以实现舰船智能导航系统交互界面合理布局和色彩搭配,更直观和易于理解交互内容为目的,设计视觉传达下舰船智能导航系统交互界面优化方法。计算舰船智能导航系统交互界面组成元件的视觉注意力,对交互界面的视觉感知强度进行划分,依据舰视觉注意力和交互界面视觉感知强度建立舰船智能导航系统交互界面优化模型,利用该模型优化交互界面内组成元件布局,再分别从垂直和径向方向对对舰船智能导航系统界面颜色进行优化,使交互界面内信息呈现更加直观和易于理解。实验表明;该方法可准确计算舰船智能导航系统交互界面内不同组成元件的视觉注意力,并可有效对交互界面内组成元件进行布局优化和颜色优化,提升该交互界面的视觉传达效果。
To achieve a reasonable layout and color matching of the interactive interface of the intelligent navigation system for ships, and to make the interactive content more intuitive and easy to understand, a method for optimizing the interactive interface of the intelligent navigation system for ships under visual communication is designed. Calculate the visual attention of the components in the interactive interface of the ship's intelligent navigation system, divide the visual perception intensity of the interactive interface, establish an optimization model for the interactive interface of the ship's intelligent navigation system based on the ship's visual attention and the visual perception intensity of the interactive interface, use this model to optimize the layout of the components in the interactive interface, and then optimize the interface color of the ship's intelligent navigation system from the vertical and radial directions respectively, making the information presented in the interactive interface more intuitive and easy to understand. The experiment shows that this method can accurately calculate the visual attention of different components in the interactive interface of the ship intelligent navigation system, and can effectively optimize the layout and color of the components in the interactive interface, improving the visual communication effect of the interactive interface.
2024,46(19): 157-160 收稿日期:2024-4-30
DOI:10.3404/j.issn.1672-7649.2024.19.028
分类号:TP181
作者简介:王婵婧(1990-),女,硕士,讲师,研究方向为视觉传达设计
参考文献:
[1] 张仪, 冯伟, 王卫军, 等. 融合LSTM和PPO算法的移动机器人视觉导航[J]. 电子测量与仪器学报, 2022, 36(8): 132-140.
ZHANG Yi, FENG Wei, WANG Weijun, et al. Visual navigation of mobile robots based on LSTM and PPO algorithms[J]. Journal of Electronic Measurement and Instrumentation, 2022, 36(8): 132-140.
[2] 季煜恒, 李春通, 骆晓萌, 等. 基于人因工程的船舶驾驶室人机界面布局优化设计[J]. 上海交通大学学报, 2024, 58(2): 201-210.
JI Yuheng, LI Chuntong, LUO Xiaomeng, et al. Layout optimization design of human machine interface in wheel house based on ergonomics[J]. Journal of Shanghai Jiaotong University, 2024, 58(2): 201-210.
[3] 许永生, 李丽丽, 吴尤荻, 等. 基于注意力分配的高铁操纵台界面布局优化设计[J]. 西南交通大学学报, 2022, 57(2): 401-409.
XU Yongsheng, LI Lili, WU Youdi, et al. Optimization design of interface layout of high-speed railway control console based on attention distribution[J]. Journal of Southwest Jiaotong University, 2022, 57(2): 401-409.
[4] 韦曦, 孙靖. 具有几何约束的非等面积界面布局优化方法[J]. 包装工程, 2022, 43(24): 75-86.
WEI Xi, SUN Jing. Non-equal area interface layout optimization method with geometric constraints[J]. Packaging Engineering, 2022, 43(24): 75-86.
[5] 赵超峰, 孙希延, 纪元法, 等. 基于Innovus混合放置的布局规划方法优化[J]. 半导体技术, 2024, 49(1): 64-70.
ZHAO Chaofeng, SUN Xiyan, JI Yuanfa, et al. Optimization of the floorplan method based on innovus mixed placer[J]. Semiconductor Technology, 2024, 49(1): 64-70.
[6] 孙宁娜, 孟忠涛. 基于心流PAT模型的界面设计策略研究[J]. 包装工程, 2023, 44(20): 217-228.
SUN Ningna, MENG Zhongtao. Interface design strategy based on flow PAT model[J]. Packaging Engineering, 2023, 44(20): 217-228.
