Human-Computer Interaction Design of Remote Control System for Automobile Crane Based on FBS
Keywords:
Remote control system, Human-computer interaction, FBS design model, Ergonomic simulationAbstract
Objective: To derive the user interaction paradigm and prototype design in the remote control process through human-computer interaction analysis and the FBS design model, construct the human-computer interaction process of the remote control system, and form a design plan for the crane remote control system. Methods: Firstly, based on user research and experiments, the human-computer interaction characteristics of the existing crane control system were analyzed and studied, and a human-computer interaction model of the crane remote control system was constructed. Secondly, combining functional requirements and user behavior characteristics, and using the FBS (Function-Behavior-Structure) design analysis method, the structural composition of the crane remote interaction system was derived, and specific solutions were designed based on human-computer interaction research. Finally, Creo Manikin was used for ergonomic simulation analysis and verification. Conclusion: Through human-computer interaction analysis and the FBS design model, design factors were identified and a design plan was developed, forming a design plan for the crane remote control system. This has certain theoretical research significance and application value for the design and development of remote operating system products for construction machinery.
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