English

God Save the Queen

Multiagent Systems 2018-04-18 v1

Abstract

Queen Daniela of Sardinia is asleep at the center of a round room at the top of the tower in her castle. She is accompanied by her faithful servant, Eva. Suddenly, they are awakened by cries of "Fire". The room is pitch black and they are disoriented. There is exactly one exit from the room somewhere along its boundary. They must find it as quickly as possible in order to save the life of the queen. It is known that with two people searching while moving at maximum speed 1 anywhere in the room, the room can be evacuated (i.e., with both people exiting) in 1+2π3+34.82641 + \frac{2\pi}{3} + \sqrt{3} \approx 4.8264 time units and this is optimal~[Czyzowicz et al., DISC'14], assuming that the first person to find the exit can directly guide the other person to the exit using her voice. Somewhat surprisingly, in this paper we show that if the goal is to save the queen (possibly leaving Eva behind to die in the fire) there is a slightly better strategy. We prove that this "priority" version of evacuation can be solved in time at most 4.818544.81854. Furthermore, we show that any strategy for saving the queen requires time at least 3+π/6+3/24.38963 + \pi/6 + \sqrt{3}/2 \approx 4.3896 in the worst case. If one or both of the queen's other servants (Biddy and/or Lili) are with her, we show that the time bounds can be improved to 3.83273.8327 for two servants, and 3.37383.3738 for three servants. Finally we show lower bounds for these cases of 3.63073.6307 (two servants) and 3.20173.2017 (three servants). The case of n4n\geq 4 is the subject of an independent study by Queen Daniela's Royal Scientific Team.

Cite

@article{arxiv.1804.06011,
  title  = {God Save the Queen},
  author = {Jurek Czyzowicz and Konstantinos Georgiou and Ryan Killick and Evangelos Kranakis and Danny Krizanc and Lata Narayanan and Jaroslav Opatrny and Sunil Shende},
  journal= {arXiv preprint arXiv:1804.06011},
  year   = {2018}
}

Comments

33 pages, 8 Figures. This is the full version of the paper with the same title which will appear in the proceedings of the 9th International Conference on Fun with Algorithms, (FUN'18), June 13--15, 2018, La Maddalena, Maddalena Islands, Italy

R2 v1 2026-06-23T01:25:48.116Z