AbstractTwo fundamental considerations in the design of a communications network are reliability and maximum transmission delay, which can be respectively measured by the connectivity and diameter of a graph representing the network. A d-connected digraph (directed graph) is constructed, which has a minimum number of edges and the diameter is at most one larger than the lower bound for any d and any number of nodes n > d3. It improves upon previous designs, which achieve maximum connectivity with a diameter twice as large as the lower bound
We answer the following question: what is the minimum number of edges of a 2-connected graph with a ...
The restricted edge-connectivity of a graph is an important parameter to measure fault-tolerance of ...
AbstractIncreasingly, the design of efficient computer networks and multi-processor configurations a...
AbstractTwo fundamental considerations in the design of a communications network are reliability and...
AbstractFor designing reliable and efficient communications networks, the problem of constructing a ...
The following problem arises in the design of some interconnection networks for distributed systems....
A communication network can be modelled as a graph or a directed graph, where each processing elemen...
AbstractA connected digraph is said to be superconnected if it is maximally connected and every mini...
AbstractSuper-λ is a more refined network reliability index than edge-connectivity. A graph is super...
We develop a combinatorial polynomial-time algorithm to make a (k−1)-connected digraph k-connected b...
AbstractWe develop a combinatorial polynomial-time algorithm to make a (k−1)-connected digraph k-con...
AbstractRecently, some sufficient conditions for a digraph to have maximum connectivity or high supe...
We usually use a digraph to represent a wireless network (WN). Correspondingly, a connected dominati...
AbstractWe answer the following question: what is the minimum number of edges of a 2-connected graph...
AbstractLet G=(V,E) be a digraph with diameter D≠1. For a given integer 1⩽t⩽D, the t-distance connec...
We answer the following question: what is the minimum number of edges of a 2-connected graph with a ...
The restricted edge-connectivity of a graph is an important parameter to measure fault-tolerance of ...
AbstractIncreasingly, the design of efficient computer networks and multi-processor configurations a...
AbstractTwo fundamental considerations in the design of a communications network are reliability and...
AbstractFor designing reliable and efficient communications networks, the problem of constructing a ...
The following problem arises in the design of some interconnection networks for distributed systems....
A communication network can be modelled as a graph or a directed graph, where each processing elemen...
AbstractA connected digraph is said to be superconnected if it is maximally connected and every mini...
AbstractSuper-λ is a more refined network reliability index than edge-connectivity. A graph is super...
We develop a combinatorial polynomial-time algorithm to make a (k−1)-connected digraph k-connected b...
AbstractWe develop a combinatorial polynomial-time algorithm to make a (k−1)-connected digraph k-con...
AbstractRecently, some sufficient conditions for a digraph to have maximum connectivity or high supe...
We usually use a digraph to represent a wireless network (WN). Correspondingly, a connected dominati...
AbstractWe answer the following question: what is the minimum number of edges of a 2-connected graph...
AbstractLet G=(V,E) be a digraph with diameter D≠1. For a given integer 1⩽t⩽D, the t-distance connec...
We answer the following question: what is the minimum number of edges of a 2-connected graph with a ...
The restricted edge-connectivity of a graph is an important parameter to measure fault-tolerance of ...
AbstractIncreasingly, the design of efficient computer networks and multi-processor configurations a...