8 citations found. Retrieving documents...
S. Jin and A. Bestavros, "Small-world Internet topologies: Possible causes and implications on scalability of end-system multicast," Tech. Rep. BUCS-2002-004, Boston University, 2002.

 Home/Search   Document Details and Download   Summary   Related Articles   Check  

This paper is cited in the following contexts:
An Empirical Study of Routing Bias in Variable-Degree Networks - Shudong Jin Department   Self-citation (Jin Bestavros)   (Correct)

No context found.

S. Jin and A. Bestavros, "Small-world Internet topologies: Possible causes and implications on scalability of end-system multicast," Tech. Rep. BUCS-2002-004, Boston University, 2002.

Unknown - Scalable Delivery Of   Self-citation (Jin Bestavros)   (Correct)

No context found.

S. Jin and A. Bestavros. Small-world internet topologies: Possible causes and implications on scalability of end-system multicast. Technical Report BUCS-2002-004, Boston University, 2002.

OSMOSIS: Scalable Delivery of Real-Time Streaming Media in.. - Bestavros, Jin (2003)   Self-citation (Jin Bestavros)   (Correct)

....vertices. A random power law degree network with 120,037 vertices generated using the model in [1] namely, the probability of having node degree larger than d is proportional to d # (we set # =2. 5) A small world network with power law degree distribution, generated using the model in [18]. The network has 120,000 vertices. The resulting topology is different from random power law degree networks as it features a large clustering coefficient. In generating this network, we not only used power law vertex degree with # =2.5, but also considered the physical distance of the vertices ....

....with # =2.5, but also considered the physical distance of the vertices in creating edges. A router level Internet map (Lucent) available from [23] This map has 112,269 vertices and it less strictly follows a power law degree distribution. In addition, it has a high clustering coefficient [18]. We have found that our smallworld network is the closest to this real Internet in terms of average path length and clustering coefficient. Network Link Cost Validation: Our simulation proceeds as follows. Client arrivals are Poisson, with each client residing at a random node of the simulated ....

[Article contains additional citation context not shown here]

S. Jin and A. Bestavros. Small-world internet topologies: Possible causes and implications on scalability of end-system multicast. Technical Report BUCS-2002-004, Boston University, 2002.

Cache-and-Relay Streaming Media Delivery for Asynchronous.. - Jin, Bestavros (2002)   (8 citations)  Self-citation (Jin Bestavros)   (Correct)

....vertices. A random power law degree network with 120,037 vertices generated using the model in [2] namely, the probability of having node degree larger than d is proportional to d # (we set # = 2. 5) A small world network with power law degree distribution, generated using the model in [21]. The network has 120,000 vertices. The resulting topology is different from random power law degree networks as it features a large clustering coefficient. In generating this network, we not only used power law vertex degree with # = 2.5, but also considered the physical distance of the vertices ....

....with # = 2.5, but also considered the physical distance of the vertices in creating edges. A router level Internet map (Lucent) available from [29] This map has 112,269 vertices and it less strictly follows a powerlaw degree distribution. In addition, it has a high clustering coefficient [21]. We have found that our small world network is the closest to this real Internet in terms of average path length and clustering coefficient. 4.2 Network Link Cost Validation Our simulation proceeds as follows. Client arrivals are Poisson, with each client residing at a random node of the ....

[Article contains additional citation context not shown here]

S. Jin and A. Bestavros. Small-world internet topologies: Possible causes and implications on scalability of end-system multicast. Technical Report BUCS-2002-004, Boston University, 2002.

Describing and Simulating Internet Routes - Leguay, Friedman, Salamatian (2005)   (Correct)

No context found.

S. Jin and A. Bestavros. Small-world internet topologies: Possible causes and implications on scalability of end-system multicast. Tech. Report BUCS-2002-004, Boston Univ. Computer Sci., 2002.

Analysis of the Internet topology - Leguay (2004)   (Correct)

No context found.

S. Jin and A. Bestavros. Small-world internet topologies: Possible causes and implications on scalability of end-system multicast. Technical Report BUCS-2002-004, Boston University, 2002.

Characterizing Overlay Multicast Networks and - Their Costs Sonia   (Correct)

No context found.

S. Jin and A. Bestavros, "Small-World Internet Topologies: Possible Causes and Implications on Scalability of End-System Multicast," Tech. Rep. BUCS-TR-2002-004, Boston University, 2002.

Characterizing Overlay Multicast Networks - Sonia Fahmy And (2003)   (2 citations)  (Correct)

No context found.

S. Jin and A. Bestavros. Small-World Internet Topologies: Possible Causes and Implications on Scalability of EndSystem Multicast. Technical Report BUCS-TR-2002-004, Boston University, 2002.

Online articles have much greater impact   More about CiteSeer.IST   Add search form to your site   Submit documents   Feedback  

CiteSeer.IST - Copyright Penn State and NEC