add：记录cpu温度；

Header_Files/configfile.h

@@ -68,8 +68,36 @@ public:
 //    bool updateConfigFile();
     bool writeConfig2File();
 
-private:
     string m_configfilePath;
     Config cfg;
+private:
+};
+
+class StateOf300tcConfigfile:public ParameterConfigfile
+{
+public:
+    StateOf300tcConfigfile();
+
+    bool getSwitchState(bool &switchState);
+    bool setSwitchState(bool switchState);
+
+    bool getSbgState(int &sbgState);
+    bool setSbgState(int sbgState);
+
+    bool getSbgSolutionMode(int &sbgSolutionMode);
+    bool setSbgSolutionMode(int sbgSolutionMode);
+
+    bool getXimeaState(int &ximeaState);
+    bool setXimeaState(int ximeaState);
+
+    bool getExposeMaxValueOfOneFrame(int &exposeMaxValueOfOneFrame);
+    bool setExposeMaxValueOfOneFrame(int exposeMaxValueOfOneFrame);
+
+    bool createConfigFile();
+
+private:
+    bool getIntValue(int &value, string field);
+    bool setIntValue(int value, string field);
+
 };
 #endif //XIMEAIMAGERECORDER_CONFIGFILE_H

Header_Files/udpserver.h

@@ -11,17 +11,43 @@
 #include <QObject>
 #include <QThread>
 #include <QDir>
+#include <QtSerialPort/QSerialPort>
+#include <QtSerialPort/QSerialPortInfo>
 
 #include "ximeaimager.h"
 #include "sbgrecorder.h"
 #include "fileoperation.h"
 
+#include "configfile.h"
+
 extern "C"
 {
 //    #include <sbgEComLib.h>
     #include <stdlib.h>
 }
 
+class Record300TcTemperature : public QObject
+{
+Q_OBJECT
+
+public:
+    Record300TcTemperature();
+
+    void stopRecordTemperature();
+
+private:
+    bool m_bIsRecord;
+
+    QSerialPort * m_serial;
+
+    float parseMessage(QByteArray * data);
+public slots:
+    void recordTemperature(QString filePath);
+
+signals:
+
+};
+
 class UdpServer:public QObject
 {
     Q_OBJECT
@@ -48,6 +74,11 @@ class UdpServer:public QObject
 
     void sender(int status);
 
+    QThread * m_recordTempThread;
+    Record300TcTemperature * m_300tcTemperature;
+
+    StateOf300tcConfigfile stateOf300tc;
+
 signals:
     void systemStart();
     void systemStop();
@@ -56,6 +87,7 @@ signals:
     void startDeleteFileSignal();
 
     void recordXimeaOnlySignal(double,QString);
+    void record300tcTemperatureSignal(QString);
 
 public slots:
     void onRecordFinished();

Header_Files/ximeaimager.h

@@ -70,12 +70,13 @@ private:
 
 };
 
+class XimeaImager;
 class RecordXimeaTemperature : public QObject
 {
 Q_OBJECT
 
 public:
-    RecordXimeaTemperature(Iris::IrisXimeaImager * imager);
+    RecordXimeaTemperature(Iris::IrisXimeaImager * imager, XimeaImager * ximeaImager);
 
     void stopRecordTemperature();
 
@@ -83,6 +84,7 @@ private:
     Iris::IrisXimeaImager * m_imager;
 
     bool m_bIsRecord;
+    XimeaImager * m_ximeaImager;
 public slots:
     void recordTemperature(QString filePath);
 

Source_Files/configfile.cpp

@@ -554,7 +554,7 @@ bool ParameterConfigfile::getFrameRate(int &frameRate)
         const Setting &ximeaParam = root["ximeaParam"];
         frameRate = ximeaParam.lookup("frameRate");
 
-        std::cout << "----------------"<< frameRate<<std::endl;
+//        std::cout << "ParameterConfigfile::getFrameRate："<< frameRate<<std::endl;
         return true;
     }
     catch(const SettingNotFoundException &nfex)
@@ -591,7 +591,7 @@ bool ParameterConfigfile::getExposeTime(float &exposeTime)
         const Setting &ximeaParam = root["ximeaParam"];
         exposeTime = ximeaParam.lookup("exposeTime");
 
