基于PIC32的云台式地质灾害体位移监测终端设计

实现了一种以PIC32处理器为核心,搭载激光测距传感器的云台式位移监测终端的设计。终端利用激光测距传感器的非接触测量优势结合云台的立体空间内旋转功能,可以实现对地质灾害体在立体空间内位移变化情况的实时数据采集和在线监测。介绍了地质灾害体位移监测终端的组成,重点对终端测量原理、终端控制板软硬件进行了设计。终端设备结构简单,采集传输数据过程具有较好的实时性和可靠性。...

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Bibliographic Details
Published in电子技术应用 Vol. 42; no. 3; pp. 51 - 53
Main Author 赵晓军 湛钊 周希思
Format Journal Article
LanguageChinese
Published 河北大学电子信息工程学院,河北保定,071000 2016
Subjects
PIC32
地质灾害
激光测距
监测系统
PIC32
激光测距
监测系统
laser ranging
monitoring system
geological hazard
地质灾害
Online AccessGet full text
ISSN0258-7998
DOI10.16157/j.issn.0258-7998.2016.03.014

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Summary:实现了一种以PIC32处理器为核心,搭载激光测距传感器的云台式位移监测终端的设计。终端利用激光测距传感器的非接触测量优势结合云台的立体空间内旋转功能,可以实现对地质灾害体在立体空间内位移变化情况的实时数据采集和在线监测。介绍了地质灾害体位移监测终端的组成,重点对终端测量原理、终端控制板软硬件进行了设计。终端设备结构简单,采集传输数据过程具有较好的实时性和可靠性。
Bibliography:PIC32; laser ranging; geological hazard; monitoring system
The remote heads of geological hazard displacement monitoring terminator based on PIC32 processor as the core, equipped with laser rangefinder. The terminal using the advantage that non- contact measuring of laser ranging sensor and stereo space rotation function of PTZ to realize real- time data acquisition and on- line monitoring of geological disasters in the three- di-mensional space. This paper introduces components of the displacement monitoring terminal of geological hazard body, focus on ter-minal measurement principle, software and hardware design of terminal control panel. Terminal device has the advantages, such as simple structure, data acquisition, and it ′ s transmission process has good real- time performance and reliability.
Zhao Xiaojun,Zhan Zhao,Zhou Xisi (School of Electronic Information Engineering, Hebei University, Baoding 071000, China)
11-2305/TN
ISSN:0258-7998
DOI:10.16157/j.issn.0258-7998.2016.03.014