The Influence of the Operator’s Perception on the Energy Demand for a Hydraulic Manipulator with a Large Working Area

The efficient operation of hydraulic manipulators with expansive working areas is crucial in various applications such as the construction industry, the rescue service, and the military. These machines are characterized by having more capabilities than humans, and they perform tasks that are not rep...

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Bibliographic Details
Published in:Applied sciences 2024-03, Vol.14 (5), p.1800
Main Authors: Cieślik, Karol, Krogul, Piotr, Łopatka, Marian Janusz, Przybysz, Mirosław, Typiak, Rafał
Format: Article
Language:English
Subjects:
Analysis
Control algorithms
Control systems
Energy consumption
Energy efficiency
human–machine interface
Hydraulics
manipulator
operator perception
Research methodology
size ratio
Supply and demand
Velocity
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Summary:The efficient operation of hydraulic manipulators with expansive working areas is crucial in various applications such as the construction industry, the rescue service, and the military. These machines are characterized by having more capabilities than humans, and they perform tasks that are not repeated in the same environment. For this reason, they are most often controlled by a human in a teleoperation system. This research investigates the influence of the operator’s perception on the energy demand of such manipulators. Specifically, the research focused on assessing how the intuitive control systems, such as primary–secondary solutions, impact the energy consumption. Understanding the relation between the operator’s perception and the energy demand is essential for optimizing manipulator design and operation. Experimental research was conducted to analyze the velocity and acceleration of the manipulator’s effector, which is controlled by human operators under different movement ranges and size ratios. The obtained test results allow for the assessment of the dynamic loads, velocity, and energy consumption of the movement of a manipulator with a large working area due to the limitations resulting from the operator’s perception.
ISSN:2076-3417
2076-3417
DOI:10.3390/app14051800