科技论文的写作技巧

课程介绍

  • 课程名称:科技论文的写作技巧
  • 时间地点:周五(1-2)节 – 东公教c101,2019秋季学期
  • 授课内容:科技论文的写作技巧,包括“通用写作技巧”与“论文的各个章节解析”两大部分
  • 参考书目:《English for Writing Research Papers》, Adrian Wallwork

授课老师

    黄华威 副教授

日本会津大学计算机科学与工程博士

研究领域: 区块链

个人主页:http://xintelligence.pro

课程Slides(Only the first 5 courses are given here. Please come to my class to learn other courses.)

course_1.pdfcourse_2.pdfcourse_3.pdfcourse_4.pdfcourse_5.pdf

考核方式

  • 两次作业:每次随机分配一篇论文阅读, 然后写summary.
  • DO NOT worry about examination, because we do not have one.

成绩评定

论文summary(两次)0%
课堂考勤(不计入总分)0%

论文阅读报告(两次)

第一次阅读报告

 

  • 提交时间:2019-11-04 23:59之前提交至助教邮箱
  • 要求:从候选论文list中为每位同学随机分配一篇论文,阅读论文并总结,一人一份,英文撰写,要求使用给定的Word模板编辑,字号为10pt,长度为1-2页A4纸;严禁重复抄袭论文的原文与他人的作业。
  • 内容包括:
    1. What is this paper talking about?
    2. What are the major contributions of this paper?
    3. To describe the methodology of the proposed approach.
    4. What are the key findings of their study?

考勤方式

pw19

 

 

 