-        std::cout << "----------------"<< exposeTime<<std::endl;
+//        std::cout << "ParameterConfigfile::getExposeTime"<< exposeTime<<std::endl;
         return true;
     }
     catch(const SettingNotFoundException &nfex)
@@ -628,7 +628,7 @@ bool ParameterConfigfile::writeConfig2File()
         bool ret = createDir(fileInfo[0]);
 
         cfg.writeFile(m_configfilePath.c_str());
-        cerr << "New configuration successfully written to: " << m_configfilePath.c_str() << endl;
+//        cerr << "New configuration successfully written to: " << m_configfilePath.c_str() << endl;
     }
     catch(const FileIOException &fioex)
     {
@@ -637,3 +637,126 @@ bool ParameterConfigfile::writeConfig2File()
     }
     return true;
 }
+
+StateOf300tcConfigfile::StateOf300tcConfigfile()
+{
+}
+
+bool StateOf300tcConfigfile::getIntValue(int &value, string field)
+{
+    const Setting& root = cfg.getRoot();
+    try
+    {
+        const Setting &ximeaParam = root["ximeaParam"];
+        value = ximeaParam.lookup(field);
+
+//        std::cout << "StateOf300tcConfigfile::getIntValue"<< value<<std::endl;
+        return true;
+    }
+    catch(const SettingNotFoundException &nfex)
+    {
+        cerr << "No setting in configuration file." << endl;
+        return false;
+    }
+}
+
+bool StateOf300tcConfigfile::setIntValue(int value, string field)
+{
+    const Setting& root = cfg.getRoot();
+    try
+    {
+        Setting &frameRate2 = root["ximeaParam"][field];
+        frameRate2 = value;
+
+        writeConfig2File();
+
+        return true;
+    }
+    catch(const SettingNotFoundException &nfex)
+    {
+        cerr << "No setting in configuration file." << endl;
+        return false;
+    }
+}
+
+bool StateOf300tcConfigfile::createConfigFile()
+{
+    using namespace std;
+    using namespace libconfig;
+
+    Config cfg;
+
+    Setting &root = cfg.getRoot();
+
+    // Add some settings to the configuration.
+//    Setting &SN = root.add("SN", Setting::TypeString) = "0098";
+//    Setting &spatialBin = root.add("spatialBin", Setting::TypeInt) = 2;
+//    Setting &SpectralBin = root.add("spectralBin", Setting::TypeInt) = 2;
+
+    Setting &ximeaParam = root.add("ximeaParam", Setting::TypeGroup);
+    ximeaParam.add("sbgState", Setting::TypeInt) = 0;
+    ximeaParam.add("sbgSolutionMode", Setting::TypeInt) = 0;
+    ximeaParam.add("ximeaState", Setting::TypeInt) = 100;
+    ximeaParam.add("frameRate", Setting::TypeInt) = 0;
+    ximeaParam.add("exposeTime", Setting::TypeFloat) = 0.0;
+    ximeaParam.add("exposeMaxValueOfOneFrame", Setting::TypeInt) = 0;
+
+
+    // Write out the new configuration.
+    try
+    {
+        QList<QString> fileInfo = getFileInfo(QString::fromStdString(m_configfilePath));
+        bool ret = createDir(fileInfo[0]);
+
+        cfg.writeFile(m_configfilePath.c_str());
+        cerr << "New configuration successfully written to: " << m_configfilePath.c_str() << endl;
+
+    }
+    catch(const FileIOException &fioex)
+    {
+        cerr << "I/O error while writing configuration file: " << m_configfilePath.c_str() << endl;
+        return true;
+    }
+
+    return true;
+}
+
+bool StateOf300tcConfigfile::getSbgState(int &sbgState)
+{
+    return getIntValue(sbgState,"sbgState");
+}
+
+bool StateOf300tcConfigfile::setSbgState(int sbgState)
+{
+    return setIntValue(sbgState,"sbgState");
+}
+
+bool StateOf300tcConfigfile::getSbgSolutionMode(int &sbgSolutionMode)
+{
+    return getIntValue(sbgSolutionMode,"sbgSolutionMode");
+}
+
+bool StateOf300tcConfigfile::setSbgSolutionMode(int sbgSolutionMode)
+{
+    return setIntValue(sbgSolutionMode,"sbgSolutionMode");
+}
+
+bool StateOf300tcConfigfile::getXimeaState(int &ximeaState)
+{
+    return getIntValue(ximeaState,"ximeaState");
+}
+
+bool StateOf300tcConfigfile::setXimeaState(int ximeaState)
+{
+    return setIntValue(ximeaState,"ximeaState");
+}
+
+bool StateOf300tcConfigfile::getExposeMaxValueOfOneFrame(int &exposeMaxValueOfOneFrame)
+{
+    return getIntValue(exposeMaxValueOfOneFrame,"exposeMaxValueOfOneFrame");
+}
+
+bool StateOf300tcConfigfile::setExposeMaxValueOfOneFrame(int exposeMaxValueOfOneFrame)
+{
+    return setIntValue(exposeMaxValueOfOneFrame,"exposeMaxValueOfOneFrame");
+}

