#include <vpRealSense2.h>

Public Member Functions
	vpRealSense2 ()

virtual	~vpRealSense2 ()

void	acquire (vpImage< unsigned char > &grey, double *ts=NULL)

void	acquire (vpImage< vpRGBa > &color, double *ts=NULL)

void	acquire (unsigned char const data_image, unsigned char const data_depth, std::vector< vpColVector > const data_pointCloud, unsigned char const data_infrared, rs2::align const align_to=NULL, double ts=NULL)

void	acquire (unsigned char const data_image, unsigned char const data_depth, std::vector< vpColVector > const data_pointCloud, unsigned char const data_infrared1, unsigned char const data_infrared2, rs2::align const align_to, double *ts=NULL)

void	acquire (vpImage< unsigned char > left, vpImage< unsigned char > right, double *ts=NULL)

void	acquire (vpImage< unsigned char > left, vpImage< unsigned char > right, vpHomogeneousMatrix cMw, vpColVector odo_vel, vpColVector odo_acc, unsigned int confidence=NULL, double *ts=NULL)

void	acquire (vpImage< unsigned char > left, vpImage< unsigned char > right, vpHomogeneousMatrix cMw, vpColVector odo_vel, vpColVector odo_acc, vpColVector imu_vel, vpColVector imu_acc, unsigned int tracker_confidence=NULL, double *ts=NULL)

void	acquire (unsigned char const data_image, unsigned char const data_depth, std::vector< vpColVector > const data_pointCloud, pcl::PointCloud< pcl::PointXYZ >::Ptr &pointcloud, unsigned char const data_infrared=NULL, rs2::align const align_to=NULL, double ts=NULL)

void	acquire (unsigned char const data_image, unsigned char const data_depth, std::vector< vpColVector > const data_pointCloud, pcl::PointCloud< pcl::PointXYZ >::Ptr &pointcloud, unsigned char const data_infrared1, unsigned char const data_infrared2, rs2::align const align_to, double *ts=NULL)

void	acquire (unsigned char const data_image, unsigned char const data_depth, std::vector< vpColVector > const data_pointCloud, pcl::PointCloud< pcl::PointXYZRGB >::Ptr &pointcloud, unsigned char const data_infrared=NULL, rs2::align const align_to=NULL, double ts=NULL)

void	acquire (unsigned char const data_image, unsigned char const data_depth, std::vector< vpColVector > const data_pointCloud, pcl::PointCloud< pcl::PointXYZRGB >::Ptr &pointcloud, unsigned char const data_infrared1, unsigned char const data_infrared2, rs2::align const align_to, double *ts=NULL)

void	close ()

vpCameraParameters	getCameraParameters (const rs2_stream &stream, vpCameraParameters::vpCameraParametersProjType type=vpCameraParameters::perspectiveProjWithDistortion, int index=-1) const

float	getDepthScale ()

void	getIMUAcceleration (vpColVector imu_acc, double ts)

void	getIMUData (vpColVector imu_vel, vpColVector imu_acc, double *ts)

void	getIMUVelocity (vpColVector imu_vel, double ts)

rs2_intrinsics	getIntrinsics (const rs2_stream &stream, int index=-1) const

float	getInvalidDepthValue () const

float	getMaxZ () const

unsigned int	getOdometryData (vpHomogeneousMatrix cMw, vpColVector odo_vel, vpColVector odo_acc, double ts=NULL)

rs2::pipeline &	getPipeline ()

rs2::pipeline_profile &	getPipelineProfile ()

std::string	getProductLine ()

vpHomogeneousMatrix	getTransformation (const rs2_stream &from, const rs2_stream &to, int from_index=-1) const

bool	open (const rs2::config &cfg=rs2::config())

bool	open (const rs2::config &cfg, std::function< void(rs2::frame)> &callback)

void	setInvalidDepthValue (float value)

void	setMaxZ (const float maxZ)