课前生成签到码

第一次阅读报告的候选论文列表

  1. A. Hari, M. Kodialam, and T. Lakshman, “Accel: Accelerating the bitcoinblockchain for high-throughput, low-latency applications”in IEEE Con-ference on Computer Communications (INFOCOM’19). IEEE, 2019, pp.2368–2376.
  2. K.Salah, M.H.U. Rehman, N.Nizamuddin, and A.Al-Fuqaha,“Blockchain for ai: review and open research challenges,”IEEE Access,vol. 7, pp. 10 127–10 149, 2019
  3. P. K. Sharma, S. Singh, Y.-S. Jeong, and J. H. Park, “Distblocknet: A dis-tributed blockchains-based secure sdn architecture for iot networks”IEEE Access,vol. 7, pp. 10 127–10 149, 2019
  4. P. K. Sharma, M.-Y. Chen, and J. H. Park, “A software defined fognode based distributed blockchain cloud architecture for iot,”IEEE Ac-cess, vol. 6, pp. 115–124, 201
  5. Z. Hao, S. Yi, and Q. Li, “Nomad: An efficient consensus approach forlatency-sensitive edge-cloud applications,” inProceedings of IEEE Confer-ence on Computer Communications (INFOCOM), 2019, pp. 1–9
  6. C. Qiu, F. R. Yu, F. Xu, H. Yao, and C. Zhao, “Blockchain-based dis-tributed software-defined vehicular networks via deep q-learning,” inPro-ceedings of the 8th ACM Symposium on Design and Analysis of IntelligentVehicular Networks and Applications. ACM, 2018, pp. 8–14
  7. J. Zou, B. Ye, L. Qu, Y. Wang, M. A. Orgun, and L. Li, “A proof-of-trustconsensus protocol for enhancing accountability in crowdsourcing services,”IEEE Transactions on Services Computing, 2018
  8. H. Yin, D. Guo, K. Wang, Z. Jiang, Y. Lyu, and J. Xing, “Hyperconnectednetwork: A decentralized trusted computing and networking paradigm,”IEEE Network, vol. 32, no. 1, pp. 112–117, 2018.
  9. M. Liu, Y. Teng, F. R. Yu, V. C. M. Leung, and M. Song, “Deep rein-forcement learning based performance optimization in blockchain-enabledinternet of vehicle,” inICC 2019 – 2019 IEEE International Conference onCommunications (ICC), May 2019, pp. 1–6.
  10. M. Liu, F. R. Yu, Y. Teng, V. C. M. Leung, and M. Song, “Performanceoptimization for blockchain-enabled industrial internet of things (iiot) sys-tems: A deep reinforcement learning approach,”IEEE Transactions onIndustrial Informatics, vol. 15, no. 6, pp. 3559–3570, June 2019.
  11. C. H. Liu, Q. Lin, and S. Wen, “Blockchain-enabled data collection andsharing for industrial iot with deep reinforcement learning,”IEEE Trans-actions on Industrial Informatics, vol. 15, no. 6, pp. 3516–3526, June 2019
  12. Y. Lu, X. Huang, Y. Dai, S. Maharjan, and Y. Zhang, “Blockchain and fed-erated learning for privacy-preserved data sharing in industrial iot,”IEEETransactions on Industrial Informatics, vol. PP, pp. 1–1, 09 2019.
  13. A. Khan, Y. Rahulamathavn BSc(Hons), PhD, B. Basutli, G. Zheng, B. As-Sadhan, and S. Lambotharan, “Blockchain-based distributive auction forrelay-assisted secure communications,”IEEE Access, 07 2019
  14. Z. Li, J. Kang, R. Yu, D. Ye, Q. Deng, and Y. Zhang, “Consortiumblockchain for secure energy trading in industrial internet of things,”IEEETransactions on Industrial Informatics, vol. 14, no. 8, pp. 3690–3700, Aug2018
  15. J. Kang, R. Yu, X. Huang, S. Maharjan, Y. Zhang, and E. Hossain, “En-abling localized peer-to-peer electricity trading among plug-in hybrid elec-tric vehicles using consortium blockchains,”IEEE Transactions on Indus-trial Informatics, vol. 13, no. 6, pp. 3154–3164, Dec 2017.
  16. K. Gai, Y. Wu, L. Zhu, M. Qiu, and M. Shen, “Privacy-preserving energytrading using consortium blockchain in smart grid,”IEEE Transactions onIndustrial Informatics, vol. 15, no. 6, pp. 3548–3558, June 2019
  17. J. Wan, J. Li, M. Imran, and D. Li, “A blockchain-based solution for en-hancing security and privacy in smart factory,”IEEE Transactions on In-dustrial Informatics, vol. 15, no. 6, pp. 3652–3660, June 2019
  18. J. Huang, L. Kong, G. Chen, M. Wu, X. Liu, and P. Zeng, “Towards secureindustrial iot: Blockchain system with credit-based consensus mechanism,”IEEE Transactions on Industrial Informatics, vol. 15, no. 6, pp. 3680–3689,June 2019