Source_Files/main.cpp

@@ -3,7 +3,7 @@
 
 int main(int argc, char *argv[])
 {
-    std::cout<<"ximeaAirborneSystem 版本："<< "37." <<std::endl;
+    std::cout<<"ximeaAirborneSystem 版本："<< "41." <<std::endl;
     QCoreApplication a(argc, argv);
 
     //UdpServer* x=new UdpServer();

Source_Files/sbgrecorder.cpp

@@ -708,7 +708,7 @@ void sbgtc::SbgRecorder::parseSbgMessage(QByteArray * sbgMessage)
 
 
     //控制开始采集高光谱影像,m_bIsNAV_POSITION_MODE &&
-    if(m_bIsRecordHyperspecatralImage && m_bIsSyncSystemTimeBaseGpstime && receivedMsgClass==SBG_ECOM_CLASS_LOG_ECOM_0 && receivedMsg==SBG_ECOM_LOG_UTC_TIME)
+    if(m_bIsRecordHyperspecatralImage && m_bIsSyncSystemTimeBaseGpstime && m_bIsNAV_POSITION_MODE && receivedMsgClass==SBG_ECOM_CLASS_LOG_ECOM_0 && receivedMsg==SBG_ECOM_LOG_UTC_TIME)
     {
         m_baseFileName=getFileNameBaseOnTime();
         emit sbgReady(calculateTimeDifferenceBetweenSystemAndSbg(logData),m_baseFileName);

Source_Files/udpserver.cpp

@@ -55,7 +55,18 @@ UdpServer::UdpServer()
     connect(m_imager, SIGNAL(frameRateSignal(double)),this, SLOT(sendXimeaImageFrameRate(double)));
     connect(m_copyFile, SIGNAL(copyFileStatus(int)),this, SLOT(sendCopyFileStatus(int)));
 
+    QString ximeaParamCfgFile = "/media/nvme/300TC/config/StateOf300tc.cfg";
+    stateOf300tc.setConfigfilePath(ximeaParamCfgFile.toStdString());
+    if(!stateOf300tc.isConfigfileExist())
+        stateOf300tc.createConfigFile();
+    stateOf300tc.parseConfigfile();
 
+    stateOf300tc.setSbgState(0);
+    stateOf300tc.setSbgSolutionMode(0);
+    stateOf300tc.setXimeaState(100);
+    stateOf300tc.setFrameRate(0);
+    stateOf300tc.setExposeTime(0);
+    stateOf300tc.setExposeMaxValueOfOneFrame(0);
 
     //当软件不正常关闭并且重启后，通知其他psdk程序
     m_clientIpAddress=QHostAddress(QHostAddress::LocalHost);
@@ -65,6 +76,16 @@ UdpServer::UdpServer()
 
     system("sudo gpio write 10 0");
 
+    m_recordTempThread=new QThread();
+    m_300tcTemperature = new Record300TcTemperature();
+    m_300tcTemperature->moveToThread(m_recordTempThread);
+    m_recordTempThread->start();
+    connect(this, SIGNAL(record300tcTemperatureSignal(QString)),m_300tcTemperature, SLOT(recordTemperature(QString)));
+
+    QDateTime curDateTime = QDateTime::currentDateTime();
+    QString currentTime = curDateTime.toString("yyyy_MM_dd_hh_mm_ss");
+    QString Temperature300tcCSVPath = QDir::cleanPath(QString::fromStdString("/media/nvme/300TC/programRunLog/300tcTemperature") + QDir::separator() + "300tcTemperature_" + currentTime + ".csv");
+    emit record300tcTemperatureSignal(Temperature300tcCSVPath);
 
     std::cout<<"UdpServer::UdpServer--------:System ready!"<<std::endl;
 }
@@ -102,7 +123,7 @@ void UdpServer::processPendingDatagrams()
         case 2://关闭系统:关闭相机和sbg串口,关闭软件
         {
             std::cout<<"2代表关闭系统!"<<std::endl;
-
+            m_300tcTemperature->stopRecordTemperature();
 
             if(m_sbgRecorder->getSbgState()>=1)
             {
@@ -167,8 +188,8 @@ void UdpServer::processPendingDatagrams()
         {
             if(m_imager->getImagerState()>=101 && m_imager->getImagerState()<=103)
             {
-                float time = datagramList[1].toFloat();//ms
-                m_imager->wrapSetExposureTime(time*1000);
+                float time = datagramList[1].toFloat();//μs
+                m_imager->wrapSetExposureTime(time);
                 std::cout<<"7，手动设置曝光时间为：" << time <<std::endl;
             }
 