Protected Member Functions
void	getColorFrame (const rs2::frame &frame, vpImage< vpRGBa > &color)

void	getGreyFrame (const rs2::frame &frame, vpImage< unsigned char > &grey)

void	getNativeFrameData (const rs2::frame &frame, unsigned char *const data)

void	getPointcloud (const rs2::depth_frame &depth_frame, std::vector< vpColVector > &pointcloud)

void	getPointcloud (const rs2::depth_frame &depth_frame, pcl::PointCloud< pcl::PointXYZ >::Ptr &pointcloud)

void	getPointcloud (const rs2::depth_frame &depth_frame, const rs2::frame &color_frame, pcl::PointCloud< pcl::PointXYZRGB >::Ptr &pointcloud)

Protected Attributes
float	m_depthScale

float	m_invalidDepthValue

float	m_max_Z

rs2::pipeline	m_pipe

rs2::pipeline_profile	m_pipelineProfile

rs2::pointcloud	m_pointcloud

rs2::points	m_points

vpTranslationVector	m_pos

vpQuaternionVector	m_quat

vpRotationMatrix	m_rot

std::string	m_product_line

bool	m_init

Friends
VISP_EXPORT std::ostream &	operator<< (std::ostream &os, const vpRealSense2 &rs)

Detailed Description

This class provides a lightweight wrapper over the Intel librealsense2 library https://github.com/IntelRealSense/librealsense. It allows to capture data from the Intel RealSense cameras.

Note

Supported devices for Intel® RealSense™ SDK 2.0:

Intel® RealSense™ Camera D400-Series
Intel® RealSense™ Developer Kit SR300
Intel® RealSense™ Tracking Camera T265 (librealsense2 version > 2.31.0)

The usage of vpRealSense2 class is enabled when librealsense2 3rd party is successfully installed.

Moreover, if Point Cloud Library (PCL) 3rd party is installed, we also propose interfaces to retrieve point cloud as pcl::PointCloud<pcl::PointXYZ> or pcl::PointCloud<pcl::PointXYZRGB> data structures.

Warning: Notice that the usage of this class requires compiler and library support for the ISO C++ 2011 standard. This support is enabled by default in ViSP when supported by the compiler. Hereafter we give an example of a CMakeLists.txt file that allows to build sample-realsense.cpp that uses vpRealSense2 class.

project(sample)
cmake_minimum_required(VERSION 2.8.12.2)
find_package(VISP REQUIRED)
include_directories(${VISP_INCLUDE_DIRS})
add_executable(sample-realsense sample-realsense.cpp)
target_link_libraries(sample-realsense ${VISP_LIBRARIES})

To acquire images from the RealSense color camera and convert them into grey level images, a good starting is to use the following code that corresponds to the content of sample-realsense.cpp:

#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayX.h>
#include <visp3/sensor/vpRealSense2.h>
int main()
{
  vpRealSense2 rs;
  rs.open();
  vpImage<unsigned char> I(rs.getIntrinsics(RS2_STREAM_COLOR).height, rs.getIntrinsics(RS2_STREAM_COLOR).width);
#ifdef VISP_HAVE_X11
  vpDisplayX d(I);
#elif defined(VISP_HAVE_GDI)
  vpDisplayGDI d(I);
#endif
  while (true) {
    rs.acquire(I);
    vpDisplay::display(I);
    vpDisplay::flush(I);
    if (vpDisplay::getClick(I, false))
      break;
  }
  return 0;
}

If you want to acquire color images, in the previous sample replace:

vpImage<unsigned char> I(rs.getIntrinsics(RS2_STREAM_COLOR).height, rs.getIntrinsics(RS2_STREAM_COLOR).width);

by

vpImage<vpRGBa> I(rs.getIntrinsics(RS2_STREAM_COLOR).height, rs.getIntrinsics(RS2_STREAM_COLOR).width);

If you are interested in the point cloud and if ViSP is build with PCL support, you can start from the following example where we use PCL library to visualize the point cloud