  19. Y. Wang, Z. Su, and N. Zhang, “Bsis: Blockchain-based secure incentivescheme for energy delivery in vehicular energy network,”IEEE Transac-tions on Industrial Informatics, vol. 15, no. 6, pp. 3620–3631, June 2019
  20. P. K. Sharma, N. Kumar, and J. H. Park, “Blockchain-based distributedframework for automotive industry in a smart city,”IEEE Transactions onIndustrial Informatics, vol. 15, no. 7, pp. 4197–4205, July 2019.
  21. W. Hou, L. Guo, and Z. Ning, “Local electricity storage for blockchain-based energy trading in industrial internet of things,”IEEE Transactionson Industrial Informatics, vol. 15, no. 6, pp. 3610–3619, June 2019.
  22. D. Liu, A. Alahmadi, J. Ni, X. Lin, and X. Shen, “Anonymous reputa-tion system for iiot-enabled retail marketing atop pos blockchain,”IEEETransactions on Industrial Informatics, vol. 15, no. 6, pp. 3527–3537, June2019
  23. H. Liu, Y. Zhang, and T. Yang, “Blockchain-enabled security in electricvehicles cloud and edge computing,”IEEE Network, vol. 32, no. 3, pp.78–83, May 2018
  24. F. Gao, L. Zhu, M. Shen, K. Sharif, Z. Wan, and K. Ren, “A blockchain-based privacy-preserving payment mechanism for vehicle-to-grid networks,”IEEE Network, vol. 32, no. 6, pp. 184–192, November 2018
  25. A. Dorri, M. Steger, S. S. Kanhere, and R. Jurdak, “Blockchain: A dis-tributed solution to automotive security and privacy,”IEEE Communica-tions Magazine, vol. 55, no. 12, pp. 119–125, Dec 2017.
  26. Z. Xiong, Y. Zhang, D. Niyato, P. Wang, and Z. Han, “When mo-bile blockchain meets edge computing,”IEEE Communications Magazine,vol. 56, no. 8, pp. 33–39, August 2018
  27. A. P. Ozisik, B. N. Levine, G. Bissias, G. Andresen, D. Tapp, andS. Katkuri, “Graphene: Efficient interactive set reconciliation applied toblockchain propagation,” inProceedings of the ACM Special Interest Groupon Data Communication. ACM, 2019, pp. 303–317.
  28. H. Zhou, X. Ouyang, Z. Ren, J. Su, C. de Laat, and Z. Zhao, “A blockchainbased witness model for trustworthy cloud service level agreement enforce-ment,” inIEEE INFOCOM 2019-IEEE Conference on Computer Commu-nications. IEEE, 2019, pp. 1567–1575.
  29. J. Chen, S. Yao, Q. Yuan, K. He, S. Ji, and R. Du, “Certchain: Publicand efficient certificate audit based on blockchain for tls connections,” inIEEE INFOCOM 2018-IEEE Conference on Computer Communications.IEEE, 2018, pp. 2060–2068.
  30. S. Hu, C. Cai, Q. Wang, C. Wang, X. Luo, and K. Ren, “Searching anencrypted cloud meets blockchain: A decentralized, reliable and fair real-ization,” inIEEE INFOCOM 2018-IEEE Conference on Computer Com-munications. IEEE, 2018, pp. 792–800.
  31. C. Pop, T. Cioara, M. Antal, I. Anghel, I. Salomie, and M. Bertoncini,“Blockchain based decentralized management of demand response pro-grams in smart energy grids,”Sensors, vol. 18, no. 1, p. 162, 2018.
  32. H. Subramanian, “Decentralized blockchain-based electronic market-places.”Commun. ACM, vol. 61, no. 1, pp. 78–84, 2018
  33. K. Karlsson, W. Jiang, S. Wicker, D. Adams, E. Ma, R. van Renesse,and H. Weatherspoon, “Vegvisir: A partition-tolerant blockchain for theinternet-of-things,” in2018 IEEE 38th International Conference on Dis-tributed Computing Systems (ICDCS). IEEE, 2018, pp. 1150–1158
  34. Y. Lu, Q. Tang, and G. Wang, “Zebralancer: Private and anonymouscrowdsourcing system atop open blockchain,” in2018 IEEE 38th Inter-national Conference on Distributed Computing Systems (ICDCS). IEEE,2018, pp. 853–865
  35. Z. Wu, A. Williams, and D. Perouli, “Dependable public ledger for pol-icy compliance, a blockchain based approach,” in39th IEEE InternationalConference on Distributed Computing Systems (ICDCS 2019), 2019.
  36. R. Tahir, S. Durrani, F. Ahmed, H. Saeed, F. Zaffar, and S. Ilyas, “Thebrowsers strike back: Countering cryptojacking and parasitic miners on theweb,” inIEEE INFOCOM 2019-IEEE Conference on Computer Commu-nications. IEEE, 2019, pp. 703–711.