@@ -197,8 +218,30 @@ void UdpServer::processPendingDatagrams()
 
             break;
         }
+        case 10:
+        {
+            std::cout<<"10代表!"<<std::endl;
+
+            int sbgState,sbgSolutionMode,ximeaState,frameRate,exposeMaxValueOfOneFrame;
+            float exposeTime;
+
+            stateOf300tc.getSbgState(sbgState);
+            stateOf300tc.getSbgSolutionMode(sbgSolutionMode);
+            stateOf300tc.getXimeaState(ximeaState);
+            stateOf300tc.getFrameRate(frameRate);
+            stateOf300tc.getExposeTime(exposeTime);
+            stateOf300tc.getExposeMaxValueOfOneFrame(exposeMaxValueOfOneFrame);
+
+            sendSerialPortStatus(sbgState);
+            sendSbgSolutionModeState(sbgSolutionMode);
+            sendXimeaImageStatus(ximeaState);
+            sendXimeaAutoExposeMaxValueOfOneFrame(exposeMaxValueOfOneFrame, exposeTime);
+            sendXimeaImageFrameRate(frameRate);
+
+            break;
+        }
         default:
-            std::cout<<">=9没有意义!"<<std::endl;
+            std::cout<<">=11没有意义!"<<std::endl;
 
             break;
         }
@@ -260,6 +303,8 @@ void UdpServer::sendSerialPortStatus(int serialPortStatus)
 
     datagram2send.operator =(status.toStdString().c_str());
     m_udpSocket->writeDatagram(datagram2send.data(),datagram2send.size(),m_clientIpAddress, 45455);
+
+    stateOf300tc.setSbgState(serialPortStatus);
 }
 
 void UdpServer::sendSbgSolutionModeState(int SolutionMode)
@@ -272,6 +317,8 @@ void UdpServer::sendSbgSolutionModeState(int SolutionMode)
 
     datagram2send.operator =(status.toStdString().c_str());
     m_udpSocket->writeDatagram(datagram2send.data(),datagram2send.size(),m_clientIpAddress, 45455);
+
+    stateOf300tc.setSbgSolutionMode(SolutionMode);
 }
 
 void UdpServer::sendSbgAccuracyState(int Accuracy,int SatelliteCounter)
@@ -296,11 +343,13 @@ void UdpServer::sendXimeaImageStatus(int ximeaImageStatus)
 
     datagram2send.operator =(status.toStdString().c_str());
     m_udpSocket->writeDatagram(datagram2send.data(),datagram2send.size(),m_clientIpAddress, 45455);
+
+    stateOf300tc.setXimeaState(ximeaImageStatus);
 }
 
 void UdpServer::sendXimeaAutoExposeMaxValueOfOneFrame(int autoExposeMaxValueOfOneFrame, double exposeTime)
 {
-//    std::cout<<"UdpServer::sendXimeaAutoExposeMaxValueOfOneFrame---------------------:"<< ximeaImageStatus <<std::endl;
+//    std::cout<<"UdpServer::sendXimeaAutoExposeMaxValueOfOneFrame---------------------:"<< exposeTime << " " << autoExposeMaxValueOfOneFrame <<std::endl;
 
     QByteArray datagram2send;
 
@@ -308,6 +357,9 @@ void UdpServer::sendXimeaAutoExposeMaxValueOfOneFrame(int autoExposeMaxValueOfOn
 
     datagram2send.operator =(status.toStdString().c_str());
     m_udpSocket->writeDatagram(datagram2send.data(),datagram2send.size(),m_clientIpAddress, 45455);
+
+    stateOf300tc.setExposeTime(exposeTime);
+    stateOf300tc.setExposeMaxValueOfOneFrame(autoExposeMaxValueOfOneFrame);
 }
 
 void UdpServer::sendXimeaBinState(int spatialBin, int spectralBin)
@@ -332,6 +384,8 @@ void UdpServer::sendXimeaImageFrameRate(double frameRate)
 
     datagram2send.operator =(status.toStdString().c_str());
     m_udpSocket->writeDatagram(datagram2send.data(),datagram2send.size(),m_clientIpAddress, 45455);
+
+    stateOf300tc.setFrameRate(frameRate);
 }
 
