Fast Two-Robot Disk Evacuation with Wireless Communication
نویسندگان
چکیده
In the fast evacuation problem, we study the path planning problem for two robots who want to minimize the worst-case evacuation time on the unit disk. The robots are initially placed at the center of the disk. In order to evacuate, they need to reach an unknown point, the exit, on the boundary of the disk. Once one of the robots finds the exit, it will instantaneously notify the other agent, who will make a beeline to it. The problem has been studied for robots with the same speed [12]. We study a more general case where one robot has speed 1 and the other has speed s ≥ 1. We provide optimal evacuation strategies in the case that s ≥ c2.75 ≈ 2.75 by showing matching upper and lower bounds on the worst-case evacuation time. For 1 ≤ s < c2.75, we show (non-matching) upper and lower bounds on the evacuation time with a ratio less than 1.22. Moreover, we demonstrate that a generalization of the two-robot search strategy from [12] is outperformed by our proposed strategies for any s ≥ c1.71 ≈ 1.71. ar X iv :1 60 4. 04 21 7v 1 [ cs .D C ] 1 4 A pr 2 01 6
منابع مشابه
Search-and-Fetch with 2 Robots on a Disk - Wireless and Face-to-Face Communication Models
We initiate the study of a new problem on searching and fetching in a distributed environment concerning treasure-evacuation from a unit disk. A treasure and an exit are located at unknown positions on the perimeter of a disk and at known arc distance. A team of two robots start from the center of the disk, and their goal is to fetch the treasure to the exit. At any time the robots can move any...
متن کاملEvacuating Robots from a Disk Using Face-to-Face Communication (Extended Abstract)
Assume that two robots are located at the centre of a unit disk. Their goal is to evacuate from the disk through an exit at an unknown location on the boundary of the disk. At any time the robots can move anywhere they choose on the disk, independently of each other, with maximum speed 1. The robots can cooperate by exchanging information whenever they meet. We study algorithms for the two robo...
متن کاملDynamic Obstacle Avoidance by Distributed Algorithm based on Reinforcement Learning (RESEARCH NOTE)
In this paper we focus on the application of reinforcement learning to obstacle avoidance in dynamic Environments in wireless sensor networks. A distributed algorithm based on reinforcement learning is developed for sensor networks to guide mobile robot through the dynamic obstacles. The sensor network models the danger of the area under coverage as obstacles, and has the property of adoption o...
متن کاملEvacuation Problem: a Generalization of Search Problems
We consider mobile robots located in some environment. They all need to reach, in a cooperative manner, a target at an unknown location, called by obvious analogy the exit. Unlike in the traditional search, we need to minimize the time needed by the last robot to reach the exit. We consider two possibilities of exchanging information among the robots: face to face, where some robots meet, or wi...
متن کاملEvacuation from a Disc in the Presence of a Faulty Robot
We consider the evacuation problem on a circle for three robots, at most one of which is faulty. The three robots search for an exit placed at an unknown location on the perimeter of the circle. During the search, robots can communicate wirelessly at any distance. The goal is to minimize the time that the latest non-faulty robot reaches the exit. Our main contributions are two intuitive evacuat...
متن کامل