  37. S. Wang, C. Wang, and Q. Hu, “Corking by forking: Vulnerability analysisof blockchain,” inIEEE INFOCOM 2019-IEEE Conference on ComputerCommunications. IEEE, 2019, pp. 829–837.
  38. W. Chen, J. Wu, Z. Zheng, C. Chen, and Y. Zhou, “Market manipulation ofbitcoin: Evidence from mining the mt. gox transaction network,” inIEEEINFOCOM 2019-IEEE Conference on Computer Communications. IEEE,2019, pp. 964–972
  39. N. Papadis, S. Borst, A. Walid, M. Grissa, and L. Tassiulas, “Stochas-tic models and wide-area network measurements for blockchain design andanalysis,” inIEEE INFOCOM 2018-IEEE Conference on Computer Com-munications. IEEE, 2018, pp. 2546–2554
  40. T. Chen, Y. Zhu, Z. Li, J. Chen, X. Li, X. Luo, X. Lin, and X. Zhange,“Understanding ethereum via graph analysis,” inIEEE INFOCOM 2018-IEEE Conference on Computer Communications. IEEE, 2018, pp. 1484–1492
  41. Z. Zheng, S. Xie, H.-N. Dai, X. Chen, and H. Wang, “Blockchain chal-lenges and opportunities: A survey,”International Journal of Web andGrid Services, vol. 14, no. 4, pp. 352–375, 2018
  42. K. W ̈ust and A. Gervais, “Do you need a blockchain?” in2018 CryptoValley Conference on Blockchain Technology (CVCBT). IEEE, 2018, pp.45–54
  43. J. Wang and H. Wang, “Monoxide: Scale out blockchains with asyn-chronous consensus zones,” in16th{USENIX}Symposium on NetworkedSystems Design and Implementation ({NSDI}19), 2019, pp. 95–112
  44. B. David, P. Gaˇzi, A. Kiayias, and A. Russell, “Ouroboros praos: Anadaptively-secure, semi-synchronous proof-of-stake blockchain,” inAnnualInternational Conference on the Theory and Applications of CryptographicTechniques. Springer, 2018, pp. 66–98.
  45. Z. Shae and J. Tsai, “Transform blockchain into distributed parallel com-puting architecture for precision medicine,” in2018 IEEE 38th Interna-tional Conference on Distributed Computing Systems (ICDCS).IEEE,2018, pp. 1290–1299.
  46. N. C. Luong, T. T. Anh, H. T. T. Binh, D. Niyato, D. I. Kim, and Y.-C.Liang, “Joint transaction transmission and channel selection in cognitiveradio based blockchain networks: A deep reinforcement learning approach,”inICASSP 2019-2019 IEEE International Conference on Acoustics, Speechand Signal Processing (ICASSP). IEEE, 2019, pp. 8409–8413.
  47. Y. Dai, D. Xu, S. Maharjan, Z. Chen, Q. He, and Y. Zhang, “Blockchainand deep reinforcement learning empowered intelligent 5g beyond,”IEEENetwork, vol. 33, no. 3, pp. 10–17, 2019
  48. D. C. Nguyen, P. N. Pathirana, M. Ding, and A. Seneviratne, “Privacy-preserved task offloading in mobile blockchain with deep reinforcementlearning,”arXiv preprint arXiv:1908.07467, 2019.
  49. X. Qiu, L. Liu, W. Chen, Z. Hong, and Z. Zheng, “Online deep reinforce-ment learning for computation offloading in blockchain-empowered mobileedge computing,”IEEE Transactions on Vehicular Technology, 2019.
  50. N. C. Luong, Z. Xiong, P. Wang, and D. Niyato, “Optimal auction for edgecomputing resource management in mobile blockchain networks: A deeplearning approach,” in2018 IEEE International Conference on Communi-cations (ICC). IEEE, 2018, pp. 1–6.
  51. T.-T. Kuo and L. Ohno-Machado, “Modelchain: Decentralized privacy-preserving healthcare predictive modeling framework on private blockchainnetworks,”arXiv preprint arXiv:1802.01746, 2018.
  52. Z. Ning, P. Dong, X. Wang, J. Rodrigues, and F. Xia, “Deep reinforcementlearning for vehicular edge computing: An intelligent offloading system,”ACM Trans. Intell. Syst. Technol., vol. 1, no. 1, 2019
  53. K. Gai, Y. Wu, L. Zhu, L. Xu, and Y. Zhang, “Permissioned blockchainand edge computing empowered privacy-preserving smart grid networks,”IEEE Internet of Things Journal, 2019.
  54. M. Liu, F. R. Yu, Y. Teng, V. C. Leung, and M. Song, “Deep reinforce-ment learning (drl)-based transcoder selection for blockchain-enabled videostreaming,” in2018 IEEE Globecom Workshops (GC Wkshps).IEEE,2018, pp. 1–6.
  55. C. Qiu, H. Yao, C. Jiang, S. Guo, and F. Xu, “Cloud computing assistedblockchain-enabled internet of things,”IEEE Transactions on Cloud Com-puting, 2019.
