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舰船智能导航显控界面交互设计与应用
Interactive design and application of ship intelligent navigation display control interface
- DOI:
- 作者:
- 贾园园
JIA Yuan-yuan
- 作者单位:
- 郑州科技学院, 河南 郑州 450064
Zhengzhou Institute of Science and Technology, Zhengzhou 450064, China
- 关键词:
- 舰船智能导航;显控界面;交互设计;元件间距;布局模型;灰狼搜索算法
ship intelligent navigation; display and control interface; interaction design; component spacing; layout model; gray wolf search algorithm
- 摘要:
- 为提升显控界面的交互效果,确保舰船航行安全,提出舰船智能导航显控界面交互设计与应用。利用PS平面软件或Axure软件,绘制显控交互界面元件;在Axure软件内,以最大元件间距、最大视觉注意等级与最大隐喻度为目标,建立绘制显控交互界面元件布局模型,通过灰狼搜索算法求解该模型,得到绘制显控交互界面元件布局结果;在布局后的界面内加入交互用例,实现显控界面交互原型设计。若符合交互需求,则完成显控界面交互设计,反之修改界面布局方案。实验证明:该方法可有效布局显控交互界面的元件,并符合人眼的视觉需求;应用该方法后,操作人员操作显控界面时的反应速度较快,θ波功率较低,该方法可有效降低操作人员的脑力负荷,具备较优的交互效果。
In order to improve the interactive effect of display and control interface and ensure the safety of ship navigation, the interactive design and application of display and control interface for ship intelligent navigation are proposed. Use PS plane software or Axure software to draw display and control interactive interface elements; In Axure software, aiming at the maximum component spacing, the maximum visual attention level and the maximum metaphor, a component layout model for drawing the display and control interactive interface is established, and the grey wolf search algorithm is used to solve the model to obtain the component layout result for drawing the display and control interactive interface. Add interactive use cases into the layout interface to realize the interactive prototype design of the display and control interface; If it meets the interaction requirements, complete the interactive design of the display and control interface, otherwise modify the interface layout scheme. Experiments show that this method can effectively lay out the elements of display and control interactive interface and meet the visual needs of human eyes. After applying this method, the response speed of the operator when operating the display and control interface is faster, and the θ wave power is lower. This method can effectively reduce the mental load of the operator and has better interaction effect.
2023,45(10): 168-171 收稿日期:2023-01-18
DOI:10.3404/j.issn.1672-7649.2023.10.034
分类号:TP391
作者简介:贾园园(1989-),女,硕士,讲师,研究方向为环境设计