 void UdpServer::sendCopyFileStatus(int fileStatus)
@@ -350,3 +404,199 @@ void UdpServer::onRecordFinished()
 {
     std::cout<<"UdpServer::onRecordFinished----------------:影像停止采集"<<std::endl;
 }
+
+Record300TcTemperature::Record300TcTemperature()
+{
+    m_bIsRecord = true;
+}
+
+void Record300TcTemperature::stopRecordTemperature()
+{
+    m_bIsRecord = false;
+}
+
+void Record300TcTemperature::recordTemperature(QString filePath= nullptr)
+{
+    if(filePath== nullptr)
+        filePath="300tcTemperature.csv";
+    QList<QString> fileInfo = getFileInfo(filePath);
+    bool ret = createDir(fileInfo[0]);
+
+    ofstream temperatureFile300Tc(filePath.toStdString().c_str(),ios::app);
+    int counter = 0;
+
+    m_serial=new QSerialPort();
+
+    if(m_serial->isOpen())//如果串口已经打开了 先给他关闭了
+    {
+        m_serial->clear();
+        m_serial->close();
+    }
+
+    QString portname = "ttyUSB2";
+
+    m_serial->setPortName(portname);
+    m_serial->open(QIODevice::ReadWrite);
+
+    bool x=m_serial->setBaudRate(9600);
+
+    QByteArray requestData;
+    while (m_bIsRecord)
+    {
+        counter++;
+        if(m_serial->waitForReadyRead(30000))
+        {
+            requestData = m_serial->readAll();
+
+            float temp = parseMessage(&requestData);
+            if (temp == -10000)
+            {
+                continue;
+            }
+
+            QDateTime curDateTime = QDateTime::currentDateTime();
+            QString currentTime = curDateTime.toString("yyyy/MM/dd hh:mm:ss");
+
+            temperatureFile300Tc << currentTime.toStdString() << "," << temp << "\n";
+
+//            if(temp > 80)
+//            {
+//                system("/home/300tc/projects/udpClient/udpClient 127.0.0.1 9,0");
+//            }
+//            if(temp > 90)
+//            {
+//                system("/home/300tc/projects/udpClient/udpClient 127.0.0.1 2");
+//            }
+//
+            if (counter % 60 == 0)
+            {
+                temperatureFile300Tc.flush();
+            }
+            sleep(1);
+        }
+        else
+        {
+//            std::cout<<"Record300TcTemperature::recordTemperature--Wait response timeout."<<std::endl;
+        }
+    }
+    m_bIsRecord = true;
+
+    temperatureFile300Tc.close();
+}
+
+float Record300TcTemperature::parseMessage(QByteArray * data)
+{
+    float Lux;
+    float T;
+    float P;
+    float Hum;
+    float H;
+    bool hasTemperature = false;
+
+//    qDebug() << "Received data(hex): " << data->toHex();
+
+//    for (int i = 0; i < data->length(); ++i)
+//    {
+//        qDebug() << i << ":" << (int)data->at(i);
+//    }
+
+    QByteArray target = QByteArray::fromHex("5a5a"); // The pattern to search for
+
+    int offset_tmp = data->indexOf(target);
+    QList<int> offsets;
+
+    while (offset_tmp != -1)
+    {
+        offsets.append(offset_tmp);
+        offset_tmp = data->indexOf(target, offset_tmp + target.size());
+    }
+
+    if (offsets.isEmpty())
+    {
+//        qDebug() << "5A5A not found in the data.";
+        return -10000;
+    }
+//    qDebug() << "5A5A found at offsets:" << offsets;
+
+    for (int i = 0; i < offsets.length(); ++i)
+    {
+        int offset = offsets.at(i);
+
+        int messageClass = data->at(offset + 2);
+        int messageCount = data->at(offset + 3) + 5;
+//        qDebug() << "messageCount:" << messageCount;
+        if (offset + messageCount - 1 > data->length() - 1)
+        {
+            qDebug() << i << ": Some data of this frame is missing! Discarding the frame.";
+            continue;
+        }
+
+
+        int checksum = 0;
+        QList<int> numbers;
+        for (int j = 0; j < messageCount - 1; ++j)
+        {
+            if (i==offsets.length()-1 && j== messageCount-1)
+            {
+                int sdf=1;
+            }
+
+            int index = offset + j;
+
+            if (index >= data->length())//Some data of this frame is missing! Discarding the frame.
+            {
+                checksum = -1;
+                break;
+            }
+            int tmp = static_cast<int>(data->at(index));
+            numbers.append(tmp);
+            checksum += tmp;
+        }
+//        qDebug() << "jiaqilai:" << numbers;
+
+        if (checksum == -1)
+        {
+            qDebug() << "Some data of this frame is missing! Discarding the frame.";
+            continue;
+        }
+
+        if ((checksum & 0xFF) != data->at(offset + messageCount - 1))
+        {
+            qDebug() << "Checksum mismatch! Discarding the frame.";
+            continue;
+        }
+
+        //parse data
+        switch (messageClass)
+        {
+            case 0x15:
+                Lux = (float)((data->at(offset + 4)<<24)|(data->at(offset + 5)<<16)|(data->at(offset + 6)<<8)|data->at(offset + 7)) / 100;
+//                qDebug() << "lux: " << Lux;
+                break;
+            case 0x45:
+                T = (float)((data->at(offset + 4)<<8)|data->at(offset + 5)) / 100;
+                P = (float)((data->at(offset + 6)<<24)|(data->at(offset + 7)<<16)|(data->at(offset + 8)<<8)|data->at(offset + 9)) / 100;
+                Hum = (float)((data->at(offset + 10)<<8) | data->at(offset + 11)) / 100;
+                H = (float)((data->at(offset + 12)<<8)|data->at(offset + 13));
+
+                hasTemperature = true;
+
+//                qDebug() << "T: " << T;
+//                qDebug() << "P: " << P;
+//                qDebug() << "Hum: " << Hum;
+//                qDebug() << "H: " << H;
+                break;
+            default : // 可选的
+                ;
+
+        }
+    }
+    if (hasTemperature)
+    {
+        return T;
+    }
+    else
+    {
+        return -10000;
+    }
+}

