摘要
现有的虚拟仿真实验系统没有准确的人机交互辨别机制,导致虚拟仿真设备使用过程中信号接收效果较差,为提高信号链路稳定性,基于海绵校园更新设计开发虚拟仿真实验系统。通过设计单片机系统电路,设置人机交互编码结构,并将其接入三极管连接端口,完成系统的硬件设计;通过建立校园空间雨洪分析模块和海绵校园地理数据可视化模块,完成系统的模块化设计,根据硬件设计和软件设计,实现海绵校园更新设计虚拟仿真实验系统的开发。在实验中与本文系统设计前进行对比可知,海绵校园更新设计虚拟仿真实验系统的径流总量控制率、雨水利用率、径流污染物削减率均较高。
The existing virtual simulation experiment system does not have an accurate human-computer interaction identification mechanism,which leads to poor signal receiving effect in the process of using virtual simulation equipment.In order to improve the stability of signal link,a virtual simulation experiment system based on sponge campus update is designed and developed.The hardware design of the system is completed by designing the circuit of the single-chip microcomputer system,setting up the coding structure of human-computer interaction,and connecting it to the connecting port of the triode.Through the establishment of campus space rain flood analysis module and sponge campus geographic data visualization module,the modular design of the system is completed.According to the hardware design and software design,the development of sponge campus renewal design virtual simulation experiment system is realized.In the experiment,compared with the last system design,the control rate of total runoff,the utilization rate of rainwater and the reduction rate of runoff pollutants of sponge campus renewal design virtual simulation experiment system are higher.
作者
张晶
马潇潇
ZHANG Jing;MA Xiao-xiao(Wuhan Donghu University,Wuhan 430212,China)
出处
《计算机与现代化》
2022年第4期110-114,共5页
Computer and Modernization
基金
2016年武汉东湖学院教学研究项目(2016-66)。
关键词
海绵校园
更新设计
虚拟仿真实验系统
单片机
sponge campus
renewal design
virtual simulation experiment system
single-chip
