Journal of Advancement in Electronics Design (e-ISSN:2584-2943)

The Skating framework which will work on the android telephone likewise we have some control over the gadget bearing. it will likewise charging the battery of the framework on oneself producing power as l as on the mains and battery the framework will permit to us to venture to every part of the skate will be 100 percent eco-accommodating. It was intended for nearby vehicle as well with respect to tomfoolery and making pleasant for whom unfit to ride it. The plan of a skate board is created by considering an age factor; we essentially centered around a few key variables as a result of which certain individuals unfit to ride it. To control movement and push of skate board has given four controls on the glove, glove is certainly not a typical glove in this glove the skateboard capability controls are given, one is for start and stop and other for steer the stepper based directing component.

Keywords: Android, skating board, self-Balancing

Kumar, A.S., Ashwin S. & Abhiram B. (2016) Self-Balancing Electronic Skate-Board. International Journal of Engineering Research in Electronic and Communication Engineering (IJERECE). 3(5).

Md. Mazidi. The 8051Micro-Controller and Embedded systems. 2ND Edition, Pearson, Pp.237-290.

Suh, Y. S. (2003, June). Attitude estimation using low cost accelerometer and gyroscope. In 7th Korea-Russia International Symposium on Science and Technology, Proceedings KORUS 2003.(IEEE Cat. No. 03EX737) (Vol. 2, pp. 423-427). IEEE.

Wu, J., Zhang, W., & Wang, S. (2012). A two-wheeled self-balancing robot with the fuzzy PD control method. Mathematical Problems in Engineering, 2012.

Debra. (2006). Angle Measurement for Gyroscopes and Accelerometers on a Chip.

Nagaraj, B., Subha, S., & Rampriya, B. (2008). Tuning algorithms for PID controller using soft computing techniques. International Journal of Computer Science and Network Security, 8(4), 278-281.

Kumra, S., & Mehta, S. (2012). Singular Axis Self Balancing Robot. International Journal of Image Processing and Vision Sciences (IJIPVS) ISSN (Print), 2278-1110.

B. Malathi and M. Ramchandran, “Malathi, B., & Ramchandran, M. (2015). Design and implementation of PID based two wheeled self-balancing mobile robot. International Journal of Advanced Technology in Engineering and Science.

An, W., & Li, Y. (2013, December). Simulation and Control of a Two-wheeled Self-balancing Robot. In 2013 IEEE International Conference on Robotics and Biomimetics (ROBIO) (pp. 456-461). IEEE.

Adeel, U., Alimgeer, K. S., Inam, O., Hameed, A., Qureshi, M., & Ashraf, M. (2013). Autonomous dual wheel self-balancing robot based on microcontroller. Journal of Basic and Applied Scientific Research, 3(1), 843-848.

Pinto, L. J., Kim, D. H., Lee, J. Y., & Han, C. S. (2012, December). Development of a Segway robot for an intelligent transport system. In 2012 IEEE/SICE International Symposium on System Integration (SII) (pp. 710-715). IEEE.

An, W., & Li, Y. (2013, December). Simulation and Control of a Two-wheeled Self-balancing Robot. In 2013 IEEE International Conference on Robotics and Biomimetics (ROBIO) (pp. 456-461). IEEE.

Silva, V. C. A., Leite, P., Soares, F., Lopes, G., Esteves, J. S., & Garrido, P. (2015). Controlling an equilibrist Lego robot.