IIStudyofanEmbeddedImageMonitoringSystemBasedonARMDiscipline:ControltheoryandcontrolengineeringStudentsignature:Supervisorsignature:ABSTRACTWiththerapidevolutionofdigitalimage,embeddedcomputerandcommunicationtechnique,embeddedimagemonitoringsystembecomesanewresearchinginterest.However,alargenumberofpointlesspicturesaretransmittedbacktothemonitoringcenter,whichincreasescommunicationquantityandsurveillanceload;generally,theimage’sdefinitioninremotesurveillanceislowbecauseofitslimitedtransmissionchannel.Animprovingwayismovingobjectdetectioninthefrontofsystem,andsnatchingahighdefinitionpicturewhenmotionhappensandthentransferringbacktothemonitoringcenter.Thismethodcansettlethecontradictionbetweendefinitionandtransferringspeed.Inthedissertation,akindofembeddedimagemonitoringsystembasedonARMisdiscussed.ThesystemhasthefunctionsofmotiondetectionandpicturetransmissionbasedonGPRS,andimprovestheflexibilityofsettingandthedefinitionofabnormalpicture.ThesystemtakesLPC2210basedonARM7coreasitscentralprocessor,andembeddedOSµC/OS-IIasitssoftwareplatform.Movingobjectdetectionadoptsamethodofdynamicdifferencebackgroundimage,whoseprincipleistocalculatedifferencepictureamongthecurrentframesandbackgroundimagesandtakethemotionadjudgingthresholdwhichownsmaximuminformationentropytodeterminemovingarea;anddynamicallyupdatesbackgroundbyusingKalmanfilter.Thus,thesystemrealizesthejudgmentofthemovingareaunderthecomplicatedchangingbackground.ThemonitoringsystemadoptsembeddedWebservertechnologytosendwarninginformationandon-the-spotpicturetotheremotemonitoringcenter.Thewiredorwirelessremotetransmissionchannel(EthernetorGPRS)canbeadoptedbetweenthecenterandthefrontcontrolpoint,andhasthefeaturesofmutualsupplement,convenienceandflexibility.AndGPRScommunicationterminaladoptsWavecomwirelessmoduletotransmitmonitoringimagethroughwirelesscommonnetwork.Inthedissertation,theprincipleandimplementationofembeddedimagemonitoringsystembasedonARMarediscussed.Experimentalresultsshowthattheimplementedsystemperformswellinaccuratelydetectingmotionandlow-levelFAR;andtheGPRSIIItransmissionissosteadythattheshutdownmomentisfew.Meanwhile,therealizationoftheimagemonitoringsystemprovideainitialplatformforthesubsequentresearch,suchasobjectsorting,objecttracking,remotetransmitting,scenecontrollingetc..KeyWords:imagemonitoring;embeddedsystem;ARM;µC/OS-II;motiondetection;TCP/IP;GPRS;embeddedwebserverI基于ARM的嵌入式图像监控系统研究学科:控制理论与控制工程研究生签字:指导教师签字:摘要随着数字图像技术、嵌入式计算机技术和通信技术的飞速发展,嵌入式图像监控系统己成为当今监控领域的一个新的研究热点。然而,大量无意义画面的回传在增加通信量的同时,并没有减轻监控图像判读的工作量;而受有效传输速率的限制,远程图像监控系统的清晰度一般较低。在前端对图像进行运动检测和分析,并在符合规则时抓拍高清晰度图片传回监控中心,可有效解决清晰度和传输速率间的矛盾。本文提出了一种基于ARM的嵌入式图像监控系统,它在前端实现了运动检测,并采用GPRS无线信道进行远程图像传输,提高了监控系统的布站灵活性和特异图像的清晰度。系统以基于ARM7内核的嵌入式微处理器LPC2210为核心,嵌入式实时操作系统µC/OS-II作为软件开发平台。运动目标检测采用动态差分背景图像法,其原理是利用序列图像中当前帧图像减去背景图像,并采用使信息熵最大化的运动判决门限判定运动区域;采用Kalman滤波动态背景生成实现了背景的动态更新;从而实现了复杂变化背景下图像运动区域的判决。监控系统采用嵌入式Web服务器技术将报警信息...