Source_Files/ximeaimager.cpp

@@ -35,7 +35,7 @@ XimeaImager::XimeaImager()
     m_parameterConfigfile.parseConfigfile();
 
     m_recordTempThread=new QThread();
-    m_ximeaTemperature = new RecordXimeaTemperature(&m_imager);
+    m_ximeaTemperature = new RecordXimeaTemperature(&m_imager, this);
     m_ximeaTemperature->moveToThread(m_recordTempThread);
     m_recordTempThread->start();
 
@@ -155,7 +155,7 @@ void XimeaImager::openImger()
 
         QDateTime curDateTime = QDateTime::currentDateTime();
         QString currentTime = curDateTime.toString("yyyy_MM_dd_hh_mm_ss");
-        m_ximeaTemperatureCSVPath = QDir::cleanPath(QString::fromStdString("/home/programRunLog/hyperspectralLog") + QDir::separator() + "ximeaTemperature_" + currentTime + ".csv");
+        m_ximeaTemperatureCSVPath = QDir::cleanPath(QString::fromStdString("/media/nvme/300TC/programRunLog/ximeaTemperature") + QDir::separator() + "ximeaTemperature_" + currentTime + ".csv");
 //        m_ximeaTemperatureCSVPath = "/home/ximeaTemperature.csv";
         emit recordXimeaTemperatureSignal(m_ximeaTemperatureCSVPath);
     }
@@ -204,9 +204,14 @@ void XimeaImager::setFramerate(double framerate)
     {
         m_imager.set_framerate(framerate);
 
+        int exposureTimeInUs = getExposureTime();
+
         int maxExposureTimeInUs=1/framerate*1000000;
-//        setExposureTime(maxExposureTimeInUs);
-//        setExposureTime(1000);
+
+        if (exposureTimeInUs > maxExposureTimeInUs)
+        {
+            wrapSetExposureTime(maxExposureTimeInUs);
+        }
 
         m_iImagerState=102;
         emit ximeaImageStatus(m_iImagerState);
@@ -249,9 +254,7 @@ double XimeaImager::setExposureTime(float exposureTime_in_us)
         //确保设置的积分时间比最大积分时间小
         if(exposureTime_in_us<maxExposureTime_in_us)
         {
-
             m_imager.set_integration_time(exposureTime_in_us);
-
         }
         else
         {
@@ -284,7 +287,7 @@ int XimeaImager::wrapSetExposureTime(float exposureTime_in_us)
     m_iImagerState=103;
     emit ximeaImageStatus(m_iImagerState);
 
