• Source: Electric unicycle

An electric unicycle (often initialized as EUC or acronymized yuke or Uni) is a self-balancing personal transporter with a single wheel. The rider controls speed by leaning forwards or backwards, and steers by twisting or tilting the unit side to side. The self-balancing mechanism uses accelerometers and gyroscopes. Most manufacturers of EUCs are based out of China, including Segway, Inmotion, Kingsong, Begode, and Leaperkim.




Operation


Similar to hoverboards, Onewheels, and Segways, electric unicycles are self-balancing in a forward and backward direction, with side-to-side (lateral) stability being provided by human steering motions that tilt or twist the unit, similar to Bicycle and motorcycle dynamics. The control of a unicycle can be considered to be similar to an inverted pendulum. Many electric unicycles have suspension, either operated by air or springs.
Electric unicycles come in varying speeds, battery capacities, and motor wattages. Low-end models may have speeds up to 15mph and ranges of 10-15 miles, while advanced models being introduced in 2024 can reach 60mph and over 100 miles per charge.




History






= Early experimentation

=

A hand-power monowheel was patented in 1869 by Richard C. Hemming with a pedal-power unit patented in 1885. Various motorized monowheels were developed and demonstrated during the 1930s without commercial success and Charles F Taylor was granted a patent for a "vehicle having a single supporting and driving wheel" in 1964 after some 25 years of experimentation. In 1977 Charles Gabriel presented an electric unicycle that resembles the design of today's devices.




= Commercialisation

=
In 2003, Bombardier announced a conceptual design for such a device used as a sport vehicle, the Embrio. In September 2004 Trevor Blackwell demonstrated a functional self-balancing unicycle, using a control-mechanism similar to that used by the Segway PT and published the designs as the Eunicycle. This approach was further refined by a group of engineering students at the University of Adelaide who developed The Micycle, which incorporated a hub-motor, a Lithium-Ion Battery and a novel steering mechanism where the wheel pivoted independent of the main chassis.

Early units had a seat, which limited how much the unit could be tilted, but this was resolved with the transition to seatless units that could be tilted much more. In March 2010 Shane Chen of Inventist filed a patent application for a seatless electric unicycle (associated with the "Solowheel" product launched in February 2011), which uses flat pedals to stand on and leg contact surfaces to allow for stable, precise control in lieu of a seat. In Oct 2010 Focus Designs published a video of an electric unicycle with hub motor and a seat.
Late in 2015, the Ford Motor Company patented a "self-propelled unicycle engageable with vehicle", intended for last-mile commuters. Segway launched their Ninebot One S1 model in November 2017.

By the turn of the decade, several Chinese manufacturers dominate the market and continue to release EUC models with higher top speeds (above 75 km/h or 46 mph), and longer range batteries.
Popularity came around the same time as Begode (formerly known as Gotway) released their M super line. This evolved into the MSX & MSP models and eventually into the RS model. Around this time Veteran stepped on to the scene for the first time with their road wheel the Sherman. In 2020, suspension EUCs were revealed by Inmotion, Kingsong and Gotway. After suspension, companies began to work on higher speeds and motor voltages.




Popular culture


A motorized, gyroscopically balanced unicycle was described in 1940 in the short story "The Roads Must Roll" by Robert Heinlein.
A self-balancing unicycle was described in 1969 in "The Man From R.O.B.O.T.", a short story by science fiction author Harry Harrison.




Gallery































Manufacturers


Begode (previously known as Gotway)
InMotion
Inventist
Kingsong
Leaperkim
Rockwheel
Segway – Ninebot




See also






References






Further reading


Research papers (in reverse date order)

Daniel R. Gilman "Riding an EUC – From Never-Ever to Expert – A Detailed Written Guide Learn To Ride An EUC - A Detailed Written Guide - From Never-Ever To Expert

Wu, Junfeng; Zhang, Wanying; Wang, Shengda (26 November 2012). "A Two-Wheeled Self-Balancing Robot with the Fuzzy PD Control Method". Mathematical Problems in Engineering. 2012: 1–13. doi:10.1155/2012/469491.
Tomašić, Tomislav; Demetlika, Andrea; Crneković, Mladen (2012). "Self-balancing mobile robot tilter". Transactions of FAMENA. p. 23. Archived from the original on 2014-02-09.
Ruan, Jian-Wei Zhao; Xiao-Gang (1 September 2011). "Modelling and Control of a Flexible Two-Wheeled Self-Balancing Mobile Robot". International Journal of Systems, Control and Communications. 3 (3): 330–355. doi:10.1504/IJSCC.2011.042438.{{cite journal}}: CS1 maint: multiple names: authors list (link)
Ben S. Cazzolato, David Keith Caldecott, Andrew John Edwards, Matthew Anthony Haynes, Miroslav Jerbic, Andrew Christopher Kadis and Rhys James J. Madigan Micycle - A Self-Balancing Unicycle, University of Adelaide, 2010
Johnson, R.C. (2002). "Unicycles and bifurcations" (PDF). American Journal of Physics. 66 (7): 589–92. CiteSeerX 10.1.1.693.5310. doi:10.1119/1.19027. Archived from the original (PDF) on 2016-01-05. Retrieved 2007-10-14.
Zenkov, DV; Bloch, AM; Marsden, JE (2001). "The Lyapunov-Malkin Theorem and Stabilization of the Unicycle with Rider". Systems and Control Letters. 45 (4): 293–302. doi:10.1016/s0167-6911(01)00187-6.
Zenkov, DV; Bloch, AM; Leonard, NE; Marsden, JE (2000). "Matching and Stabilization of Low-dimensional Nonholonomic Systems" (PDF). Proc. CDC. 39: 1289–1295. Archived from the original (PDF) on 2003-06-27.
Ulyanov, S. V.; et al. (1998). "Soft computing for the intelligent robust control of a robotic unicycle with a new physical measure for mechanical controllability". Soft Computing. 2 (2): 73–88. doi:10.1007/s005000050036. S2CID 17955504.
Sheng, Zaiquan; Yamafuji, Kazuo (1995). "Realization of a human riding a unicycle by a robot". Proceedings of 1995 IEEE International Conference on Robotics and Automation. Vol. 2. pp. 1319–1326. doi:10.1109/ROBOT.1995.526027. ISBN 978-0-7803-1965-3. S2CID 7280130.
A. Schoonwinkel, Design and test of a computer stabilized unicycle Ph.D. dissertation, Stanford University, California, 1987

Other
Flexible two-wheeled self-balancing mobile robot, 9th IFAC Symposium on Robot Control (2009)




External links


The Electric Unicycle

Kata Kunci Pencarian:

• Mil terakhir (transportasi)
• Electric unicycle
• Unicycle
• Energy efficiency in transport
• List of land vehicles types by number of wheels
• Electric bicycle
• Personal transporter
• Monowheel
• Unicycle time trial records
• List of electric bicycle brands and manufacturers
• EUC