Constructing Hydraulic Robot Models Using Memory-Based Learning

Krishna, Murali; Bares, John

doi:10.1061/(asce)0893-1321(1999)12:2(34)

Cited by 10 publications

(3 citation statements)

References 15 publications

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“…where is the cross-sectional area of the hydraulic cylinder, is the cylinder differential pressure, anḋR e is the derivative of the resistance force on the piston [20,40,45,[50][51][52][53][54][55].…”

Section: Hydraulic System Modelingmentioning

confidence: 99%

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A Review on Mechanical and Hydraulic System Modeling of Excavator Manipulator System

Yoon

2016

Journal of Construction Engineering

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A recent trend in the development of off-highway construction equipment, such as excavators, is to use a system model for model-based system design in a virtual environment. Also, control system design for advanced excavation systems, such as automatic excavators and hybrid excavators, requires system models in order to design and simulate the control systems. Therefore, modeling of an excavator is an important first step toward the development of advanced excavators. This paper reviews results of recent studies on the modeling of mechanical and hydraulic subsystems for the simulation, design, and control development of excavator systems. Kinematic and dynamic modeling efforts are reviewed first. Then, various approaches in the hydraulic system modeling are presented.

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Section: Hydraulic System Modelingmentioning

confidence: 99%

“…There have also been efforts to develop empirical models. Possible losses in hydraulic systems were also accounted in input-output relations in the gray-box approach [49,54,55,58,59].…”

Section: Hydraulic System Modelingmentioning

confidence: 99%

A Review on Mechanical and Hydraulic System Modeling of Excavator Manipulator System

Yoon

2016

Journal of Construction Engineering

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“…In reference [17], expert operator knowledge is encoded into templates called scripts, which are adjusted using simple kinematic and dynamic rules to generate fast machine motions. In reference [18] memory-based learning is used to construct a hydraulic actuator model, and hence to construct a complete excavator model. In reference [19] the experience and expertise from skilled human operators is utilized and a fuzzy-logic based control approach is developed for a robotic loader type machine.…”

Section: Introductionmentioning

confidence: 99%

Modelling and control of an unmanned excavator vehicle

Zweiri

Seneviratne²,

Althoefer³

2003

Proceedings of the Institution of Mechanical Engineers, Part I:

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This paper investigates the modelling and control of a full-scale excavator vehicle. A detailed analytical model for an unmanned excavator vehicle is developed. The model takes into account the kinematics and dynamics of the mobile platform (vehicle) and the excavation arm (links and hydraulic system). The model describes the dynamic relationship between the operator input commands (fuelling and joystick commands to excavation arm and steering lever) and the trajectories and forces of the excavator vehicle. The dynamic model of the excavation arm system is validated against measured data. The validation of the model is conducted in collaboration with QinetiQ Limited (the new science and technology company formed from the major part of DERA, the British Government's defence research and development organization). A unified model is important for design of control strategies, since in order to move the bucket of a mobile excavator, movements of the entire vehicle are required. A key requirement for automating the excavation task is automated trajectory tracking, and a proportional-integral-derivative (PID) controller for trajectory tracking is developed and tested. It is noted that even though the results presented in this paper are focused on a particular excavator, the research is generic and can be adapted to any tracked ground vehicle with an on-board closed-chain manipulator.

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