image reprojection visualization in images
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@ -16,6 +16,15 @@
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namespace msckf_vio {
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struct Frame{
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cv::Mat image;
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double exposureTime_ms;
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};
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typedef std::map<StateIDType, Frame, std::less<StateIDType>,
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Eigen::aligned_allocator<
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std::pair<StateIDType, Frame> > > movingWindow;
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struct IlluminationParameter{
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double frame_bias;
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double frame_gain;
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@ -28,12 +37,11 @@ struct CameraCalibration{
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cv::Vec2i resolution;
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cv::Vec4d intrinsics;
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cv::Vec4d distortion_coeffs;
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movingWindow moving_window;
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cv::Mat featureVisu;
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};
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struct Frame{
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cv::Mat image;
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double exposureTime_ms;
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};
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/*
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* @brief CAMState Stored camera state in order to
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@ -85,10 +93,6 @@ struct CAMState {
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typedef std::map<StateIDType, CAMState, std::less<int>,
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Eigen::aligned_allocator<
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std::pair<const StateIDType, CAMState> > > CamStateServer;
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typedef std::map<StateIDType, Frame, std::less<StateIDType>,
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Eigen::aligned_allocator<
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std::pair<StateIDType, Frame> > > movingWindow;
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} // namespace msckf_vio
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#endif // MSCKF_VIO_CAM_STATE_H
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@ -126,7 +126,6 @@ struct Feature {
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*/
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bool initializeAnchor(
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const movingWindow& cam0_moving_window,
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const CameraCalibration& cam);
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@ -165,15 +164,13 @@ struct Feature {
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bool estimate_FrameIrradiance(
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const CAMState& cam_state,
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const StateIDType& cam_state_id,
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const CameraCalibration& cam0,
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const movingWindow& cam0_moving_window,
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CameraCalibration& cam0,
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std::vector<float>& anchorPatch_estimate) const;
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bool FrameIrradiance(
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const CAMState& cam_state,
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const StateIDType& cam_state_id,
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const CameraCalibration& cam0,
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const movingWindow& cam0_moving_window,
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CameraCalibration& cam0,
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std::vector<float>& anchorPatch_measurement) const;
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/*
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@ -368,8 +365,7 @@ bool Feature::checkMotion(
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bool Feature::estimate_FrameIrradiance(
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const CAMState& cam_state,
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const StateIDType& cam_state_id,
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const CameraCalibration& cam0,
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const movingWindow& cam0_moving_window,
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CameraCalibration& cam0,
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std::vector<float>& anchorPatch_estimate) const
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{
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// get irradiance of patch in anchor frame
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@ -377,11 +373,11 @@ bool Feature::estimate_FrameIrradiance(
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// muliply by a and add b of this frame
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auto anchor = observations.begin();
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if(cam0_moving_window.find(anchor->first) == cam0_moving_window.end())
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if(cam0.moving_window.find(anchor->first) == cam0.moving_window.end())
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return false;
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double anchorExposureTime_ms = cam0_moving_window.find(anchor->first)->second.exposureTime_ms;
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double frameExposureTime_ms = cam0_moving_window.find(cam_state_id)->second.exposureTime_ms;
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double anchorExposureTime_ms = cam0.moving_window.find(anchor->first)->second.exposureTime_ms;
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double frameExposureTime_ms = cam0.moving_window.find(cam_state_id)->second.exposureTime_ms;
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double a_A = anchorExposureTime_ms;
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@ -401,12 +397,15 @@ bool Feature::estimate_FrameIrradiance(
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bool Feature::FrameIrradiance(
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const CAMState& cam_state,
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const StateIDType& cam_state_id,
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const CameraCalibration& cam0,
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const movingWindow& cam0_moving_window,
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CameraCalibration& cam0,
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std::vector<float>& anchorPatch_measurement) const
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{
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// project every point in anchorPatch_3d.
