ELECTRONICS & ELECTRICAL DOMAIN
Published November 16, 2023 | Version v1
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Micro Mouse (Maze Solver)

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Robotics technology is expanding rapidly, and the developments in the world of artificial intelligence are also growing very fast. The  challenge is how to make a robot cleverer in deciding actions based on the circumstances that exist. It has become a distinct branch of science that offers many things that need to be investigated further. An intelligent robot that can  solvethe shortest possibledistance to reach   thedestination in a maze arena. The robot is "smart" in finding the nearest road to rediscover the goal. It applies an artificialintelligence method that uses 1 algorithm to be compared and optimized at the same time to be together, so it is hoped to produce optimalresults. The algorithm applied to these smart robots is Algorithmand Flood Fill Algorithm.

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References

  • 1. Su, J. H., Lee, C. S., Huang, H. H., & Huang, J. Y. (2011). A micromouse kit for teaching autonomous mobile robots. International Journal of Electrical Engineering Education, 48(2), 188-201.
  • 2. Mishra, S., & Bande, P. (2008, November). Maze solving algorithms for micro mouse. In 2008 IEEE International Conference on Signal Image Technology and Internet Based Systems (pp. 86-93). IEEE.
  • 3. Kibler, S. G., Hauer, A. E., Giessel, D. S., Malveaux, C. S., & Raskovic, D. (2011, April). IEEE Micromouse for mechatronics research and education. In 2011 IEEE International Conference on Mechatronics (pp. 887-892). IEEE.
  • 4. Cheng, P. J., Cheng, C. H., & Tung, C. C. (2009). Design of DC motor's torque control using DSP. Journal of Information and Optimization Sciences, 30(6), 1197-1207.
  • 5. Xiong, J., Hua-Long, R., & Zhong-Li, M. (2011). Research on How ARM-based Micromouse Gets out of Maze [J]. Modern Electronics Technique, 8, 14-16.
  • 6. Tondr, A. D., & Drew, H. A. L. L. (2004). The inception of chedda: a detailed design and analysis of micromouse [D]. Las Vegas: University of Nevada.
  • 7. WEN, R. C., XU, Y., & WANG, Z. L. (2010). Study and application on maze path planning based on improved ant colony algorithm. Journal of Jiangxi University of Science and Technology, 2, 26-28.
  • 8. He, S. B., & Sun, K. H. (2012). Design and optimization of micro-mouse solving the maze algorithm based on central method. Jisuanji Xitong Yingyong- Computer Systems and Applications, 21(9), 79-82.
  • 9. Chen, Y., & Yang, J. (2011). Improvement and search algorithm of micromouse circuit. Modern Electronics Technique, 10, 68-70.
  • 10. Bo, E., & Yu, Y. (2011). Design and implementation of micromouse based on STM32. Value Engineering, 20, 136-137.