Mini Hand Gesture Controlled Mobility System
Keywords:
Micro-mobility, Gyroscope, Arduino Pro- mini, BLDC motor, Hand-gestures.Abstract
Micro-mobility transportation systems forindividual usage have grown in popularity recently, with the "Hoverboard" device being the most well- liked [1]. These systems are flexible, small, and efficient for personal transportation in a range of settings. With the use of a gyroscope, an Arduino UNO, an Arduino Pro-mini, a lithium battery, and a BLDC motor, this project will construct a personal micro- mobility system electric vehicle in the shape of a rectangular grid. Two folding pads make up this rectangular grid, which when opened forms a semicircle. The system also includes a seating configuration. With the sensor imprinted on gloves, the operator may control the system's speed and direction by making hand gestures. The goal of this project is to create and manage a straightforward, inexpensive self- transportation system.
References
- Castro, Arnoldo, William Singhose, Xiaoshu Liu, Khalid Sorensen, and Eun Chan Kwak. "Modeling and Experimental Testing of Hoverboard Dynamic Behavior." In Dynamic Systems and Control Conference, vol. 58288, p. V002T01A004. American Society of Mechanical Engineers, 2017.
- Chan, Cameron, Jason Cortez, and Jay Lopez. "Feasibility Analysis for Electrically-Powered Hoverboard." (2012).
- Donnici, Giampiero, Leonardo Frizziero, Daniela Francia, Alfredo Liverani, and Gianni Caligiana. "TRIZ method for innovation applied to an hoverboard." Cogent Engineering 5, no. 1 (2018): 1524537.
- Frizziero, Leonardo, Giampiero Donnici, Alfredo Liverani, Gian Maria Santi, Davide Bolzani, Lorenzo Golinelli, and Federica Marchi. "Design for Six Sigma (DFSS) and Industrial Design Structure (IDeS) for a New Urban Sustainable Mobility."
- Goodwin, Michael, Prerak Chapagain, David Brown, Jon Lawrence, and Simon Ellis. "Hoverboards: focal plane positioner for large-sized payloads." In Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation III, vol. 10706, pp. 632-641. SPIE, 2018.
- Hosseinzadeh, Pooya, et al. "Hoverboard injuries in children and adolescents: Results of a multicenter study." Journal of Pediatric Orthopaedics B 28.6 (2019): 555-558.
- Mehrvarz, Amin, et al. "Modeling and dynamics analysis of a beam-hoverboard self- transportation system." Dynamic Systems and Control Conference. Vol. 51913. American Society of Mechanical Engineers, 2018.
- Milakis, Dimitris, Laura Gedhardt, Daniel Ehebrecht, and Barbara Lenz. "Is micro-mobility sustainable? An overview of implications for accessibility, air pollution, safety, physical activity and subjective wellbeing." Handbook of sustainable transport (2020): 180-189.
- Prasad, Abhinav, Mohammad Parhizi, and Ankur Jain. "Experimental and numerical investigation of heat transfer in Li‐ion battery pack of a hoverboard." International Journal of Energy Research 43.5 (2019): 1802-1814.
- Sanguesa, Julio A., Vicente Torres-Sanz, Piedad Garrido, Francisco J. Martinez, and Johann M. Marquez-Barja. "A review on electric vehicles: Technologies and challenges." Smart Cities 4, no. 1 (2021): 372-404.
- Shushtari, Mohammad, et al. "Balance strategy in hoverboard control." Scientific reports 12.1 (2022): 1- 11.
- Siddhardha, K., and Joel G. Manathara. "Quadrotor hoverboard." In 2019 Sixth Indian Control Conference (ICC), pp. 19-24. IEEE, 2019.
- STOICA, Constantin. "2D NUMERICAL MODEL OF THE SYNCHRONOUS MACHINE WITH PERMANENT MAGNET USED FOR THE PROPULSION HOVERBOARD." University of Pitesti Scientific Bulletin Series: Electronics and Computer Science 19, no. 2 (2019): 33-36.
- T.Tamilselvi, V.Rajendran, and G.T.Bharathy, "Comparative Analysis of CP-OFDM and F-OFDM Schemes for Cognitive Networks", AIP Conference Proceedings 2385, 060002 (2022) 07.01.2022 https://doi.org/10.1063/5.0070769
- G.T.Bharathy, V.Rajendran, S.Bhavanisankari, V.Balaji, "Gini Index Test Metric Based Collaborative Sensing of Spectrum for Cognitive Networks". Journal of Physics: Conference Series 1964 (2021) 022014 doi: 10.1088/1742-6596/1964/2/022014
- B.Thangalakshmi, G.T.Bharathy "Review of Cognitive Radio Network" International Journal of MC Square Scientific Research 7(1 ), 10 - 17(2015).
- B. Thangalakshmi, G.T.Bharathy “Matched Filter Detection Based Spectrum Sensing In Cognitive Radio Network” International Journal of Emerging Technology in Computer Science and Electronics, 22 (2), 151 - 154, (2016).
- G.T.Bharathy, S.Bhavanisankari, T.Tamilselvi, G.Bhargavi An Energy - Efficient Approach for Restoring the Coverage Area During Sensor Node Failure. In: Smys S., Bestak R., Rocha Á. (eds) Inventive Computation Technologies. ICICIT 2019. Lecture Notes in Networks and Systems, 98, 594-605 (2020).
- G.T.Bharathy, V.Rajendran, T.Tamilselvi and M.Meena, "A Study and Simulation of Spectrum Sensing Schemes for Cognitive Radio Networks," 2020 7th International Conference on Smart Structures and Systems (ICSSS), 1-11,(2020).
- G.T Bharathy, V.Rajendran, M.Meena, T. Tamilselvi Research and Development in the Networks of Cognitive Radio: A Survey. In: Karuppusamy P., Perikos I., Shi F., Nguyen T.N. (eds) Sustainable Communication Networks and Application. Lecture Notes on Data Engineering and Communications Technologies, Springer, Singapore 55, 475 - 494 (2021).
Downloads
Published
Issue
Section
License
Copyright (c) IJSRCSEIT

This work is licensed under a Creative Commons Attribution 4.0 International License.