#include <visp3/sensor/vpRealSense2.h>
#include <pcl/visualization/cloud_viewer.h>
#include <pcl/visualization/pcl_visualizer.h>
int main()
{
  vpRealSense2 rs;
  rs.open();
  pcl::PointCloud<pcl::PointXYZRGB>::Ptr pointcloud(new pcl::PointCloud<pcl::PointXYZRGB>);
  rs.acquire(NULL, NULL, NULL, pointcloud);
  pcl::visualization::PCLVisualizer::Ptr viewer (new pcl::visualization::PCLVisualizer ("3D Viewer"));
  pcl::visualization::PointCloudColorHandlerRGBField<pcl::PointXYZRGB> rgb(pointcloud);
  viewer->setBackgroundColor(0, 0, 0);
  viewer->initCameraParameters();
  viewer->setCameraPosition(0, 0, -0.5, 0, -1, 0);
  while (true) {
    rs.acquire(NULL, NULL, NULL, pointcloud);
    static bool update = false;
    if (!update) {
      viewer->addPointCloud<pcl::PointXYZRGB> (pointcloud, rgb, "sample cloud");
      viewer->setPointCloudRenderingProperties (pcl::visualization::PCL_VISUALIZER_POINT_SIZE, 1, "sample cloud");
      update = true;
    } else {
      viewer->updatePointCloud<pcl::PointXYZRGB> (pointcloud, rgb, "sample cloud");
    }
    viewer->spinOnce(30);
  }
  return 0;
}

If you want to change the default stream parameters, refer to the librealsense2 rs2::config documentation. The following code allows to capture the color stream in 1920x1080 at 30 Hz:

#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayX.h>
#include <visp3/sensor/vpRealSense2.h>
int main() {
  vpRealSense2 rs;
  rs2::config config;
  config.enable_stream(RS2_STREAM_COLOR, 1920, 1080, RS2_FORMAT_RGBA8, 30);
  config.enable_stream(RS2_STREAM_DEPTH, 640, 480, RS2_FORMAT_Z16, 30);
  config.enable_stream(RS2_STREAM_INFRARED, 640, 480, RS2_FORMAT_Y8, 30);
  rs.open(config);
  vpImage<vpRGBa> Ic(rs.getIntrinsics(RS2_STREAM_COLOR).height, rs.getIntrinsics(RS2_STREAM_COLOR).width);
  vpImage<unsigned char> Ii(rs.getIntrinsics(RS2_STREAM_INFRARED).height,
                            rs.getIntrinsics(RS2_STREAM_INFRARED).width);
#ifdef VISP_HAVE_X11
  vpDisplayX dc(Ic, 0, 0, "Color");
  vpDisplayX di(Ii, 100, 100, "Infrared");
#elif defined(VISP_HAVE_GDI)
  vpDisplayGDI dc(Ic, 0, 0, "Color");
  vpDisplayGDI di(Ii, 100, 100, "Infrared");
#endif
  while (true) {
    rs.acquire((unsigned char *) Ic.bitmap, NULL, NULL, Ii.bitmap);
    vpDisplay::display(Ic);
    vpDisplay::display(Ii);
    vpDisplay::flush(Ic);
    vpDisplay::flush(Ii);
    if (vpDisplay::getClick(Ic, false) || vpDisplay::getClick(Ii, false))
      break;
  }
  return 0;
}

This other example shows how to get depth stream aligned on color stream:

#include <visp3/core/vpImageConvert.h>
#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayX.h>
#include <visp3/sensor/vpRealSense2.h>
int main() {
  vpRealSense2 rs;
  rs2::config config;
  config.enable_stream(RS2_STREAM_COLOR, 640, 480, RS2_FORMAT_RGBA8, 30);
  config.enable_stream(RS2_STREAM_DEPTH, 640, 480, RS2_FORMAT_Z16, 30);
  config.enable_stream(RS2_STREAM_INFRARED, 640, 480, RS2_FORMAT_Y8, 30);
  rs.open(config);
  vpImage<vpRGBa> Ic(rs.getIntrinsics(RS2_STREAM_COLOR).height, rs.getIntrinsics(RS2_STREAM_COLOR).width);
  vpImage<uint16_t> Id_raw(rs.getIntrinsics(RS2_STREAM_DEPTH).height, rs.getIntrinsics(RS2_STREAM_DEPTH).width);
  vpImage<vpRGBa> Id(rs.getIntrinsics(RS2_STREAM_DEPTH).height, rs.getIntrinsics(RS2_STREAM_DEPTH).width);
#ifdef VISP_HAVE_X11
  vpDisplayX dc(Ic, 0, 0, "Color");
  vpDisplayX dd(Id, 100, 100, "Depth aligned to color");
#elif defined(VISP_HAVE_GDI)
  vpDisplayGDI dc(Ic, 0, 0, "Color");
  vpDisplayGDI dd(Id, 100, 100, "Depth aligned to color");
#endif
  rs2::align align_to(RS2_STREAM_COLOR);
  while (true) {
    rs.acquire((unsigned char *) Ic.bitmap, (unsigned char *) Id_raw.bitmap, NULL, NULL, &align_to);
    vpImageConvert::createDepthHistogram(Id_raw, Id);
    vpDisplay::display(Ic);
    vpDisplay::display(Id);
    vpDisplay::flush(Ic);
    vpDisplay::flush(Id);
    if (vpDisplay::getClick(Ic, false) || vpDisplay::getClick(Id, false))
      break;
  }
  return 0;
}

