2924                                 Journal of Software  软件学报 Vol.31, No.9,  September 2020

         [97]    Croman K, Decker C, Eyal I, Gencer AE, Juels A, Kosba AE, Miller A, Saxena P, Shi E, Sirer EG, Song D, Wattenhofer R. On
             scaling decentralized blockchains (a  position paper). In: Proc. of the Financial  Cryptography  and  Data Security—FC 2016 Int’l
             Workshops, Bitcoin, Voting, and Wahc. 2016. 106−125.
         [98]    Istv´an Z, Sorniotti A, Vukolic M. Streamchain: Do blockchains need blocks? CoRR, vol. abs/1808.08406, 2018.
         [99]    Popov S. The tangle (2016). 2018. URL http://www.iotatoken.com
        [100]    Baird L. The swirlds hashgraph consensus algorithm: Fair, fast, Byzantine fault tolerance. 2016.
        [101]    Weber I, Xu X, Riveret R, Governatori G, Ponomarev A, Mendling J. Untrusted business process monitoring and execution using
             blockchain. In: Proc. of the 14th Int’l Conf. on Business Process Management (BPM 2016). Riode Janeiro, 2016. 329−347.
        [102]    Androulaki E, Cachin C, Caro AD, Kokoris-Kogias  E. Channels: Horizontal  scaling and confidentiality on permissioned
             blockchains. In: Proc. of the 23rd European Symp. on Research in Computer Security (ESORICS 2018). Part I. Barcelona, 2018.
             111−131. https://doi.org/10.1007/978-3-319-99073-66
        [103]    Back A, Corallo M,  Dashjr L,  Friedenbach M, Maxwell  G, Miller A,  Poelstra A, Timōn J, Wuille P.  Enabling blockchain
             innovations with pegged sidechains. 2014.
        [104]    Ren Z, Cong K,  Pouwelse J, Erkin Z.  Implicit consensus: Blockchain  with  unbounded  throughput. CoRR,  vol. abs/1705.11046,
             2017.
        [105]    Kokoris-Kogias E,  Jovanovic  P,  Gasser L, Gailly N,  Syta E,  Ford  B. Omniledger: A secure, scale-out,  decentralized ledger  via
             sharding. In: Proc. of the 2018 IEEE Symp. on Security and Privacy (SP). 2018. 583−598.
        [106]    Al-Bassam M, Sonnino A, Bano S, Hrycyszyn D, Danezis G. Chainspace: A sharded smart contracts platform. In: Proc. of the 25th
             Annual Network and Distributed System Security Symp. (NDSS 2018). San Diego, 2018.
        [107]    Wang J, Wang H. Monoxide: Scale out blockchain with asynchronous consensus zones. In: Proc. of the 16th USENIX Conf. on
             Networked Systems Design and Implementation (NSDI 2019). Berkeley: USENIX Association, 2019. 95−112.
        [108]    Dang H, Dinh TTA, Loghin D, Chang EC, Lin Q, Ooi BC. Towards scaling blockchain systems via sharding. In: Proc. of the 2019
             Int’l Conf. on Management of Data (SIGMOD 2019). New York: ACM, 2019. 123−140.
        [109]    Gilad Y, Hemo R, Micali S, Vlachos G, Zeldovich N. Algorand: Scaling Byzantine agreements for cryptocurrencies. In: Proc. of
             the 26th Symp. on Operating Systems Principles (SOSP 2017). New York: ACM, 2017. 51−68.
        [110]    Jia DY, Xin JC, Wang ZQ, Guo W, Wang GR. Efficient query model for storage capacity scalable blockchain system. Ruan Jian
             Xue  Bao/Journal of Software, 2019,30(9):2655−2670 (in  Chinese with English  abstract). http://www.jos.org.cn/1000-9825/6091.
             htm [doi: 10.13328/j.cnki.jos.005774]
        [111]    Decker C, Wattenhofer R. A fast and scalable payment network with Bitcoin duplex micropayment channels. In: Proc. of the 17th
             Int’l Symp. on Stabilization, Safety, and Security of Distributed Systems (SSS 2015). 2015. 3−18.
        [112]    Green M, Miers I. Bolt: Anonymous payment channels for decentralized currencies. In: Proc. of the 2017 ACM SIGSAC Conf. on
             Computer and Communications Security (CCS 2017). New York: ACM, 2017. 473−489.
        [113]    Poon J, Dryja T. The Bitcoin lightning network. 2019. https://lightning.network/
        [114]    Raiden network. 2019. https://raiden.network/
        [115]    Prihodko P, Zhigulin S, Sahno M, Ostrovskiy A, Osuntokun O. Flare: An approach to routing in lightning network white paper.
             2016.
        [116]    Miller A, Bentov I, Kumaresan R, McCorry P. Sprites: Payment channels that go faster than lightning. CoRR, vol. abs/1702.05812,
             2017.
        [117]    Khalil R, Gervais A.  Revive: Rebalancing  off-blockchain payment networks. In: Proc. of the 2017  ACM  SIGSAC  Conf.  on
             Computer and CommunicationsSecurity (CCS 2017). New York: ACM, 2017. 439−453.

         附中文参考文献:
            [8]  刘耀宗,刘云恒.基于区块链的 RFID 大数据安全溯源模型.计算机科学,2018,45(11A):367−368,381.
          [36]  刘敖迪,杜学绘,王娜,李少卓.区块链技术及其在信息安全领域的研究进展.软件学报,2018,29(7):2092−2115. http://www.jos.org.
             cn/1000-9825/5589.htm [doi: 10.13328/j.cnki.jos.005589]