  56. H. Yao, T. Mai, J. Wang, Z. Ji, C. Jiang, and Y. Qian, “Resource tradingin blockchain-based industrial internet of things,”IEEE Transactions onIndustrial Informatics, 2019
  57. A. Baldominos and Y. Saez, “Coin. ai:A proof-of-useful-workscheme for blockchain-based distributed deep learning,”arXiv preprintarXiv:1903.09800, 2019
  58. Z. A. El Houda, L. Khoukhi, and A. Hafid, “Chainsecure-a scalable andproactive solution for protecting blockchain applications using sdn,” in2018IEEE Global Communications Conference (GLOBECOM).IEEE, 2018,pp. 1–6
  59. S. R. Basnet and S. Shakya, “Bss: Blockchain security over software de-fined network,” in2017 International Conference on Computing, Commu-nication and Automation (ICCCA). IEEE, 2017, pp. 720–725.
  60. K. Kataoka, S. Gangwar, and P. Podili, “Trust list: Internet-wide anddistributed iot traffic management using blockchain and sdn,” in2018 IEEE4th World Forum on Internet of Things (WF-IoT). IEEE, 2018, pp. 296–301.
  61. P. K. Sharma and J. H. Park, “Blockchain based hybrid network architec-ture for the smart city,”Future Generation Computer Systems, vol. 86, pp.650–655, 2018
  62. P. K. Sharma, M.-Y. Chen, and J. H. Park, “A software defined fognode based distributed blockchain cloud architecture for iot,”IEEE Ac-cess, vol. 6, pp. 115–124, 2017.
  63. C. Tselios, I. Politis, and S. Kotsopoulos, “Enhancing sdn security for iot-related deployments through blockchain,” in2017 IEEE Conference onNetwork Function Virtualization and Software Defined Networks (NFV-SDN). IEEE, 2017, pp. 303–308.
  64. L. Xie, Y. Ding, H. Yang, and X. Wang, “Blockchain-based secure andtrustworthy internet of things in sdn-enabled 5g-vanets,”IEEE Access,vol. 7, pp. 56 656–56 666, 2019
  65. W. Hou, Z. Ning, L. Guo, and P. Guo, “Sdn-based optimizing solutions formultipath data transmission supporting consortium blockchains,” in2018International Conference on Computer, Information and Telecommunica-tion Systems (CITS). IEEE, 2018, pp. 1–5
  66. Q. Shafi and A. Basit, “Ddos botnet prevention using blockchain in softwaredefined internet of things,” in2019 16th International Bhurban Conferenceon Applied Sciences and Technology (IBCAST). IEEE, 2019, pp. 624–628
  67. C. Xue, N. Xu, and Y. Bo, “Research on key technologies of software-defined network based on blockchain,” in2019 IEEE International Confer-ence on Service-Oriented System Engineering (SOSE).IEEE, 2019, pp.239–2394
  68. A. Muthanna, A. A Ateya, A. Khakimov, I. Gudkova, A. Abuarqoub,K. Samouylov, and A. Koucheryavy, “Secure and reliable iot networks usingfog computing with software-defined networking and blockchain,”Journalof Sensor and Actuator Networks, vol. 8, no. 1, p. 15, 2019.
  69. P. Fernando and J. Wei, “Blockchain-powered software defined network-enabled networking infrastructure for cloud management,”arXiv preprintarXiv:1909.01851, 2019
  70. W. Jiasi, W. Jian, L. Jia-Nan, and Z. Yue, “Secure software-defined net-working based on blockchain,”arXiv preprint arXiv:1906.04342, 2019
  71. A. Jindal, G. S. Aujla, and N. Kumar, “Survivor: A blockchain based edge-as-a-service framework for secure energy trading in sdn-enabled vehicle-to-grid environment,”Computer Networks, vol. 153, pp. 36–48, 2019.
  72. A. Yazdinejad, R. M. Parizi, A. Dehghantanha, and K.-K. R. Choo, “P4-to-blockchain: A secure blockchain-enabled packet parser for software definednetworking,”Computers & Security, p. 101629, 2019
  73. M. Pourvahab and G. Ekbatanifard, “An efficient forensics architecturein software-defined networking-iot using blockchain technology,”IEEE Ac-cess, vol. 7, pp. 99 573–99 588, 2019
  74. R. Chaudhary, A. Jindal, G. S. Aujla, S. Aggarwal, N. Kumar, and K.-K. R. Choo, “Best: Blockchain-based secure energy trading in sdn-enabledintelligent transportation system,”Computers & Security, vol. 85, pp. 288–299, 2019
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