Existence and hardness of conveyor belts

Author(s)

Demaine, Erik D; Demaine, Martin L

Abstract

An open problem of Manuel Abellanas asks whether every set of disjoint closed unit disks in the plane can be connected by a conveyor belt, which means a tight simple closed curve that touches the boundary of each disk, possibly multiple times. We prove three main results: 1. For unit disks whose centers are both x-monotone and y-monotone, or whose centers have x-coordinates that differ by at least two units, a conveyor belt always exists and can be found efficiently. 2. It is NP-complete to determine whether disks of arbitrary radii have a conveyor belt, and it remains NP-complete when we constrain the belt to touch disks exactly once. 3. Any disjoint set of n disks of arbitrary radii can be augmented by O(n) “guide” disks so that the augmented system has a conveyor belt touching each disk exactly once, answering a conjecture of Demaine, Demaine, and Palop.

Date issued

2020-10

URI

https://hdl.handle.net/1721.1/128809

Department

Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science
Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory

Journal

Electronic Journal of Combinatorics

Publisher

The Electronic Journal of Combinatorics

Citation

Baird, Molly et al. “Existence and hardness of conveyor belts.” Electronic Journal of Combinatorics, 24, 7 (October 2020): P4.25 © 2020 The Author(s)

Version: Final published version

ISSN

1097-1440