Micromouse

In this article, we will delve into the topic of Micromouse, exploring its origins, its impact on today's society and its relevance in different areas. Micromouse has been an object of study and interest for decades, generating debates and reflections around its influence on daily life. Through a detailed analysis, we will seek to better understand the different aspects surrounding Micromouse, from its historical implications to its role today. This article seeks to provide a comprehensive and enriching vision of Micromouse so that the reader can thoroughly understand this topic that is so relevant today.

Micromouse maze
Micromouse robot

Micromouse is an event where small robotic mice compete to solve a 16×16 maze. It began in the late 1970s.[1] Events are held worldwide, and are most popular in the UK, U.S., Japan, Singapore, India, South Korea and becoming popular in subcontinent countries such as Sri Lanka.

The maze is made up of a 16×16 grid of cells, each 180 square mm with walls 50 mm high.[2] The mice are completely autonomous robots that must find their way from a predetermined starting position to the central area of the maze unaided. The mouse needs to keep track of where it is, discover walls as it explores, map out the maze and detect when it has reached the goal. Having reached the goal, the mouse will typically perform additional searches of the maze until it has found an optimal route from the start to the finish. Once the optimal route has been found, the mouse will traverse that route in the shortest achievable time.

Competitions[3][4] and conferences[5] are run regularly.

Half-Size Micromouse

A version of Micromouse called the Half-Size Micromouse was introduced at the 30th All Japan Micromouse Competition in 2009.[6][7] Instead of a 16×16 maze, the Half-Size competition uses up to a 32×32 maze. Cell and wall dimensions have been reduced by half,[8] providing a new challenge.

Maze solving

See also: Maze-solving algorithm

Mice used in competitions employ the fundamental elements of robot navigation, including mapping, planning, and localization. Additionally, they optimize their path through the maze using various search algorithms. Common search algorithms use variations of the Bellman flood-fill method,[9] Dijkstra's algorithm, A* search algorithm, among various graph traversal and tree traversal algorithms.

Performance

Mice can run at over three meters per second, depending on the maze design. Some of the best micromouse builders are Yusuke Kato,[10] Ng Beng Kiat[11] and Fumitaka Nakashima.[12] The current world record is 3.921 seconds[13] and is held by Ng Beng Kiat.

Performance in recent years has improved considerably. As of 2015, winning mice are likely to run with forward acceleration and braking well over 1g.[14] Cornering with centripetal acceleration as high as 2g is possible. Micromice are among the highest-performing autonomous robots.

Most recently, robots are being equipped with a fan to create a partial vacuum under the mouse while it is running.[15][16][17] The additional downforce available has made possible a huge improvement in performance. Compared to a non-fan mouse, the newer robots are likely to be able to achieve centripetal accelerations of 6g or more. Straight line accelerations can easily exceed 2.5g.

References

  1. ^ "History". Micromouse Online.
  2. ^ "UK Micromouse Maze Solver Rules" (PDF). University of York Department of Computer Science. Archived from the original (PDF) on 2018-12-01.
  3. ^ "Micromouse USA - USA Micromouse Fans Site".
  4. ^ "UK Micromouse and Robotics Society". ukmars.org.
  5. ^ "Minos - UK Micromouse and Robotics Society". ukmars.org.
  6. ^ robolaboN (22 November 2009). "MicroMouse All Japan contest 2009 half size preliminary". Archived from the original on 2021-12-12 – via YouTube.
  7. ^ Japan 2009 half-size micromouse contest final. YouTube. Archived from the original on 2021-12-10.
  8. ^ "NTF -New Technology Foundation-Micromouse2010". www.ntf.or.jp.
  9. ^ "Solving the maze".
  10. ^ "ロボット工作研究室 - livedoor Blog(ブログ)".
  11. ^ "Ng Beng Kiat".
  12. ^ "第4実験室". Archived from the original on 2013-06-05. Retrieved 2013-05-24.
  13. ^ "Meet the New World's Fastest Micromouse Robot". 21 November 2011.
  14. ^ Harrison, Peter (3 August 2017). "Micromouse Hard Acceleration".
  15. ^ Harrison, Peter (10 October 2017). "Taiwan Micromouse Contest 2017".
  16. ^ Harrison, Peter (18 February 2018). "More suck, less slip".
  17. ^ By (27 November 2008). "Vacuum micromouse".