使用传统终端设计方法受到动静态特征影响,导致终端像素密度较小,影响终端显示清晰度。针对该问题,提出基于大数据交互式的舰船通信移动终端UI设计方法。采用正交馈电方式改善天线圆极化性能,利用双峰谐振展宽带宽改善方向性图对称性。分析三维场景模型中动静态特征,通过计算机构建三维场景的虚拟空间,对三维场景进行注释,满足三维场景交互式需求。通过渲染器设备渲染帧操作,采用线条设计图标。通过三维动画场景计算三维动画节点坐标,对场景节点进行编组处理,保证动画连续性。利用大数据交互技术表示三维动画交互信息,通过界面坐标变换实时显示界面动态操作,实现显示界面的大数据交互变换。设计抗干扰功能,避免移动终端受到干扰影响。由实验结果可知,该设计方法使显示终端具有良好对称性,且像素密度为50PPI,使显示结果具有高清效果。
The traditional terminal design method is affected by the dynamic and static features, which leads to the small pixel density of the terminal and affects the clarity of the terminal display. Aiming at this problem, a UI design method of ship communication mobile terminal based on big data interaction is proposed. The circular polarization performance of the antenna is improved by orthogonal feeding method, and the directional pattern symmetry is improved by using bimodal resonance to broaden the bandwidth. The dynamic and static characteristics of the 3D scene model were analyzed. The virtual space of the 3D scene was constructed by computer, and the 3D scene was annotated to meet the interactive requirements of the 3D scene. The frame operation is rendered through the renderer device, and the icon is designed with lines. The coordinates of 3D animation nodes are calculated through 3D animation scene, and the scene nodes are grouped to ensure the continuity of animation. The big data interaction technology is used to represent the interactive information of 3D animation, and the interface coordinate transformation is used to display the dynamic operation of the interface in real time to realize the big data interaction transformation of the display interface. Anti-interference function is designed to prevent mobile terminals from receiving interference. According to the experimental results, the design method makes the display terminal have good symmetry, and the pixel density is 50PPI, which makes the display result have high definition effect.
2022,44(19): 154-157 收稿日期:2022-04-02
DOI:10.3404/j.issn.1672-7649.2022.19.031
分类号:TP311.56
基金项目:江西省高校人文社会科学研究青年项目(YS20230)
作者简介:袁晶(1983-),女,硕士,副教授,研究方向为交互设计
参考文献:
[1] 翟延忠, 翟宝蓉, 马强, 等. 基于STM32的人机交互终端的设计[J]. 仪表技术与传感器, 2020(2): 105–109
[2] 王兴涛, 赵训威, 孙孝波, 等. 230MHz电力无线专网通信终端设计与应用[J]. 电讯技术, 2021, 61(8): 999–1004
[3] 王云棣, 王兴涛, 吴庆, 等. 1.8GHz电力无线专网远程通信终端设计[J]. 电子技术应用, 2020, 46(5): 88–92
[4] 童向杰, 谢凤玲. 一种移动终端中提高卡接口可靠性的策略[J]. 电子器件, 2020, 43(4): 922–927
[5] 张磊, 吴颖, 杨建常. 基于大数据挖掘的电力通信信号异常数据提取方法[J]. 科技通报, 2022, 38(6): 35–38+44
[6] 徐林, 蒋祖运, 杨乾远, 等. 移动激光通信设备伺服稳定系统动态性能优化设计[J]. 光通信技术, 2020, 44(8): 38–42
[7] 陈文, 向罗勇. 基于移动网络的电力移动终端安全通信探究[J]. 电视技术, 2022, 46(1): 41–43
[8] 刘为, 王琳, 温文坤, 等. 卫星移动通信地面终端单跳直通技术方案[J]. 中国电子科学研究院学报, 2021, 16(4): 374–385