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// int count = 0;
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cv::Mat current_image = cam0.moving_window.find(cam_state_id)->second.image;
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cv::Mat dottedFrame(current_image.size(), CV_8UC3);
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cv::cvtColor(current_image, dottedFrame, CV_GRAY2RGB);
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for (auto point : anchorPatch_3d)
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{
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// testing
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@ -415,7 +414,13 @@ bool Feature::FrameIrradiance(
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//printf("\n\ncenter:\n");
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cv::Point2f p_in_c0 = projectPositionToCamera(cam_state, cam_state_id, cam0, point);
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float irradiance = PixelIrradiance(p_in_c0, cam0_moving_window.find(cam_state_id)->second.image);
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//visualization of feature
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cv::Point xs(p_in_c0.x, p_in_c0.y);
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cv::Point ys(p_in_c0.x, p_in_c0.y);
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cv::rectangle(dottedFrame, xs, ys, cv::Scalar(0,255,0));
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float irradiance = PixelIrradiance(p_in_c0, cam0.moving_window.find(cam_state_id)->second.image);
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anchorPatch_measurement.push_back(irradiance);
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// testing
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@ -424,6 +429,15 @@ bool Feature::FrameIrradiance(
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//printf("dist:\n \tpos: %f, %f\n\ttrue pos: %f, %f\n\n", p_in_c0.x, p_in_c0.y, anchor_center_pos.x, anchor_center_pos.y);
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}
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//visu
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//cv::resize(dottedFrame, dottedFrame, cv::Size(dottedFrame.cols*0.2, dottedFrame.rows*0.2));
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if(cam0.featureVisu.empty())
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cam0.featureVisu = dottedFrame.clone();
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else
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cv::hconcat(cam0.featureVisu, dottedFrame, cam0.featureVisu);
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}
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float Feature::PixelIrradiance(cv::Point2f pose, cv::Mat image) const
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@ -476,10 +490,8 @@ Eigen::Vector3d Feature::projectPixelToPosition(cv::Point2f in_p,
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//printf("%f, %f, %f\n",PositionInWorld[0], PositionInWorld[1], PositionInWorld[2]);
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}
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//@test center projection must always be initial feature projection
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bool Feature::initializeAnchor(
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const movingWindow& cam0_moving_window,
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const CameraCalibration& cam)
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{
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@ -489,10 +501,11 @@ bool Feature::initializeAnchor(
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int n = (int)(N-1)/2;
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auto anchor = observations.begin();
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if(cam0_moving_window.find(anchor->first) == cam0_moving_window.end())
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if(cam.moving_window.find(anchor->first) == cam.moving_window.end())
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return false;
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cv::Mat anchorImage = cam0_moving_window.find(anchor->first)->second.image;
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cv::Mat anchorImage = cam.moving_window.find(anchor->first)->second.image;
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auto u = anchor->second(0);//*cam.intrinsics[0] + cam.intrinsics[2];
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auto v = anchor->second(1);//*cam.intrinsics[1] + cam.intrinsics[3];
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@ -513,6 +526,8 @@ bool Feature::initializeAnchor(
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for(double v_run = -n; v_run <= n; v_run++)
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und_pix_v.push_back(cv::Point2f(und_pix_p.x-u_run, und_pix_p.y-v_run));
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//create undistorted pure points
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std::vector<cv::Point2f> und_v;
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image_handler::undistortPoints(und_pix_v,
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@ -526,8 +541,9 @@ bool Feature::initializeAnchor(
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cam.distortion_model,
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cam.distortion_coeffs);
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anchor_center_pos = vec[4];
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// save anchor position for later visualisaztion
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anchor_center_pos = vec[4];
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for(auto point : vec)
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{
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if(point.x - n < 0 || point.x + n >= cam.resolution(0) || point.y - n < 0 || point.y + n >= cam.resolution(1))
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@ -225,6 +225,9 @@ class MsckfVio {
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CameraCalibration cam1;
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ros::Time image_save_time;
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// Indicate if the gravity vector is set.
