［1］Coates M, Hero A, Nowak R, et al. Internet Tomography［J］. IEEE Signal Process Mag, 2002,19(3): 47-65.
［2］Coatro R, Coates M, Liang G, et al. Network Tomography: Recent Developments［J］. Statistical Science, 2004, 19(3): 499-517.
［3］Coates M, Nowak R. Network Loss Inference Using Unicast End-to-end Measurement［C］//ITC Conf on IP Traffic, Modelling and Management. Monterey: Monterey: TTC Conf on Traffic, Modelling and Mangement, 2000: 1281-1289.
［4］Meng-Fu S, Alfred O. Unicast-based Inference of Network Link Delay Distributions with Finite Mixture Models［J］. IEEE Trans on Signal Processing, 2003(51): 2219-2228.
［5］Ratnasamy S, Mccanne S. Inference of Multicast Routing Trees and Bottleneck Bandwidths Using Eend-to-endmeasurements［C］//IEEE INFOCOM. New York: IEEE, 1999: 1353-1360.
［6］Coates M, Castro R, Nowak R. Maximum Likelihood Network Topology Identification from Edge-based Unicast Measurements［C］//ACM Sigmetric. Marina Del Rey: ACM Sigmetric, 2002: 1015-1023.
［7］Castro R, Coates M, Nowak R. Likelihood Based Hierarchical Clustering［J］. IEEE Trans on Signal Processing, 2004, 52(8): 2308-2321.
［8］Meng-Fu S, Alfred O. Topology Discovery on Unicast Networks: a Hierarchical Approach Based on End-to-End Measurements［J/OL］. ［2006-12-15］. http://www.eecs.umich.edu/~msim/Publications/cspl-357.ps.pdf.
［9］Duffield N, Horowitz J, Presti F, et al. Multicast Topology Inference from End-to-end Measurements［C］//ITC Seminar on IP Traffic, Measurement and Modelling. Monterey: TTC Conf on Traffic, Modelling and Mangement, 2000: 2384-2394.
［10］Nsnam Sourceforge Project. The Network Simulator 2 ［EB/OL］. ［2007-12-25］. http://nsnam.isi.edu/nsnam/.