Control of A Cooperative Transportation System with Two Car-Like Mobile Robots Based on Chained Form (Experimental Verification of Its Open Loop Control)

In this paper, we describe experimental work using an underwater, biomimetic, eel-like robot to verify a simplified dynamic model and open-loop control routines. We compare experimental results to previous analytically derived, but approximate expressions for proposed gaits for forward/backward swimming, circular swimming, sideways swimming and turning in place. We have developed a five-link, underwater eel-like robot, focusing on modularity, reliability and rapid prototyping, to verify our theoretical predictions. Results from open-loop experiments performed with this robot in an aquatic environment using an off-line vision system for position sensing show good agreement with theory.

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Asymptotic Solution and Trajectory Planning for Open-Loop Control of Mobile Robots

Journal of Dynamic Systems Measurement and Control ◽

10.1115/1.4035169 ◽

2017 ◽

Vol 139 (5) ◽

Cited By ~ 2

Author(s):

Alan Whitman ◽

Garrett Clayton ◽

Alexander Poultney ◽

Hashem Ashrafiuon

Keyword(s):

Mobile Robots ◽

Trajectory Planning ◽

Control Method ◽

Open Loop ◽

Order Correction ◽

Reference Trajectory ◽

Open Loop Control ◽

Loop Control ◽

First Order ◽

First Order Correction

A novel open-loop control method is presented for mobile robots based on an asymptotic inverse dynamic solution and trajectory planning. The method is based on quantification of sliding by a small nondimensional parameter. Asymptotic expansion of the equations yields the dominant nonslip solution along with a first-order correction for sliding. A trajectory planning is then introduced based on transitional circles between the robot initial states and target reference trajectory. The transitional trajectory ensures smooth convergence of the robot states to the target reference trajectory, which is essential for open-loop control. Experimental results with a differential drive mobile robot demonstrate the significant improvement of the controller performance when the first-order correction is included.

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A Path Following Feedback Control Method with a Variable Velocity for a Cooperative Transportation System with Two Car-Like Mobile Robots and Its Experimental Verification(Mechanical Systems)

TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS Series C ◽

10.1299/kikaic.76.1753 ◽

2010 ◽

Vol 76 (767) ◽

pp. 1753-1762

Author(s):

Hiroaki YAMAGUCHI ◽

Tomoya HIRAMOTO ◽

Atsushi KAWAKAMI

Keyword(s):

Feedback Control ◽

Mobile Robots ◽

Experimental Verification ◽

Control Method ◽

Mechanical Systems ◽

Path Following ◽

Transportation System ◽

Variable Velocity ◽

Feedback Control Method ◽

Cooperative Transportation

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Open-loop control of compensation for optical propagation through a turbulent shear flow

10.2514/6.1998-2832 ◽

1998 ◽

Author(s):

C. Truman ◽

Lenore McMackin ◽

Robert Pierson ◽

Kenneth Bishop ◽

Ellen Chen

Keyword(s):

Shear Flow ◽

Open Loop ◽

Turbulent Shear ◽

Turbulent Shear Flow ◽

Open Loop Control ◽

Loop Control ◽

Optical Propagation

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Numerical Investigation of Disturbed Open-loop Control Obtained by the Covering Method

2020 13th International Conference "Management of large-scale system development" (MLSD) ◽

10.1109/mlsd49919.2020.9247840 ◽

2020 ◽

Author(s):

Yulia Belinskaya

Keyword(s):

Numerical Investigation ◽

Open Loop ◽

Open Loop Control ◽

Loop Control ◽

Covering Method

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Three-Phase Trinary Asymmetric Multilevel Inverter With Single DC Source and Open-Loop Control

IEEE Open Journal of Industry Applications ◽

10.1109/ojia.2021.3105605 ◽

2021 ◽

Vol 2 ◽

pp. 259-277

Author(s):

Rajesh Vasu ◽

Sumit Kumar Chattopadhyay ◽

Chandan Chakraborty

Keyword(s):

Open Loop ◽

Multilevel Inverter ◽

Open Loop Control ◽

Loop Control ◽

Three Phase

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Precise open-loop control of MEMS deformable mirror shape

10.1117/12.769492 ◽

2008 ◽

Cited By ~ 1

Author(s):

Thomas Bifano ◽

Jason Stewart ◽

Alioune Diouf

Keyword(s):

Open Loop ◽

Deformable Mirror ◽

Open Loop Control ◽

Loop Control

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Responses and Optimization of a PID-Based Speed Regulating System of the Planetary Mixer

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.418-420.1865 ◽

2011 ◽

Vol 418-420 ◽

pp. 1865-1868

Author(s):

Ming Jin Yang ◽

Xi Wen Li ◽

Zhi Gang Wang ◽

Tie Lin Shi

Keyword(s):

Control System ◽

Open Loop ◽

Open Loop Control ◽

Efficient Operation ◽

Loop Control ◽

Loop Control System ◽

Response Optimization ◽

Close Loop Control ◽

Close Loop Control System

The performance of speed regulating is very important to the mixing process with safe, efficient operation and high quality of production. Strategies and practices of responses and optimization of a PID-based speed regulating system of a planetary mixer were presented in this paper. Research results show that: by means of the signal constraint function presented by Simulink Response Optimization, optimization PID parameters of the 2-DOF-PID controller can be obtained, and the response of close-loop control system has quite good performance of overshoot, response time, and stability compared with an open-loop control system.

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