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bool is_gravity_set;
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@ -220,6 +220,12 @@ bool MsckfVio::loadParameters() {
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cout << T_imu_cam0.linear() << endl;
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cout << T_imu_cam0.translation().transpose() << endl;
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cout << "OpenCV version : " << CV_VERSION << endl;
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cout << "Major version : " << CV_MAJOR_VERSION << endl;
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cout << "Minor version : " << CV_MINOR_VERSION << endl;
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cout << "Subminor version : " << CV_SUBMINOR_VERSION << endl;
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ROS_INFO("max camera state #: %d", max_cam_state_size);
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ROS_INFO("===========================================");
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return true;
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@ -392,37 +398,37 @@ void MsckfVio::imageCallback(
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}
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void MsckfVio::manageMovingWindow(
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const sensor_msgs::ImageConstPtr& cam0_img,
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const sensor_msgs::ImageConstPtr& cam1_img,
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const CameraMeasurementConstPtr& feature_msg) {
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const sensor_msgs::ImageConstPtr& cam0_img,
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const sensor_msgs::ImageConstPtr& cam1_img,
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const CameraMeasurementConstPtr& feature_msg) {
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//save exposure Time into moving window
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cam0_moving_window[state_server.imu_state.id].exposureTime_ms = strtod(cam0_img->header.frame_id.data(), NULL) / 1000000;
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cam1_moving_window[state_server.imu_state.id].exposureTime_ms = strtod(cam1_img->header.frame_id.data(), NULL) / 1000000;
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if(cam0_moving_window[state_server.imu_state.id].exposureTime_ms < 1)
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cam0_moving_window[state_server.imu_state.id].exposureTime_ms = 1;
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if(cam1_moving_window[state_server.imu_state.id].exposureTime_ms < 1)
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cam1_moving_window[state_server.imu_state.id].exposureTime_ms = 1;
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if(cam0_moving_window[state_server.imu_state.id].exposureTime_ms > 100)
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cam0_moving_window[state_server.imu_state.id].exposureTime_ms = 100;
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if(cam1_moving_window[state_server.imu_state.id].exposureTime_ms > 100)
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cam1_moving_window[state_server.imu_state.id].exposureTime_ms = 100;
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//save exposure Time into moving window
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cam0.moving_window[state_server.imu_state.id].exposureTime_ms = strtod(cam0_img->header.frame_id.data(), NULL) / 1000000;
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cam1.moving_window[state_server.imu_state.id].exposureTime_ms = strtod(cam1_img->header.frame_id.data(), NULL) / 1000000;
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if(cam0.moving_window[state_server.imu_state.id].exposureTime_ms < 1)
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cam0.moving_window[state_server.imu_state.id].exposureTime_ms = 1;
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if(cam1.moving_window[state_server.imu_state.id].exposureTime_ms < 1)
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cam1.moving_window[state_server.imu_state.id].exposureTime_ms = 1;
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if(cam0.moving_window[state_server.imu_state.id].exposureTime_ms > 100)
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cam0.moving_window[state_server.imu_state.id].exposureTime_ms = 100;
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if(cam1.moving_window[state_server.imu_state.id].exposureTime_ms > 100)
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cam1.moving_window[state_server.imu_state.id].exposureTime_ms = 100;
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// Get the current image.
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cv_bridge::CvImageConstPtr cam0_img_ptr = cv_bridge::toCvShare(cam0_img,
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sensor_msgs::image_encodings::MONO8);
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cv_bridge::CvImageConstPtr cam1_img_ptr = cv_bridge::toCvShare(cam1_img,
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sensor_msgs::image_encodings::MONO8);
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// Get the current image.
