2976                                 Journal of Software  软件学报 Vol.32, No.9,  September 2021

         [20]    Zhang G, Wang X, Gao Q, et al, A hybrid ICN cache coordination scheme based on role division between cache nodes. In: Proc. of
             the 2015 IEEE Global Communications Conf. (GLOBECOM). San Diego: IEEE, 2015. 1−6.
         [21]    Yu M, Li R. Dynamic popularity-based caching permission strategy for named data networking. In: Proc. of the 2018 IEEE 22nd
             Int’l Conf. on Computer Supported Cooperative Work in Design (CSCWD). Nanjing: IEEE, 2018. 576−581.
         [22]    Yovita LV, Syambas NR., Matheus Edward IY. CAPIC: Cache based on popularity and class in named data network. In: Proc. of
             the 2018 Int’l Conf. on Control, Electronics, Renewable Energy and Communications (ICCEREC). Bandung: IEEE, 2018. 24−29.
         [23]    Yu M, Li R, Liu Y, et al. A caching strategy based on content popularity and router level for NDN. In: Proc. of the 2017 7th IEEE
             Int’l Conf. on Electronics Information and Emergency Communication (ICEIEC). Macau: IEEE, 2017. 195−198.
         [24]    Li Y, Xie H, Wen Y, et al. Coordinating in-network caching in content-centric networks: Model and analysis. In: Proc. of the 2013
             IEEE 33rd Int’l Conf. on Distributed Computing Systems. Philadelphia: IEEE, 2013. 62−72.
         [25]    Chang CY, Chang MS. A hybrid coordination approach of in-network caching for named data networking. Int’l Journal of Future
             Generation Communication and Networking, 2016,9(4):285−300.
         [26]    Fayazbakhsh SK, Lin Y, Tootoonchian A, et al.  Less  pain,  most of  the  gain: Incrementally deployable ICN. Proc. of the  ACM
             SIGCOMM Computer Communication Review, 2013,43(4):147−158.
         [27]    Wang Y, Li Z, Tyson G, et al. Optimal cache allocation for content-centric networking. In: Proc. of the 2013 21st IEEE Int’l Conf.
             on Network Protocols (ICNP). Piscataway: IEEE, 2013. 1−10.
         [28]    Chiocchetti  R, Rossi D,  Rossini  G.  CCNSIM: An highly scalable  ccn  simulator.  In: Proc. of the 2013 IEEE Int’l Conf. on
             Communications (ICC). Piscataway: IEEE, 2013. 2309−2314.
         [29]    http://www.topology-zoo.org/maps/IowaStatewideFiberMap.jpg

         附中文参考文献:
         [1]  王兴伟,李婕,谭振华,马连博,李福亮,黄敏.面向“互联网+”的网络技术发展现状与未来趋势.计算机研究与发展,2016,53(4):
             729−741.


                       刘嘉琦(1995－),男,硕士生,主要研究领域                      孟绪颖(1992－),女,博士,助理研究员,CCF
                       为计算机网络.                                      学生会员,主要研究领域为智能网络.




                       张亚文(1997－),女,硕士生,主要研究领域                      周继华(1979－),男,博士,研究员,博士生
                       为计算机网络.                                      导师,主要研究领域为无线通信,移动网
                                                                    络,4G,5G,特种通信.



                       张瀚文(1981－),女,博士,副研究员,CCF                     张玉军(1976－),男,博士,研究员,博士生
                       高级会员,主要研究领域为计算机网络体                           导师,CCF 高级会员,主要研究领域为计算
                       系结构.                                         机网络.