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Quantifying network heterogeneity
Physical Review E, 2010Despite degree distributions give some insights about how heterogeneous a network is, they fail in giving a unique quantitative characterization of network heterogeneity. This is particularly the case when several different distributions fit for the same network, when the number of data points is very scarce due to network size, or when we have to ...
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Modeling heterogeneous network interference
2012 Information Theory and Applications Workshop, 2012Cellular systems are becoming more heterogeneous with the introduction of low power nodes including femtocells, relays, and distributed antennas. Unfortunately, the resulting interference environment is also becoming more complex, making evaluation of different communication strategies for cellular systems more challenging in both analysis and ...
Heath, R.W., Kountouris, Marios
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IEEE Multimedia, 1997
The projects described in this article all deal with network heterogeneity in the context of distributing multimedia information via multicast transmission. Multicasting significantly improves the efficiency of network resource use in situations involving one-to-many or many-to-many communication.
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The projects described in this article all deal with network heterogeneity in the context of distributing multimedia information via multicast transmission. Multicasting significantly improves the efficiency of network resource use in situations involving one-to-many or many-to-many communication.
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Dynamics of heterogeneous polymer networks
Physical Review E, 1994This paper discusses the effect of heterogeneities in cross-link density on network dynamics. The dynamic effects of such networks are studied in two limits, i.e., at short times and at long times. It is shown that heterogeneities in cross-link density alter the chain dynamics strongly.
Vilgis, T., Heinrich, G.
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Heterogeneous multicast in heterogeneous QoS networks
Proceedings. Ninth IEEE International Conference on Networks, ICON 2001., 2005Supporting heterogeneous receivers in a multicast group is of particular importance in large internetworks as, e.g., the Internet, due to the large diversity of end-system and network access capabilities. Furthermore, it is the nature of large-scale internetworks which makes homogeneous quality of service (QoS) support unrealistic at least for the ...
J. Schmitt +3 more
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Heterogeneous Wireless Networks
2017This chapter first presents a heterogeneous wireless network which consists of WLANs and cellular macro cell and hyper-dense small cell networks. Second, it describes the scenarios where D2D communication and interworking among these networks can be applied. Each of these scenarios are investigated in detail in the following chapters. Third, achievable
Amila Tharaperiya Gamage, Xuemin Shen
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Heterogeneous Cellular Networks
2013This detailed, up-to-date introduction to heterogeneous cellular networking introduces its characteristic features, the technology underpinning it and the issues surrounding its use. Comprehensive and in-depth coverage of core topics catalogue the most advanced, innovative technologies used in designing and deploying heterogeneous cellular networks ...
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2018
The workshop FutureHetNets 2011 on "Highly Controllable Dynamic Heterogeneous Networking" was held on March 24--25, 2011 at NASA Ames Research Center in Mountain View, California. It was sponsored by the Large Scale Networking Coordinating Group (LSN) of the Networking and Information Technology Research and Development (NITRD) interagency community ...
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The workshop FutureHetNets 2011 on "Highly Controllable Dynamic Heterogeneous Networking" was held on March 24--25, 2011 at NASA Ames Research Center in Mountain View, California. It was sponsored by the Large Scale Networking Coordinating Group (LSN) of the Networking and Information Technology Research and Development (NITRD) interagency community ...
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This chapter focuses on heterogeneous network design in dynamic covalent polymer networks (especially rubbers). The design, performance, and mechanisms of heterogeneous networks from the perspectives of inhomogeneous crosslinking and hybrid multi-networks are briefly reviewed.
Shuangjian Yu, Baochun Guo
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Shuangjian Yu, Baochun Guo
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