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cv_bridge::CvImageConstPtr cam0_img_ptr = cv_bridge::toCvShare(cam0_img,
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sensor_msgs::image_encodings::MONO8);
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cv_bridge::CvImageConstPtr cam1_img_ptr = cv_bridge::toCvShare(cam1_img,
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sensor_msgs::image_encodings::MONO8);
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// save image information into moving window
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cam0_moving_window[state_server.imu_state.id].image = cam0_img_ptr->image.clone();
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cam1_moving_window[state_server.imu_state.id].image = cam1_img_ptr->image.clone();
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// save image information into moving window
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cam0.moving_window[state_server.imu_state.id].image = cam0_img_ptr->image.clone();
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cam1.moving_window[state_server.imu_state.id].image = cam1_img_ptr->image.clone();
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//TODO handle any massive overflow correctly (should be pruned, before this ever triggers)
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while(cam0_moving_window.size() > 100)
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while(cam0.moving_window.size() > 100)
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{
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cam1_moving_window.erase(cam1_moving_window.begin());
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cam0_moving_window.erase(cam0_moving_window.begin());
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cam1.moving_window.erase(cam1.moving_window.begin());
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cam0.moving_window.erase(cam0.moving_window.begin());
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}
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}
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@ -916,7 +922,7 @@ void MsckfVio::PhotometricMeasurementJacobian(
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//photometric observation
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std::vector<float> photo_z;
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feature.FrameIrradiance(cam_state, cam_state_id, cam0, cam0_moving_window, photo_z);
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feature.FrameIrradiance(cam_state, cam_state_id, cam0, photo_z);
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// Convert the feature position from the world frame to
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// the cam0 and cam1 frame.
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@ -975,7 +981,7 @@ void MsckfVio::PhotometricMeasurementJacobian(
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//estimate photometric measurement
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std::vector<float> estimate_photo_z;
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feature.estimate_FrameIrradiance(cam_state, cam_state_id, cam0, cam0_moving_window, estimate_photo_z);
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feature.estimate_FrameIrradiance(cam_state, cam_state_id, cam0, estimate_photo_z);
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std::vector<float> photo_r;
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//calculate photom. residual
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@ -1017,6 +1023,8 @@ void MsckfVio::PhotometricFeatureJacobian(
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int stack_cntr = 0;
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printf("_____FEATURE:_____\n");
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cam0.featureVisu.release();
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for (const auto& cam_id : valid_cam_state_ids) {
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Matrix<double, 4, 6> H_xi = Matrix<double, 4, 6>::Zero();
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@ -1034,7 +1042,17 @@ void MsckfVio::PhotometricFeatureJacobian(
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r_j.segment<4>(stack_cntr) = r_i;
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stack_cntr += 4;
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}
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if(!cam0.featureVisu.empty() && cam0.featureVisu.size().width > 3000)
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imshow("feature", cam0.featureVisu);
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cvWaitKey(1);
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if((ros::Time::now() - image_save_time).toSec() > 1)
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{
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std::stringstream ss;
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ss << "/home/raphael/dev/MSCKF_ws/img/feature_" << std::to_string(ros::Time::now().toSec()) << ".jpg";
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imwrite(ss.str(), cam0.featureVisu);
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image_save_time = ros::Time::now();
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}
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// Project the residual and Jacobians onto the nullspace
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// of H_fj.
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JacobiSVD<MatrixXd> svd_helper(H_fj, ComputeFullU | ComputeThinV);
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@ -1336,7 +1354,7 @@ void MsckfVio::removeLostFeatures() {
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}
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if(!feature.is_anchored)
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{
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if(!feature.initializeAnchor(cam0_moving_window, cam0))
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if(!feature.initializeAnchor(cam0))
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{
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invalid_feature_ids.push_back(feature.id);
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continue;
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@ -1491,7 +1509,7 @@ void MsckfVio::pruneCamStateBuffer() {
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}
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if(!feature.is_anchored)
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{
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if(!feature.initializeAnchor(cam0_moving_window, cam0))
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if(!feature.initializeAnchor(cam0))
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{
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for (const auto& cam_id : involved_cam_state_ids)
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feature.observations.erase(cam_id);
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@ -1573,8 +1591,8 @@ void MsckfVio::pruneCamStateBuffer() {
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// Remove this camera state in the state vector.
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state_server.cam_states.erase(cam_id);
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cam0_moving_window.erase(cam_id);
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cam1_moving_window.erase(cam_id);
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cam0.moving_window.erase(cam_id);
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cam1.moving_window.erase(cam_id);
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}
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return;
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