Computer Science ›› 2021, Vol. 48 ›› Issue (6A): 438-442.doi: 10.11896/jsjkx.200600148
• Information Security • Previous Articles Next Articles
LIU Jia-qi1, LIU Bei-li2, PENG Tao3,4, DUAN Jiang1,3,4, KANG Li1,4, CHEN Zhi1,4
CLC Number:
[1] LIU J W,LI X L,YE L,et al.BPDS:A Blockchain Based Privacy-Preserving Data Sharing for Electronic Medical Records[J].arXiv:1811.03223. [2] CHEN J C,XUE Y Z.Bootstrapping a Blockchain Based Eco-model for Big Data Exchange[C]//BigData Congress.2017:460-463. [3] BACK A,CORALLO M,DASHJR L.Enabling Blockchain Innovations with Pegged Sidechains[OL].https://copyrightandtechnology.com/2017/04/04/new-white-paper-watermarking-tech-nology-and-blockchains-in-the-music-industry/. [4] MENG Q X,LI J.Research on the Change of Music Copyright Protection Path from the Perspective of Blockchain[J].Techno-logy and Law,2018(6):17-24. [5] HAN X,YUAN Y,WANG F Y.Blockchain Security Issues:Research Status and Prospects[J].Journal of Automation,2019,45(1):206-225. [6] PAN D Y,LI F L.Blockchain and Cultural Industry-NewPractice Trend of Digital Economy[J].Cultural Industry Research,2019(1):2-13. [7] ELLIS D,WHITMAN B,JEHAN T,et al.The Echo Nest Musical Fingerprint[OL].https://xueshu.baidu.com/usercenter/paper/show?paperid=18580a809f2d0eh0185d06t0n4435389. [8] MENG Z X,TETSUYA M,SUMIKO M,et al.Design Scheme of Copyright Management model Based on Digital Watermarking and Blockchain[OL].https://ieeexplore.ieee.org/document/8377886. [9] CHEN H,ZHANG L J.FBaaS:Functional Blockchain as a Ser-vice[OL].https://dblp.uni-trier.de/rec/conf/icbc/ChenZ18.html. [10] ADAM B,MATT C,LUKE D.Enabling Blockchain Innovations with Pegged Sidechains[OL].https://blog.acolyer.org/2014/10/28/enabling-blockchain-innovations-with-pegged-sidech-ains/. [11] WANG W.A Survey on Consensus Mechanisms and MiningStrategy Management in Blockchain Networks[C]//IEEE Access.2019:22328-22370. [12] LV Y H,CHEN Y.A Preliminary Exploration and Prospect of the Application of “Blockchain” Technology in the Copyright of Digital Music Industry[J].Voice of the Yellow River,2019(2):134-135,137. [13] SI X M,XU M X,YUAN C.Review of Blockchain Security Research [J].Journal of Cryptography,2018,5(5):458-469. [14] 斯雪明,徐蜜雪,苑超.区块链安全研究综述[J].密码学报,2018,5(5):458-469. [15] NAKAMOTO S.Bitcoin:A Peer-to-Peer Electronic Cash model[OL].https://bitcoin.org/en/bitcoin-paper. [16] DINH T,WANG J,CHEN G,et al.BLOCKBENCH:A Framework for Analyzing Private Blockchains[OL].https://github.com/ooibc88/blockbench. [17] SHEN C.Blockchain for Cities - A modelatic Literature Review[C]//IEEE Access.2018:1-1. [18] LIU Y D,LI W,LI X Q,et al.A robust compressed-domain music fingerprinting technique based on MDCT spectral entropy[J].Acta Electronica Sinica,2010,38:1172-1176. [19] WOOD G.ETHEREUM:A Secure Decentralised GeneralisedTransaction Ledger[OL].https://xueshu.baidu.com/usercen-ter/paper/show?paperid=2ef61b38dc02b8fde0cfd5d0a496ac73. [20] CHEN N.Blockchain-based digital music resource copyrightmanagement mechanism [J].Art Education,2019(1):54-55. [21] Acoustic fingerprint[OL].https://en.wikipedia.org/wiki/Acoustic_fingerprint. [22] ELLIS D,WHITMAN B,JEHAN T,et al.The Echo Nest Musical Fingerprint[OL].https://xueshu.baidu.com/usercenter/paper/show?paperid=18580a809f2d0eh0185d06t0n4435389. [23] LIU Y D,LI W,LI X Q,et al.A robust compressed-domain music fingerprinting technique based on MDCT spectral entropy[J].Acta Electronica Sinica,2010,38:1172-1176. [24] SHAO X.A non-parametric estimation approach for spectrum entropy computation in music-fingerprinting model[C]//2010 International Conference on Wireless Communications and Signal Processing(WCSP 2010).2010. [25] WANG A.An Industrial-Strength Audio Search Algorithm[C]//Proc.2003 ISMIR International Symposium on Music Information