Results 291 to 300 of about 577,646 (335)
Some of the next articles are maybe not open access.
2002
The present invention provides a method for optimization of the configuration of a hierarchical network having a first hierarchy level (LEVEL(j-1)), a second hierarchy level (LEVEL(j)) next below the first level, and a third hierarchy level (LEVEL(j+1)) next below the second level, each level comprising nodes (RNC's, HUB's, RBS's) each of which, in ...
ERICSSON TELEFON AB L M +3 more
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The present invention provides a method for optimization of the configuration of a hierarchical network having a first hierarchy level (LEVEL(j-1)), a second hierarchy level (LEVEL(j)) next below the first level, and a third hierarchy level (LEVEL(j+1)) next below the second level, each level comprising nodes (RNC's, HUB's, RBS's) each of which, in ...
ERICSSON TELEFON AB L M +3 more
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2014
Network graphs are constructed in all sorts of ways and to varying levels of completeness. In some settings, there is little if any uncertainty in assessing whether or not an edge exists between two vertices and we can exhaustively assess incidence between vertex pairs.
Eric D. Kolaczyk, Gábor Csárdi
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Network graphs are constructed in all sorts of ways and to varying levels of completeness. In some settings, there is little if any uncertainty in assessing whether or not an edge exists between two vertices and we can exhaustively assess incidence between vertex pairs.
Eric D. Kolaczyk, Gábor Csárdi
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ACM SIGCOMM Computer Communication Review, 2002
Following the long-held belief that the Internet is hierarchical, the network topology generators most widely used by the Internet research community, Transit-Stub and Tiers, create networks with a deliberately hierarchical structure. However, in 1999 a seminal paper by Faloutsos et al.
Hongsuda Tangmunarunkit +4 more
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Following the long-held belief that the Internet is hierarchical, the network topology generators most widely used by the Internet research community, Transit-Stub and Tiers, create networks with a deliberately hierarchical structure. However, in 1999 a seminal paper by Faloutsos et al.
Hongsuda Tangmunarunkit +4 more
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Network Topologies and Network Interconnections
2001LonTalk supports a variety of network topologies by using different transceiver types and network interconnections. The goal of this chapter is to demonstrate the possibilities and methods at that topic. Corresponding to the LAN terminology the terms repeater, bridge, router and gateway are explained and their applicability to LonTalk is represented.
Dietmar Loy +2 more
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IRE Transactions on Circuit Theory, 1959
The 0- and 1-cell elements of topology are identified with a single terminal-pair and a two-terminal-pair transmission network, rather than with a single-terminal (or node) and a one-terminal-pair (or branch), respectively, in order to facilitate topological consideration of unilateral transmission networks, as typified by the triode valve. It is shown
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The 0- and 1-cell elements of topology are identified with a single terminal-pair and a two-terminal-pair transmission network, rather than with a single-terminal (or node) and a one-terminal-pair (or branch), respectively, in order to facilitate topological consideration of unilateral transmission networks, as typified by the triode valve. It is shown
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2019
Networks such as road networks, utility networks, computer and communication networks and even social networks are the backbone of human civilization. Network analysis enables quantitative measurement of the important criteria suchas delays, ease of routing and fault tolerance, and is required to build efficient and robust networks.
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Networks such as road networks, utility networks, computer and communication networks and even social networks are the backbone of human civilization. Network analysis enables quantitative measurement of the important criteria suchas delays, ease of routing and fault tolerance, and is required to build efficient and robust networks.
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Exceptional topology of non-Hermitian systems
Reviews of Modern Physics, 2021Emil J Bergholtz +2 more
exaly
1999
This chapter describes the basic features of network topology processors (NTP), both conventional and generalized. A number of EMS functions use network connectivity information produced by NTPs, although here the main interest is in state estimation. What makes the state estimation application different from other network applications is that not only
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This chapter describes the basic features of network topology processors (NTP), both conventional and generalized. A number of EMS functions use network connectivity information produced by NTPs, although here the main interest is in state estimation. What makes the state estimation application different from other network applications is that not only
openaire +1 more source