基于嵌入式系统的传感器应用试验设计
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摘要
嵌入式系统传感器是当前在多个领域内广泛应用的一种设备,其中包括教学领域。传统的嵌入式系统传感器,在满足日益增长的教学、学生等各方面的需求时,出现了多方面的不足,针对这些不足,通过嵌入式系统实验平台设计了相应传感器。对设计中的硬件电路和系统软件逐一进行了分析。设计的出发点在于:在嵌入式系统平台的支撑之下,可使开发的实验内容的难度梯度和分层属性更加明显;从学生的角度上,能够提供一定的预留设计内容,实现引导学生积极探索、使公共课程之间的内在联系得到加强的目的。此外,还对嵌入式系统的搭载平台进行设计,实验结果证实了本文设计的有效性。
Embedded system sensors are a kind of equipment currently used in many fields,including the teaching field.In the traditional teaching field,embedded system sensor applications,in order to meet the teaching,students and other aspects.Demand,but in terms of application effects,there have been many shortcomings.In order to address the shortcomings,this paper designs the corresponding sensors through the embedded system experimental platform,and analyzes the hardware circuit and system software design in this paper.The starting point of this paper is that under the support of the embedded system platform,the difficulty gradient and layering attributes of the experimental content can be more obvious,so that from the perspective of students,it can provide certain reserved design content and realize Guide students to actively explore and strengthen the internal links between public courses.In addition,this paper also designs the platform for the embedded system,and the experimental results confirm the effectiveness of the design.
Embedded system sensors are a kind of equipment currently used in many fields,including the teaching field.In the traditional teaching field,embedded system sensor applications,in order to meet the teaching,students and other aspects.Demand,but in terms of application effects,there have been many shortcomings.In order to address the shortcomings,this paper designs the corresponding sensors through the embedded system experimental platform,and analyzes the hardware circuit and system software design in this paper.The starting point of this paper is that under the support of the embedded system platform,the difficulty gradient and layering attributes of the experimental content can be more obvious,so that from the perspective of students,it can provide certain reserved design content and realize Guide students to actively explore and strengthen the internal links between public courses.In addition,this paper also designs the platform for the embedded system,and the experimental results confirm the effectiveness of the design.
引文
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[2]刘文艺,刘立群,单梦晨,等.基于无线传感器网络的实验室智能监控系统设计[J].实验室研究与探索,2017,36(6):259-262.
[3]刘赛.基于车载嵌入式系统和云计算的道路监控系统设计[J].科技风,2016(3):22-23.
[4]钱坤,齐莉.采棉机智能监控系统的设计与研究-基于嵌入式云计算平台[J].农机化研究,2017,39(4):226-228.
[5]张微微,王政,杨静宜,等.基于嵌入式云计算平台的采棉机监控系统设计[J].农机化研究,2016,38(7):50-54.
[6]侯庆志,熊继军.嵌入式传感器节点设计及其应用[J].中国新通信,2014(8):80-81.
[7]曾海峰.基于ARM的嵌入式智能入侵检测系统设计[J].微型机与应用,2015,34(12):85-87.
[8]苏世洵,朱志祥.基于蜜罐的嵌入式主动防御系统设计与实现[J].物联网技术,2017,7(7):86-88.
[9]乐振春,刘文韬,赵文彬.基于图像识别的嵌入式架空线路监测系统[J].华东电力,2014,42(1):61-66.
[10]王天正,李扬,芦竹茂,等.基于嵌入式图像识别技术的空间小位移测量[J].计算机应用与软件,2017,34(9):206-210.
[11]尹成瑞.基于CMOS+ARM的运动图像识别系统设计[J].计算机与数字工程,2016,44(4):725-729.
[12]冷建伟,沈芳婷.基于嵌入式Linux的水文监测系统[J].电子设计工程,2017,25(14):183-186.
[13]左海春.基于嵌入式Linux的船舶气象仪数据采集软件系统开发[J].舰船科学技术,2017(24):176-178.
[14]刘涛.利用ARM嵌入式设计海洋气象数据采集存储模块[J].舰船科学技术,2017(6):186-188.
[15]李小峰,于慧彬.基于CAN总线技术的船载气象仪网络化改进设计[J].科技创新与生产力,2015(4):64-66.
[16]高强.基于CAN总线的嵌入式气象仪器转换器设计初探[J].通讯世界,2017(22):360-360.