Scube - concept and implementation of a self-balancing, autonomous mobility device for personal transport
Public transportation (PT) systems suffer from disutility compared to private transportation due to the inability to provide passengers with a door-to-door service, referred to as the first/last mile problem. Personal mobility devices (PMDs) are thought to improve PT service quality by closing th...
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sg-ntu-dr.10356-1456672023-03-04T17:24:30Z Scube - concept and implementation of a self-balancing, autonomous mobility device for personal transport Klöppel, Manfred Römer, Felix Wittmann, Michael Hatam, Bijan Herrmann, Thomas Sim, Lee Leng Lim, Douglas Jun Siang Lu, Yunfan Medovy, Vladimir Merkle, Lukas Ten, Richmond Wy Xin Ongel, Aybike Hong, Jeffrey Yan Jack Ng, Heong Wah Lienkamp, Markus School of Mechanical and Aerospace Engineering School of Art, Design and Media Technical University of Munich (TUM) Engineering::Mechanical engineering Autonomous Vehicle Public Transport Public transportation (PT) systems suffer from disutility compared to private transportation due to the inability to provide passengers with a door-to-door service, referred to as the first/last mile problem. Personal mobility devices (PMDs) are thought to improve PT service quality by closing this first/last mile gap. However, current PMDs are generally driven manually by the rider and require a learning phase for safe vehicle operation. Additionally, most PMDs require a standing riding position and are not easily accessible to elderly people or persons with disabilities. In this paper, the concept of an autonomously operating mobility device is introduced. The visionary concept is designed as an on-demand transportation service which transports people for short to medium distances and increases the accessibility to public transport. The device is envisioned to be operated as a larger fleet and does not belong to an individual person. The vehicle features an electric powertrain and a one-axle self-balancing design with a small footprint. It provides one seat for a passenger and a tilt mechanism that is designed to improve the ride comfort and safety at horizontal curves. An affordable 3D-camera system is used for autonomous localization and navigation. For the evaluation and demonstration of the concept, a functional prototype is implemented. National Research Foundation (NRF) Published version This work was financially supported by the Singapore National Research Foundation under its Campus for Research Excellence and Technological Enterprise (CREATE) programme and by the German Research Foundation (DFG) and the Technical University of Munich (TUM) in the framework of the Open Access Publishing Program. 2021-01-04T05:15:44Z 2021-01-04T05:15:44Z 2018 Journal Article Klöppel, M., Römer, F., Wittmann, M., Hatam, B., Herrmann, T., Sim, L. L., . . . Lienkamp, M. (2018). Scube - concept and implementation of a self-balancing, autonomous mobility device for personal transport. World Electric Vehicle Journal, 9(4), 48-. doi:10.3390/wevj9040048 2032-6653 https://hdl.handle.net/10356/145667 10.3390/wevj9040048 4 9 en World Electric Vehicle Journal © 2018 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Mechanical engineering Autonomous Vehicle Public Transport |
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Engineering::Mechanical engineering Autonomous Vehicle Public Transport Klöppel, Manfred Römer, Felix Wittmann, Michael Hatam, Bijan Herrmann, Thomas Sim, Lee Leng Lim, Douglas Jun Siang Lu, Yunfan Medovy, Vladimir Merkle, Lukas Ten, Richmond Wy Xin Ongel, Aybike Hong, Jeffrey Yan Jack Ng, Heong Wah Lienkamp, Markus Scube - concept and implementation of a self-balancing, autonomous mobility device for personal transport |
| description |
Public transportation (PT) systems suffer from disutility compared to private transportation
due to the inability to provide passengers with a door-to-door service, referred to as the first/last
mile problem. Personal mobility devices (PMDs) are thought to improve PT service quality by closing
this first/last mile gap. However, current PMDs are generally driven manually by the rider and
require a learning phase for safe vehicle operation. Additionally, most PMDs require a standing
riding position and are not easily accessible to elderly people or persons with disabilities. In this
paper, the concept of an autonomously operating mobility device is introduced. The visionary
concept is designed as an on-demand transportation service which transports people for short to
medium distances and increases the accessibility to public transport. The device is envisioned to be
operated as a larger fleet and does not belong to an individual person. The vehicle features an electric
powertrain and a one-axle self-balancing design with a small footprint. It provides one seat for a
passenger and a tilt mechanism that is designed to improve the ride comfort and safety at horizontal
curves. An affordable 3D-camera system is used for autonomous localization and navigation. For the
evaluation and demonstration of the concept, a functional prototype is implemented. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Klöppel, Manfred Römer, Felix Wittmann, Michael Hatam, Bijan Herrmann, Thomas Sim, Lee Leng Lim, Douglas Jun Siang Lu, Yunfan Medovy, Vladimir Merkle, Lukas Ten, Richmond Wy Xin Ongel, Aybike Hong, Jeffrey Yan Jack Ng, Heong Wah Lienkamp, Markus |
| format |
Article |
| author |
Klöppel, Manfred Römer, Felix Wittmann, Michael Hatam, Bijan Herrmann, Thomas Sim, Lee Leng Lim, Douglas Jun Siang Lu, Yunfan Medovy, Vladimir Merkle, Lukas Ten, Richmond Wy Xin Ongel, Aybike Hong, Jeffrey Yan Jack Ng, Heong Wah Lienkamp, Markus |
| author_sort |
Klöppel, Manfred |
| title |
Scube - concept and implementation of a self-balancing, autonomous mobility device for personal transport |
| title_short |
Scube - concept and implementation of a self-balancing, autonomous mobility device for personal transport |
| title_full |
Scube - concept and implementation of a self-balancing, autonomous mobility device for personal transport |
| title_fullStr |
Scube - concept and implementation of a self-balancing, autonomous mobility device for personal transport |
| title_full_unstemmed |
Scube - concept and implementation of a self-balancing, autonomous mobility device for personal transport |
| title_sort |
scube - concept and implementation of a self-balancing, autonomous mobility device for personal transport |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/145667 |
| _version_ |
1759853987712991232 |