AbstractThe average time needed to form unions of disjoint equivalence classes, using an algorithm suggested by Aho, Hopcroft, and Ullman, is shown to be linear in the total number of elements, thereby establishing a conjecture of Yao. The analytic methods used to prove this result are of interest in themselves, as they are based on extensions of Stepanov's approach to the study of random graphs. Several refinements of Yao's analyses of related algorithms are also presented
AbstractJ. Hopcroft introduced already in 1970 an O(nlogn)-time algorithm for minimizing a finite de...
[50] R. E. Tarjan, "A class of algorithms which require nonlinear time to maintain disjoint...
Abstract. Many real-world problems require graphs of such large size that polynomial time algorithms...
AbstractThe average time needed to form unions of disjoint equivalence classes, using an algorithm s...
AbstractUsing predicate logic, the concept of a linear problem is formalized. The class of linear pr...
Consider two types of instructions for manipulating disjoint sets. FIND(x) computes the name of the ...
In 2000, T. Uno and M. Yagiura published an algorithm that computes all the K common intervals of tw...
© 2017 IEEE. A classical difficult isomorphism testing problem is to test isomorphism of p-groups of...
Given an associative system in which each word is assigned a cost and in which an equivalence relati...
AbstractThis paper outlines the results and motivation of the paper [1], in which we showed, in a un...
This paper addresses the time complexity of several queries (including membership and isomorphism) i...
Diaconis, Graham and Holmes [8] studied the statistical applications of counting and sampling perfec...
AbstractThis paper presents a linear-time algorithm for the special case of the disjoint set union p...
The theory of random graphs has been mainly concerned with structural properties, in particular the ...
Holonomic equations are recursive equations which allow computing efficiently numbers of combinatori...
AbstractJ. Hopcroft introduced already in 1970 an O(nlogn)-time algorithm for minimizing a finite de...
[50] R. E. Tarjan, "A class of algorithms which require nonlinear time to maintain disjoint...
Abstract. Many real-world problems require graphs of such large size that polynomial time algorithms...
AbstractThe average time needed to form unions of disjoint equivalence classes, using an algorithm s...
AbstractUsing predicate logic, the concept of a linear problem is formalized. The class of linear pr...
Consider two types of instructions for manipulating disjoint sets. FIND(x) computes the name of the ...
In 2000, T. Uno and M. Yagiura published an algorithm that computes all the K common intervals of tw...
© 2017 IEEE. A classical difficult isomorphism testing problem is to test isomorphism of p-groups of...
Given an associative system in which each word is assigned a cost and in which an equivalence relati...
AbstractThis paper outlines the results and motivation of the paper [1], in which we showed, in a un...
This paper addresses the time complexity of several queries (including membership and isomorphism) i...
Diaconis, Graham and Holmes [8] studied the statistical applications of counting and sampling perfec...
AbstractThis paper presents a linear-time algorithm for the special case of the disjoint set union p...
The theory of random graphs has been mainly concerned with structural properties, in particular the ...
Holonomic equations are recursive equations which allow computing efficiently numbers of combinatori...
AbstractJ. Hopcroft introduced already in 1970 an O(nlogn)-time algorithm for minimizing a finite de...
[50] R. E. Tarjan, "A class of algorithms which require nonlinear time to maintain disjoint...
Abstract. Many real-world problems require graphs of such large size that polynomial time algorithms...
DOI
Add to ORKG