References to rs2::pipeline_profile and rs2::pipeline can be retrieved with (rs.open() must be called before):

rs2::pipeline_profile& profile = rs.getPipelineProfile();

rs2::pipeline& pipeline = rs.getPipeline();

Information about the sensor can be printed with:

#include <visp3/sensor/vpRealSense2.h>
int main() {
  vpRealSense2 rs;
  rs.open();
  std::cout << "RealSense sensor characteristics: \n" << rs << std::endl;
  return 0;
}

It is also possible to use several RealSense sensors at the same time. In that case, you need to create a vpRealSense2 object for each device and use vpRealSense2::enable_device(const std::string &serial_number) to select the device explicitly by its serial number. An example is provided in tutorial-grabber-multiple-realsense.cpp.

Note: Additional information can be found in the librealsense wiki.

Examples:: getRealSense2Info.cpp, grabRealSense2.cpp, grabRealSense2_T265.cpp, servoFrankaIBVS.cpp, servoFrankaPBVS.cpp, testRealSense2_D435.cpp, testRealSense2_D435_align.cpp, testRealSense2_D435_opencv.cpp, testRealSense2_D435_pcl.cpp, testRealSense2_SR300.cpp, testRealSense2_T265_images.cpp, testRealSense2_T265_images_odometry.cpp, testRealSense2_T265_images_odometry_async.cpp, testRealSense2_T265_imu.cpp, testRealSense2_T265_odometry.cpp, testRealSense2_T265_undistort.cpp, tutorial-apriltag-detector-live-rgbd-realsense.cpp, tutorial-apriltag-detector-live-T265-realsense.cpp, tutorial-apriltag-detector-live.cpp, tutorial-franka-acquire-calib-data.cpp, tutorial-grabber-multiple-realsense.cpp, tutorial-grabber-realsense-T265.cpp, tutorial-grabber-realsense.cpp, tutorial-mb-generic-tracker-apriltag-rs2.cpp, tutorial-mb-generic-tracker-live.cpp, tutorial-mb-generic-tracker-rgbd-realsense.cpp, tutorial-pose-from-points-live.cpp, and tutorial-pose-from-points-realsense-T265.cpp.

Definition at line 286 of file vpRealSense2.h.

Constructor & Destructor Documentation

vpRealSense2::vpRealSense2 ( )

Default constructor.

Definition at line 72 of file vpRealSense2.cpp.

vpRealSense2::~vpRealSense2 ( )

virtual

Default destructor that stops the streaming.

See also: stop()

Definition at line 82 of file vpRealSense2.cpp.

References close().

Member Function Documentation

void vpRealSense2::acquire	(	vpImage< unsigned char > &	grey,
		double *	ts = `NULL`
	)

Acquire greyscale image from RealSense device.

Parameters

grey	: Greyscale image.
ts	: Image timestamp or NULL if not wanted.