-    emit autoExposeMaxValueOfOneFrame(maxValueOfOneFrame, exposureTime/1000);
+    emit autoExposeMaxValueOfOneFrame(maxValueOfOneFrame, exposureTime);
 
     return maxValueOfOneFrame;
 }
@@ -347,7 +350,7 @@ double XimeaImager::autoExposure()
 
         m_iImagerState=103;
         emit ximeaImageStatus(m_iImagerState);
-        emit autoExposeMaxValueOfOneFrame(maxValueOfOneFrame, exposureTime/1000);
+        emit autoExposeMaxValueOfOneFrame(maxValueOfOneFrame, exposureTime);
 
         std::cout<<"自动曝光完成!"<<std::endl;
         return exposureTime;
@@ -544,13 +547,11 @@ double XimeaImager::calculateTimeDifferenceBetweenSbgAndximea(XI_IMG * image, do
 
 void XimeaImager::startRecord(double TimeDifferenceBetweensOSAndSbg,QString baseFileName)
 {
-    m_ximeaTemperature->stopRecordTemperature();//开始采集影像前，停止获取相机的温度，以免降低帧率；
     try
     {
         if(m_iImagerState <= 99 || m_iImagerState==100 || m_iImagerState==104)
         {
-            emit ximeaImageStatus(m_iImagerState);
-
+            printf("已经开始采集----------------------------!\n");
             return;
         }
 
@@ -568,14 +569,15 @@ void XimeaImager::startRecord(double TimeDifferenceBetweensOSAndSbg,QString base
 
         m_baseFileName=baseFileName;
 
-        std::cout << "曝光时间为：" << getExposureTime()/1000 << "ms" <<std::endl;
+        std::cout << "帧率为：" << getFramerate() << "hz" <<std::endl;
+        std::cout << "曝光时间为：" << getExposureTime() << "μs" <<std::endl;
 
         using namespace std;
 //        ofstream timesFileHandle(timesFileName.toStdString()+"_ofstream");
 
         int number_WriteDisk = 100;
         writeData2Disk->setParm(q, m_qFrameCounter,m_baseFileName,m_iFrameSizeInByte, number_WriteDisk, m_pool, m_rgbImage);
-        emit startWriteDiskSignal();
+//        emit startWriteDiskSignal();
 
         int indexofbuff;
         DataBuffer * buffer;
@@ -586,6 +588,10 @@ void XimeaImager::startRecord(double TimeDifferenceBetweensOSAndSbg,QString base
         double timeDifferenceBetweenSbgAndXimea;
         double * sbgTimeBuffer = new double[number_WriteDisk];
 
+        QString imageFileName=m_baseFileName+".bil";
+        FILE *hFile=fopen(imageFileName.toStdString().c_str(),"w+b");
+        double * imageBuffer = new double[number_WriteDisk];
+
         m_imager.start();
         struct timeval timeStart, timeEnd;
         double runTime=0;
@@ -599,34 +605,21 @@ void XimeaImager::startRecord(double TimeDifferenceBetweensOSAndSbg,QString base
             {
                 timeDifferenceBetweenSbgAndXimea = calculateTimeDifferenceBetweenSbgAndximea(&m_imager.m_image, TimeDifferenceBetweensOSAndSbg);
             }
+            fwrite(m_imager.m_image.bp,1,m_iFrameSizeInByte, hFile);
 
             indexofbuff = m_iFrameCounter % number_WriteDisk;
 
-            if (indexofbuff == 1)
-            {
-                r_qtx.lock();
-                buffer = m_pool->newElement();
-                r_qtx.unlock();
-            }
-
             if (indexofbuff == 0)
             {
-                memcpy((void *)buffer->data + (number_WriteDisk - 1) * m_iFrameSizeInByte,m_imager.m_image.bp,m_iFrameSizeInByte);
                 sbgTimeBuffer[number_WriteDisk - 1] = getSbgTime(&m_imager.m_image, timeDifferenceBetweenSbgAndXimea);
             }
             else
             {
-                memcpy((void *)buffer->data + (indexofbuff - 1) * m_iFrameSizeInByte,m_imager.m_image.bp,m_iFrameSizeInByte);
                 sbgTimeBuffer[indexofbuff - 1] = getSbgTime(&m_imager.m_image, timeDifferenceBetweenSbgAndXimea);
             }
 
             if (indexofbuff == 0)
             {
-                r_qtx.lock();
-                q->push(buffer);
-                m_qFrameCounter->push(number_WriteDisk);
-                r_qtx.unlock();
-
                 for (int i = 0; i < number_WriteDisk; ++i)
                 {
                     fprintf(hHimesFile,"%f\n",sbgTimeBuffer[i]);
@@ -635,11 +628,6 @@ void XimeaImager::startRecord(double TimeDifferenceBetweensOSAndSbg,QString base
         }
         if (indexofbuff != 0)
         {
-            r_qtx.lock();
-            q->push(buffer);
-            m_qFrameCounter->push(indexofbuff);
-            r_qtx.unlock();
-
             for (int i = 0; i < indexofbuff; ++i)
             {
                 fprintf(hHimesFile,"%f\n",sbgTimeBuffer[i]);
@@ -661,7 +649,7 @@ void XimeaImager::startRecord(double TimeDifferenceBetweensOSAndSbg,QString base
         double frameLossRate = frameLossed / m_imager.m_image.acq_nframe;
 
