The isomorphism problem involves judging whether two graphs are topologically the same and producing structure-preserving isomorphism mapping. It is widely used in various areas. Diverse algorithms have been proposed to solve this problem in polynomial time, with the help of quantum walks. Some of these algorithms, however, fail to find the isomorphism mapping. Moreover, most algorithms have very limited performance on regular graphs which are generally difficult to deal with due to their symmetry. We propose IsoMarking to discover an isomorphism mapping effectively, based on the quantum walk which is sensitive to topological structures. Firstly, IsoMarking marks vertices so that it can reduce the harmful influence of symmetry. Secondly, Is...
In this paper we propose a quantum algorithm to measure the similarity between a pair of unattribute...
We propose a novel variational method for solving the sub-graph isomorphism problem on a gate-based ...
We introduce the (G,H)-isomorphism game, a new two-player non-local game that classical players can ...
Graph isomorphism being an NP problem, most of the systems that solves the graph isomorphism are con...
We present a quantum algorithm for solving graph isomorphism problems that is based on an adiabatic ...
We present a quantum algorithm for solving graph isomorphism problems that is based on an adiabatic ...
We consider an approach to deciding isomorphism of rigid n-vertex graphs (and related isomorphism pr...
We consider an approach to deciding isomorphism of rigid n-vertex graphs (and related isomorphism pr...
Three graph invariants are introduced which may be measured from a quantum graph state and form exam...
We introduce a nonlocal game that captures and extends the notion of graph isomorphism. This game ca...
We introduce a nonlocal game that captures and extends the notion of graph isomorphism. This game ca...
This thesis considers the use of the quantum walk for graph-based pattern recognition tasks. The mai...
Thesis (Ph.D.)--University of Washington, 2015In this thesis, we study quantum computation and algor...
We consider the problem of measuring the similarity between two graphs using continuous-time quantum...
We introduce a connection between a near-term quantum computing device, specifically a Gaussian boso...
In this paper we propose a quantum algorithm to measure the similarity between a pair of unattribute...
We propose a novel variational method for solving the sub-graph isomorphism problem on a gate-based ...
We introduce the (G,H)-isomorphism game, a new two-player non-local game that classical players can ...
Graph isomorphism being an NP problem, most of the systems that solves the graph isomorphism are con...
We present a quantum algorithm for solving graph isomorphism problems that is based on an adiabatic ...
We present a quantum algorithm for solving graph isomorphism problems that is based on an adiabatic ...
We consider an approach to deciding isomorphism of rigid n-vertex graphs (and related isomorphism pr...
We consider an approach to deciding isomorphism of rigid n-vertex graphs (and related isomorphism pr...
Three graph invariants are introduced which may be measured from a quantum graph state and form exam...
We introduce a nonlocal game that captures and extends the notion of graph isomorphism. This game ca...
We introduce a nonlocal game that captures and extends the notion of graph isomorphism. This game ca...
This thesis considers the use of the quantum walk for graph-based pattern recognition tasks. The mai...
Thesis (Ph.D.)--University of Washington, 2015In this thesis, we study quantum computation and algor...
We consider the problem of measuring the similarity between two graphs using continuous-time quantum...
We introduce a connection between a near-term quantum computing device, specifically a Gaussian boso...
In this paper we propose a quantum algorithm to measure the similarity between a pair of unattribute...
We propose a novel variational method for solving the sub-graph isomorphism problem on a gate-based ...
We introduce the (G,H)-isomorphism game, a new two-player non-local game that classical players can ...