A new autogenous mobile system driven by vibration without impacts, excited by an impulse periodic force
This report describes a new proposed design for autogenous mobile systems which can move without any external mechanisms such as legs or wheels. A Duffing oscillator with a cubic spring, which is excited by an impulse periodic force, is utilized to drive the whole system. The rectilinear motion of t...
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| Format: | Article |
| Language: | English |
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EDP Sciences
2018-01-01
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| Series: | MATEC Web of Conferences |
| Online Access: | https://doi.org/10.1051/matecconf/201814804005 |
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doaj-fb9e2f22dd464f069298acf1fb9e40dc2021-02-02T02:12:50ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-011480400510.1051/matecconf/201814804005matecconf_icoev2018_04005A new autogenous mobile system driven by vibration without impacts, excited by an impulse periodic forceDuong The-Hung0Nguyen Van-Du1La Ngoc-Tuan2Department of Civil Engineering, Thai Nguyen University of TechnologyDepartment of Mechanical Engineering, Thai Nguyen University of TechnologyDepartment of Manufacturing Engineering, Vinh University of Technology EducationThis report describes a new proposed design for autogenous mobile systems which can move without any external mechanisms such as legs or wheels. A Duffing oscillator with a cubic spring, which is excited by an impulse periodic force, is utilized to drive the whole system. The rectilinear motion of the system is performed employing the periodically oscillation of the internal mass interacting without collisions with the main body. Utilizing the nonlinear restoring force of the cubic spring, the system can move in desired directions. When the ratio between the excitation force and the friction force is smaller than 2.5, backward or forward motion can be easily achieved by applying an excitation force in the same desired direction. Different from other vibro-impact drifting devices, no impact needed to drive the new proposed system. This novel structure allows to miniaturize the device as well as to simplify the control algorithm thus can significantly expand applicability of the proposed system.https://doi.org/10.1051/matecconf/201814804005 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Duong The-Hung Nguyen Van-Du La Ngoc-Tuan |
| spellingShingle |
Duong The-Hung Nguyen Van-Du La Ngoc-Tuan A new autogenous mobile system driven by vibration without impacts, excited by an impulse periodic force MATEC Web of Conferences |
| author_facet |
Duong The-Hung Nguyen Van-Du La Ngoc-Tuan |
| author_sort |
Duong The-Hung |
| title |
A new autogenous mobile system driven by vibration without impacts, excited by an impulse periodic force |
| title_short |
A new autogenous mobile system driven by vibration without impacts, excited by an impulse periodic force |
| title_full |
A new autogenous mobile system driven by vibration without impacts, excited by an impulse periodic force |
| title_fullStr |
A new autogenous mobile system driven by vibration without impacts, excited by an impulse periodic force |
| title_full_unstemmed |
A new autogenous mobile system driven by vibration without impacts, excited by an impulse periodic force |
| title_sort |
new autogenous mobile system driven by vibration without impacts, excited by an impulse periodic force |
| publisher |
EDP Sciences |
| series |
MATEC Web of Conferences |
| issn |
2261-236X |
| publishDate |
2018-01-01 |
| description |
This report describes a new proposed design for autogenous mobile systems which can move without any external mechanisms such as legs or wheels. A Duffing oscillator with a cubic spring, which is excited by an impulse periodic force, is utilized to drive the whole system. The rectilinear motion of the system is performed employing the periodically oscillation of the internal mass interacting without collisions with the main body. Utilizing the nonlinear restoring force of the cubic spring, the system can move in desired directions. When the ratio between the excitation force and the friction force is smaller than 2.5, backward or forward motion can be easily achieved by applying an excitation force in the same desired direction. Different from other vibro-impact drifting devices, no impact needed to drive the new proposed system. This novel structure allows to miniaturize the device as well as to simplify the control algorithm thus can significantly expand applicability of the proposed system. |
| url |
https://doi.org/10.1051/matecconf/201814804005 |
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