Examples:: grabRealSense2.cpp, grabRealSense2_T265.cpp, servoFrankaIBVS.cpp, servoFrankaPBVS.cpp, testRealSense2_D435.cpp, testRealSense2_D435_align.cpp, testRealSense2_D435_pcl.cpp, testRealSense2_SR300.cpp, testRealSense2_T265_images.cpp, testRealSense2_T265_images_odometry.cpp, testRealSense2_T265_undistort.cpp, tutorial-apriltag-detector-live-rgbd-realsense.cpp, tutorial-apriltag-detector-live-T265-realsense.cpp, tutorial-apriltag-detector-live.cpp, tutorial-franka-acquire-calib-data.cpp, tutorial-grabber-multiple-realsense.cpp, tutorial-grabber-realsense-T265.cpp, tutorial-mb-generic-tracker-apriltag-rs2.cpp, tutorial-mb-generic-tracker-live.cpp, tutorial-mb-generic-tracker-rgbd-realsense.cpp, tutorial-pose-from-points-live.cpp, and tutorial-pose-from-points-realsense-T265.cpp.

Definition at line 89 of file vpRealSense2.cpp.

References getGreyFrame(), and m_pipe.

Referenced by acquire().

void vpRealSense2::acquire	(	vpImage< vpRGBa > &	color,
		double *	ts = `NULL`
	)

Acquire color image from RealSense device.

Parameters

color	: Color image.
ts	: Image timestamp or NULL if not wanted.

Definition at line 104 of file vpRealSense2.cpp.

References getColorFrame(), and m_pipe.

void vpRealSense2::acquire	(	unsigned char *const	data_image,
		unsigned char *const	data_depth,
		std::vector< vpColVector > *const	data_pointCloud,
		unsigned char *const	data_infrared,
		rs2::align *const	align_to = `NULL`,
		double *	ts = `NULL`
	)

Acquire data from RealSense device.

Parameters

data_image	: Color image buffer or NULL if not wanted.
data_depth	: Depth image buffer or NULL if not wanted.
data_pointCloud	: Point cloud vector pointer or NULL if not wanted.
data_infrared	: Infrared image buffer or NULL if not wanted.
align_to	: Align to a reference stream or NULL if not wanted. Only depth and color streams can be aligned.
ts	: Image timestamp or NULL if not wanted.

Definition at line 124 of file vpRealSense2.cpp.

References acquire().

void vpRealSense2::acquire	(	unsigned char *const	data_image,
		unsigned char *const	data_depth,
		std::vector< vpColVector > *const	data_pointCloud,
		unsigned char *const	data_infrared1,
		unsigned char *const	data_infrared2,
		rs2::align *const	align_to,
		double *	ts = `NULL`
	)

Acquire data from RealSense device.

Parameters

data_image	: Color image buffer or NULL if not wanted.
data_depth	: Depth image buffer or NULL if not wanted.
data_pointCloud	: Point cloud vector pointer or NULL if not wanted.
data_infrared1	: First infrared image buffer or NULL if not wanted.
data_infrared2	: Second infrared image buffer (if supported by the device) or NULL if not wanted.
align_to	: Align to a reference stream or NULL if not wanted. Only depth and color streams can be aligned.
ts	: Data timestamp or NULL if not wanted.

The following code shows how to use this function to get color, infrared 1 and infrared 2 frames acquired by a D435 device:

#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayX.h>
#include <visp3/sensor/vpRealSense2.h>
int main() {
  vpRealSense2 rs;
  rs2::config config;
  config.enable_stream(RS2_STREAM_COLOR, 640, 480, RS2_FORMAT_RGBA8, 30);
  config.enable_stream(RS2_STREAM_INFRARED, 1, 640, 480, RS2_FORMAT_Y8, 30);
  config.enable_stream(RS2_STREAM_INFRARED, 2, 640, 480, RS2_FORMAT_Y8, 30);
  rs.open(config);
  vpImage<vpRGBa> Ic(rs.getIntrinsics(RS2_STREAM_COLOR).height, rs.getIntrinsics(RS2_STREAM_COLOR).width);
  vpImage<unsigned char> Ii1(rs.getIntrinsics(RS2_STREAM_INFRARED).height,
                             rs.getIntrinsics(RS2_STREAM_INFRARED).width);
  vpImage<unsigned char> Ii2(rs.getIntrinsics(RS2_STREAM_INFRARED).height,
                             rs.getIntrinsics(RS2_STREAM_INFRARED).width);
#ifdef VISP_HAVE_X11
  vpDisplayX dc(Ic, 0, 0, "Color");
  vpDisplayX di1(Ii1, 100, 100, "Infrared 1");
  vpDisplayX di2(Ii2, 200, 200, "Infrared 2");
#elif defined(VISP_HAVE_GDI)
  vpDisplayGDI dc(Ic, 0, 0, "Color");
  vpDisplayGDI di1(Ii1, 100, 100, "Infrared 1");
  vpDisplayGDI di2(Ii2, 100, 100, "Infrared 2");
#endif
  while (true) {
    rs.acquire((unsigned char *) Ic.bitmap, NULL, NULL, Ii1.bitmap, Ii2.bitmap, NULL);
    vpDisplay::display(Ic);
    vpDisplay::display(Ii1);
    vpDisplay::display(Ii2);
    vpDisplay::flush(Ic);
    vpDisplay::flush(Ii1);
    vpDisplay::flush(Ii2);
    if (vpDisplay::getClick(Ic, false) || vpDisplay::getClick(Ii1, false) || vpDisplay::getClick(Ii2, false))
      break;
  }
  return 0;
}

