Finding Longest (s, t)-paths of O-shaped Supergrid Graphs in Linear Time

Abstract: In this paper, we continue the study of the Hamiltonian and longest (s, t)-paths of supergrid graphs. The Hamiltonian (s, t)-path of a graph is a Hamiltonian path between any two given vertices s and t in the graph, and the longest (s, t)-path is a simple path with the maximum number of vertices from s to t in the graph. A graph holds Hamiltonian connected property if it contains a Hamiltonian (s, t)-path. These two problems are well-known NP-complete for general supergrid graphs. An O-shaped supergrid graph i… Show more

“…This paper proposes a linear-time algorithm to solve the longest (s, t)-path problem on O-shaped supergrid graphs, which are a subclass of hollow supergrid graphs. A preliminary version of this paper has appeared in [11], and a preprint version of the paper has been posted on the arXiv system [12], an open platform for scholarly research exchange. The related research works are introduced as follows: Recently, Hamiltonian path (cycle) and Hamiltonianconnected problems for grid, triangular grid, and supergrid graphs have received much attention.…”

“…The Hamiltonian connectivity of O-shaped supergrid graphs can also be applied to compute the minimum trace of 3D printers as follows [11]: Let us consider a 3D printer with a hollow object (O-type object) being printed. The software produces a series of thin layers, designs a path for each layer, combines these paths of produced layers, and transmits the above paths to the 3D printer.…”

The Longest (s, t)-Path Problem on O-Shaped Supergrid Graphs

“…This paper proposes a linear-time algorithm to solve the longest (s, t)-path problem on O-shaped supergrid graphs, which are a subclass of hollow supergrid graphs. A preliminary version of this paper has appeared in [11], and a preprint version of the paper has been posted on the arXiv system [12], an open platform for scholarly research exchange. The related research works are introduced as follows: Recently, Hamiltonian path (cycle) and Hamiltonianconnected problems for grid, triangular grid, and supergrid graphs have received much attention.…”

“…The Hamiltonian connectivity of O-shaped supergrid graphs can also be applied to compute the minimum trace of 3D printers as follows [11]: Let us consider a 3D printer with a hollow object (O-type object) being printed. The software produces a series of thin layers, designs a path for each layer, combines these paths of produced layers, and transmits the above paths to the 3D printer.…”

The Longest (s, t)-Path Problem on O-Shaped Supergrid Graphs

Hamiltonian (s, t)-paths in solid supergrid graphs

The Hamiltonicity and Hamiltonian-connectivity of Solid Supergrid Graphs