Study on Low-Speed Stability of a Motorcycle

Singhania, S. K.; Kageyama, Ichiro; Karanam, Venkata Mangaraju

doi:10.3390/app9112278

Cited by 9 publications

(3 citation statements)

References 24 publications

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“…The second paper [15] deals with the low speed stability of a scooter-type motorcycle. This problem is closely related to urban mobility, since congested traffic conditions limit vehicle speed, generating stability problems that require the continuous effort of the rider to stabilize the vehicle.…”

Section: Dynamic Stabilitymentioning

confidence: 99%

Advances in Mechanical Systems Dynamics

2019

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Section: Dynamic Stabilitymentioning

confidence: 99%

Advances in Mechanical Systems Dynamics

2019

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“…And the first and foremost groundwork for intelligent driving of two-wheeled vehicles is the balance problem. In fact, the current balance control methods are roughly divided into two categories, steering balance [1][2] and gyroscope balance. Gyroscope balance has the characteristics of strong anti-interference and strong stability.…”

Section: Introductionmentioning

confidence: 99%

Research on Steering Balance Control of Two-wheeled Vehicles Under Large Time Delay

Wang,

Dan,

Peng

2023

AJST

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Time lag is very common in real control systems and is more important in driverless intelligent single rutted two-wheeled vehicles. Time lag can lead to slower response of the control system to external changes, which can reduce the stability or even imbalance of the vehicle. Traditional control methods may not be directly applicable to systems with time lag, so special control strategies are needed to deal with the effects of time lag. In this paper, we build a non-time-lagged steering balance controller by analysing the dynamics model of an unmanned intelligent single rutted two-wheeled vehicle, and then control the time lag by using the improved Smith predictor, and finally verify the steering balance of the method under large time lag by MATLAB simulation.

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“…First, it is more challenging to balance a stationary bikebot than a moving platform. With front wheel steering actuation, the bikebot can be only balanced within a small range of roll motion at stationary (i.e., 2-3 degs) [29], [30]. It is desirable to design new mechanisms and control methods to enlarge the controllable roll motion range for practical bikebot applications.…”

Section: Introductionmentioning

confidence: 99%

Coordinated Pose Control of Mobile Manipulation with an Unstable Bikebot Platform

Hong¹,

Jelvani²,

Yi³

et al. 2022

Preprint

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Bikebot manipulation has advantages of the singletrack robot mobility and manipulation dexterity. We present a coordinated pose control of mobile manipulation with the stationary bikebot. The challenges of the bikebot manipulation include the limited steering balance capability of the unstable bikebot and kinematic redundancy of the manipulator. We first present the steering balance model to analyze and explore the maximum steering capability to balance the stationary platform. A balancing equilibrium manifold is then proposed to describe the necessary condition to fulfill the simultaneous platform balance and posture control of the end-effector. A coordinated planning and control design is presented to determine the balance-prioritized posture control under kinematic and dynamic constraints. Extensive experiments are conducted to demonstrate the mechatronic design for autonomous plant inspection in agricultural applications. The results confirm the feasibility to use the bikebot manipulation for a plant inspection with endeffector position and orientation errors about 5 mm and 0.3 degs, respectively.

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Study on Low-Speed Stability of a Motorcycle

Cited by 9 publications

References 24 publications

Advances in Mechanical Systems Dynamics

Advances in Mechanical Systems Dynamics

Research on Steering Balance Control of Two-wheeled Vehicles Under Large Time Delay

Coordinated Pose Control of Mobile Manipulation with an Unstable Bikebot Platform

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