         std::cout<<"当前采集文件为: "<<baseFileName.toStdString()<< ".bil" <<std::endl;
-        std::cout<<"采集时间为: "<<runTime<< "s" <<std::endl;
+        std::cout<<"采集时间为: "<<runTime/60<< " min" <<std::endl;
         std::cout<<"当前帧率为: "<<getFramerate() << "hz" <<std::endl;
         std::cout<<"每秒数据量为: "<<getFramerate()*m_iFrameSizeInByte/(1024*1024)<<"MB"<<std::endl;
         std::cout<<"理论采集帧数为: "<<m_imager.m_image.acq_nframe<<std::endl;
@@ -670,6 +658,7 @@ void XimeaImager::startRecord(double TimeDifferenceBetweensOSAndSbg,QString base
         std::cout<<"丢帧率为: "<<frameLossRate * 100<< "%" <<std::endl;
 
         fclose(hHimesFile);
+        fclose(hFile);
 //        timesFileHandle.close();
 //        timesFile.close();
 
@@ -680,8 +669,6 @@ void XimeaImager::startRecord(double TimeDifferenceBetweensOSAndSbg,QString base
         emit ximeaImageStatus(m_iImagerState);
 
         emit recordFinished();
-
-        emit recordXimeaTemperatureSignal(m_ximeaTemperatureCSVPath);//停止采集影像后，继续获取传感器温度；
     }
     catch(int xiApiErrorCodes)
     {
@@ -915,10 +902,12 @@ DataBuffer::~DataBuffer()
 {
 }
 
-RecordXimeaTemperature::RecordXimeaTemperature(Iris::IrisXimeaImager * imager)
+RecordXimeaTemperature::RecordXimeaTemperature(Iris::IrisXimeaImager * imager, XimeaImager * ximeaImager)
 {
     m_imager = imager;
     m_bIsRecord = true;
+
+    m_ximeaImager = ximeaImager;
 }
 
 void RecordXimeaTemperature::stopRecordTemperature()
@@ -930,19 +919,56 @@ void RecordXimeaTemperature::recordTemperature(QString filePath= nullptr)
 {
     if(filePath== nullptr)
         filePath="ximeaTemperature.csv";
-    ofstream ximeaTemperatureFile(filePath.toStdString().c_str(),ios::app);
+    QList<QString> fileInfo = getFileInfo(filePath);
+    bool ret = createDir(fileInfo[0]);
 
+    ofstream ximeaTemperatureFile(filePath.toStdString().c_str(),ios::app);
+    int counter = 0;
     while(m_bIsRecord)
     {
+        counter++;
+
         float temp = m_imager->getTemperature();
+        if(temp > 80 && m_ximeaImager->getImagerState() == 104)
+        {
+            ximeaTemperatureFile.flush();
+            system("/home/300tc/projects/udpClient/udpClient 127.0.0.1 9,0");
+        }
+        if(temp > 90)
+        {
+            ximeaTemperatureFile.flush();
+            system("/home/300tc/projects/udpClient/udpClient 127.0.0.1 2");
+        }
+
+        // 获取剩余硬盘空间和剩余采集时间
+        FILE *fp;
+        char buffer[128];
+        fp = popen("cat /sys/devices/virtual/thermal/thermal_zone1/temp", "r");
+        if (fp == NULL) {
+            perror("popen");
+        }
+
+        // 读取输出并处理
+        unsigned long long temper;
+        if (fgets(buffer, sizeof(buffer), fp) != NULL)
+        {
+            temper = strtoull(buffer, NULL, 10);
+//            printf("CPU温度: %.2f;\n", (float)temper/1000);
+        }
+        pclose(fp);
 
         QDateTime curDateTime = QDateTime::currentDateTime();
         QString currentTime = curDateTime.toString("yyyy/MM/dd hh:mm:ss");
 
-        ximeaTemperatureFile << currentTime.toStdString() << "," << temp << "\n";
+        ximeaTemperatureFile << currentTime.toStdString() << "," << temp << "," << (float)temper/1000 << "\n";
 
 //        std::cout<<"RecordXimeaTemperature::recordTemperature----------------:ximea Temperature is "<< temp <<std::endl;
+//        std::cout<<"RecordXimeaTemperature::recordTemperature----------------:ximea state is "<< m_ximeaImager->getImagerState() <<std::endl;
 
+        if (counter % 60 == 0)
+        {
+            ximeaTemperatureFile.flush();
+        }
         sleep(1);
     }