Author(s)

Bin Xie ¹

Affiliation(s)

¹ Dalian Vocational and Technical College, Dalian, Liaoning, 116035, China

Corresponding Author

Bin Xie

ABSTRACT

At present, the robot operation information interface is faced with many unreasonable parts, such as the slow processing speed of the interaction information of the operation interface and the low accuracy of robot control. In view of this phenomenon, a visual simulation study on the interaction information of the robot operation interface is proposed. There is interactive information in man-machine operation interface, including manipulating objects and information points, integrating interactive information units, using knowledge element to process interactive information in robot operation interface to obtain information fusion set, and processing and processing interactive information. The information fusion set collected the basic information of the operator in many aspects, calculated the basic elements of the measurement information, calculated the entropy value by the algorithm, combined with different weight values, and calculated the fusion value comprehensively by adding the weighted values. After the weighted weight processing value into the controller for calculation, calculation of various deviations, omit the value and supplementary items, adjust all parameters to control the robot. And according to the real-time situation of robot operation interface interaction information, constantly adjust various parameters to adapt to new scenes. This paper studies the principle and content of visual simulation of interactive information of robot operation interface, and expounds the outstanding performance of visual simulation of interactive information of robot operation interface to improve the convenience of interaction. The data show that the interactive information visualization simulation of robot operation interface has significant results in visualization and high control accuracy.

KEYWORDS

Robot Operation, Operation Interface, Interactive Information, Visual Simulation

CITE THIS PAPER

Bin Xie, Visual Simulation of Interactive Information of Robot Operation Interface. Automation and Machine Learning (2023) Vol. 4: 61-67. DOI: http://dx.doi.org/10.23977/autml.2023.040209.

REFERENCES

[1] Maksimenko O L, Evgrafova Y A. Inherent Features and the Root Process of the Screen Text as the Audio- Visual Simulation of Reality. Concept Philosophy Religion Culture, 2020, 4(4):46-56.
[2] Sanjoyo B A, Hariadi M, Purnomo M H. Stable Algorithm Based On Lax-Friedrichs Scheme for Visual Simulation of Shallow Water. EMITTER International Journal of Engineering Technology, 2020, 8(1):19-34.
[3] Yu M, Osadskaya A, Shcherbakov S. Methodological Support of Additional Professional Education: Simulation and Labor Costs Estimation. Bulletin of Science and Practice, 2021, 7(1):340-349.
[4] Guevremont M, Hammad A. Ontology for Linking Delay Claims with 4D Simulation to Analyze Effects-Causes and Responsibilities. Journal of Legal Affairs and Dispute Resolution in Engineering and Construction, 2021, 13(4): 04521024-04521024.
[5] Ahmed S Z, Jensen J, Weidner C A, et al. Quantum composer: A programmable quantum visualization and simulation tool for education and research. American Journal of Physics, 2021, 89(3):307-316.
[6] Kim D, Han S, Kim T, et al. Design of a Sensitive Balloon Sensor for Safe Human–Robot Interaction. Sensors, 2021, 21(6):2163-2163.
[7] Podpora M, Gardecki A, Beniak R, et al. Human Interaction Smart Subsystem—Extending Speech-Based Human-Robot Interaction Systems with an Implementation of External Smart Sensors. Sensors, 2020, 20(8):2376-2376.
[8] H Su, Lallo A D, Murphy R R, et al. Physical human–robot interaction for clinical care in infectious environments. Nature Machine Intelligence, 2021, 3(3):184-186.
[9] Asemi A, Ko A, Nowkarizi M. Intelligent libraries: a review on expert systems, artificial intelligence, and robot. Library Hi Tech, 2020, 26(June):1-23.
[10] Tao H, Rahman M A, Jing W, et al. Interaction modeling and classification scheme for augmenting the response accuracy of human-robot interaction systems. Work, 2021, 68(5):1-10.
[11] Iwasaki M, Ikeda M, Kawamura T, et al. State-Transition Modeling of Human–Robot Interaction for Easy Crowdsourced Robot Control. Sensors, 2020, 20(22):6529-6529.
[12] Permatasari D A, Fakhrurroja H, Machbub C. Human-Robot Interaction Based on Dialog Management Using Sentence Similarity Comparison Method. International Journal on Advanced Science Engineering and Information Technology, 2020, 10(5):1881-1881.
[13] Badr A A, Karim A. A Review on Voice-based Interface for Human-Robot Interaction. Iraqi Journal for Electrical and Electronic Engineering, 2020, 16(2):91-102.
[14] Hsieh W F, Sato-Shimokawara E, Yamaguchi T. Investigation of Robot Expression Style in Human-Robot Interaction. Journal of Robotics and Mechatronics, 2020, 32(1):224-235.
[15] Romano D, Bloemberg J, Tannous M, et al. Impact of Aging and Cognitive Mechanisms on High-Speed Motor Activation Patterns: Evidence From an Orthoptera-Robot Interaction. IEEE Transactions on Medical Robotics and Bionics, 2020, 2(2):292-296.

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