Retrieval.Baltimore,MD,2003. [26] DANIEL E,BRIAN W,TRISTAN J,et al.The Echo Nest Musical Fingerprint[OL].https://xueshu.baidu.com/usercenter/paper/show?paperid=18580a809f2d0eh0185d06t0n4435389. [27] RIYANARTO S,DEDY W,MUHAMMAD M.Music finger-printing based on bhattacharya distance for song and cover song recognition[C]//International Journal of Electrical and ComputerEngineering (IJECE).2019:1036-1044. [28] BACK A,CORALLO M,Dashjr L.Enabling Blockchain Innovations with Pegged Sidechains[OL].https://blog.acolyer.org/2014/10/28/enabling-blockchain-innovations-with-pegged-side-chains/. [29] PEDRO C,ELOI B,TON K,et al.A Review of Algorithms for Audio Fingerprinting[OL].https://ieeexplore.ieee.org/document/1203274. [30] YAN K,DEREK H,SUKTHANKAR R.Computer vision formusic identification[C]//2005 IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR'05).IEEE,2005(1):597-604. [31] LIU Y D,LI W,LI X Q,et al.A robust compressed-domain music fingerprinting technique based on MDCT spectral entropy[J].Acta Electronica Sinica,2010,38:1172-1176. [32] MATTIA B,ADRIANO B,BARBARA D F.Towards a Topological Fingerprint of Music.2016. |
[1] | WANG Zi-kai, ZHU Jian, ZHANG Bo-jun, HU Kai. Research and Implementation of Parallel Method in Blockchain and Smart Contract [J]. Computer Science, 2022, 49(9): 312-317. |
[2] | ZHOU Hang, JIANG He, ZHAO Yan, XIE Xiang-peng. Study on Optimal Scheduling of Power Blockchain System for Consensus Transaction ofEach Unit [J]. Computer Science, 2022, 49(6A): 771-776. |
[3] | LI Bo, XIANG Hai-yun, ZHANG Yu-xiang, LIAO Hao-de. Application Research of PBFT Optimization Algorithm for Food Traceability Scenarios [J]. Computer Science, 2022, 49(6A): 723-728. |
[4] | FU Li-yu, LU Ge-hao, WU Yi-ming, LUO Ya-ling. Overview of Research and Development of Blockchain Technology [J]. Computer Science, 2022, 49(6A): 447-461. |
[5] | GAO Jian-bo, ZHANG Jia-shuo, LI Qing-shan, CHEN Zhong. RegLang:A Smart Contract Programming Language for Regulation [J]. Computer Science, 2022, 49(6A): 462-468. |
[6] | MAO Dian-hui, HUANG Hui-yu, ZHAO Shuang. Study on Automatic Synthetic News Detection Method Complying with Regulatory Compliance [J]. Computer Science, 2022, 49(6A): 523-530. |
[7] | WANG Si-ming, TAN Bei-hai, YU Rong. Blockchain Sharding and Incentive Mechanism for 6G Dependable Intelligence [J]. Computer Science, 2022, 49(6): 32-38. |
[8] | SUN Hao, MAO Han-yu, ZHANG Yan-feng, YU Ge, XU Shi-cheng, HE Guang-yu. Development and Application of Blockchain Cross-chain Technology [J]. Computer Science, 2022, 49(5): 287-295. |
[9] | YANG Zhen, HUANG Song, ZHENG Chang-you. Study on Crowdsourced Testing Intellectual Property Protection Technology Based on Blockchain and Improved CP-ABE [J]. Computer Science, 2022, 49(5): 325-332. |
[10] | REN Chang, ZHAO Hong, JIANG Hua. Quantum Secured-Byzantine Fault Tolerance Blockchain Consensus Mechanism [J]. Computer Science, 2022, 49(5): 333-340. |
[11] | FENG Liao-liao, DING Yan, LIU Kun-lin, MA Ke-lin, CHANG Jun-sheng. Research Advance on BFT Consensus Algorithms [J]. Computer Science, 2022, 49(4): 329-339. |
[12] | WANG Xin, ZHOU Ze-bao, YU Yun, CHEN Yu-xu, REN Hao-wen, JIANG Yi-bo, SUN Ling-yun. Reliable Incentive Mechanism for Federated Learning of Electric Metering Data [J]. Computer Science, 2022, 49(3): 31-38. |
[13] | ZHANG Ying-li, MA Jia-li, LIU Zi-ang, LIU Xin, ZHOU Rui. Overview of Vulnerability Detection Methods for Ethereum Solidity Smart Contracts [J]. Computer Science, 2022, 49(3): 52-61. |
[14] | YANG Xin-yu, PENG Chang-gen, YANG Hui, DING Hong-fa. Rational PBFT Consensus Algorithm with Evolutionary Game [J]. Computer Science, 2022, 49(3): 360-370. |
[15] | FAN Jia-xing, WANG Zhi-wei. Hierarchical Anonymous Voting Scheme Based on Threshold Ring Signature [J]. Computer Science, 2022, 49(1): 321-327. |
|