|

The study of the movement of an android robot with computer vision

Authors: Sevastianov I.V.
Published in issue: #1(42)/2020
DOI: 10.18698/2541-8009-2020-1-568


Category: Mechanical Engineering and Machine Science | Chapter: Robots, Mechatronics, and Robotic Systems

Keywords: robot, android, design, layout, trajectory, computer vision, transport, OpenCV library, control law, regulator
Published: 28.01.2020

The paper investigates the possibility of using a computer vision system for the movement of an android robot. A mock-up is presented of an autonomous robot capable of passing a route and performing maneuvers like a real car. The novelty of the development lies in the fact that in a autonomous android robot two systems are used simultaneously: a computer vision system based on the Android OS, which allows it to traverse the track with markings without the use of sensors, and an IOIO board that helps the smartphone control the drives. The study proves the effectiveness of the introduction of computer vision in many areas. For example, you can use computer vision in traffic, to identify defects in parts in the foundry, to build neural networks in solving complex production problems, to ensure the safety of people, etc.


References

[1] Est’ li zhizn’ bez voditeley? Chast’ 1 [Is there a life without drivers? Part 1]. infuture.ru: website (in Russ.). URL: http://www.infuture.ru/article/1283 (accessed: 02.07.2019).

[2] Howse J. Android application programming with OpenCV 3. Packt Publishing, 2015.

[3] Bradski G., Kaehler A. Learning OpenCV. O’Reilly Media, 2008.

[4] Karpov V.E. PID-upravlenie v nestrogom izlozhenii [Proportional-integral differentiating control in non-formal statement]. robofob.ru: website. URL: http://robofob.ru/materials/articles/pages/Karpov_mobline1.pdf (accessed: 02.07.2019). (in Russ.).

[5] Wescott T., Botov A. Prosto o PID-algoritmakh [PID without a PhD]. webhamster.ru: website (in Russ.). URL: https://webhamster.ru/mytetrashare/index/mtb0/15420971244k978zgoya (accessed: 15.01.2020).

[6] Lukas V.A. Teoriya avtomaticheskogo upravleniya [Automatic control theory]. Moscow, Nedra Publ., 1990 (in Russ.).

[7] Filippov S.A. Robototekhnika dlya detey i roditeley [Robotics for kids and parents]. Sankt-Petersburg, Nauka Publ., 2011 (in Russ.).