigital Library
- Yuan YK, Zhang Y, Wei Tanyong, Review of key technologies and applications of intelligent transportation[J]. Electronic Technology Applications, 2015, 41(8):9-12.Google Scholar
- Zhang H-L. Application scenarios and challenges of blockchain technology in the transportation field[J]. China Transportation Informatization, 2020(12):96-98.Google Scholar
- Feng Yanda, Wang Feng. Blockchain-based application of Internet of things technology [J]. Internet of Things Technology,2021,11(12):120-122.Google Scholar
- Na Lei. New generation of information technology to enable intelligent development of coal industry[J]. Coal Engineering,2020,52(08):193-196.Google Scholar
- Yang De-qin,Yue Aobo,Yang Ruijia. Research on integrated management of engineering project information under smart construction–application based on blockchain technology[J]. Construction Economics,2019,40(02):80-85.Google Scholar
- Yu S. B., Zheng D. D.. Application and prospect of blockchain technology in the field of energy and power [J]. Huadian Technology,2020,42(08):17-23.Google Scholar
- Zhang Yan, Wang Longze, Wu Jing, Yuan Rongfang, Li Meicheng. Blockchain and integrated energy systems: applications and perspectives [J]. China Science Foundation,2020,34(01):31-37.Google Scholar
- HUANG Xiaohong, ZHANG Yong, LI Dandan, An optimal scheduling algorithm for hybrid EV charging scenario using consortium blockchains [J]. Future Generation Computer Systems,2019,91:555-562.Google Scholar
- ANDONI M, ROBU V, FLYNN D, Blockchain technology in the energy sector:A systematic review of challenges and opportunities [J].Renewable and Sustainable Energy Reviews,2019,100:143-174Google Scholar
- Wang Qi, Chen Zhijun, Wang Pingxiang . Application of blockchain technology in new retail supply chain [J]. Business and Economic Research,2020(14):34-36Google Scholar
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