Definition at line 188 of file vpRealSense2.cpp.

References getNativeFrameData(), getPointcloud(), and m_pipe.

void vpRealSense2::acquire	(	vpImage< unsigned char > *	left,
		vpImage< unsigned char > *	right,
		double *	ts = `NULL`
	)

Acquire timestamped greyscale images from T265 RealSense device at 30Hz.

Parameters

left	: Left image.
right	: Right image.
ts	: Data timestamp.

Pass NULL to one of these parameters if you don't want the corresponding data.

For example if you are only interested in the right fisheye image, use:

vpRealSense2 rs;
rs2::config config;
config.enable_stream(RS2_STREAM_FISHEYE, 1, RS2_FORMAT_Y8);
config.enable_stream(RS2_STREAM_FISHEYE, 2, RS2_FORMAT_Y8);
rs.open(config);
vpImage<unsigned char> I_right;
rs.acquire(NULL, &I_right, NULL, NULL);

Definition at line 255 of file vpRealSense2.cpp.

References getNativeFrameData(), m_pipe, and vpImage< Type >::resize().

void vpRealSense2::acquire	(	vpImage< unsigned char > *	left,
		vpImage< unsigned char > *	right,
		vpHomogeneousMatrix *	cMw,
		vpColVector *	odo_vel,
		vpColVector *	odo_acc,
		unsigned int *	confidence = `NULL`,
		double *	ts = `NULL`
	)

Acquire timestamped greyscale images and odometry data from T265 Realsense device at 30Hz.

Parameters

left	: Left image.
right	: Right image.
cMw	: Pointer to pose from visual odometry.
odo_vel	: Pointer to 6-dim linear and angular velocities vector from visual odometry.
odo_acc	: Pointer to 6-dim linear and angular acceleration vector from visual odometry.
confidence	: Pose estimation confidence (1: Low, 2: Medium, 3: High).
ts	: Data timestamp.

Pass NULL to one of these parameters if you don't want the corresponding data.

For example if you are only interested in the pose, use:

vpRealSense2 rs;
rs2::config config;
config.enable_stream(RS2_STREAM_POSE, RS2_FORMAT_6DOF);
config.enable_stream(RS2_STREAM_FISHEYE, 1, RS2_FORMAT_Y8);
config.enable_stream(RS2_STREAM_FISHEYE, 2, RS2_FORMAT_Y8);
config.enable_stream(RS2_STREAM_GYRO);
config.enable_stream(RS2_STREAM_ACCEL);
rs.open(config);
vpHomogeneousMatrix cMw;
rs.acquire(NULL, NULL, &cMw, NULL, NULL, NULL, NULL);

Definition at line 308 of file vpRealSense2.cpp.

References getNativeFrameData(), m_pipe, m_pos, m_quat, vpColVector::resize(), and vpImage< Type >::resize().

void vpRealSense2::acquire	(	vpImage< unsigned char > *	left,
		vpImage< unsigned char > *	right,
		vpHomogeneousMatrix *	cMw,
		vpColVector *	odo_vel,
		vpColVector *	odo_acc,
		vpColVector *	imu_vel,
		vpColVector *	imu_acc,
		unsigned int *	confidence = `NULL`,
		double *	ts = `NULL`
	)

Acquire timestamped greyscale images, odometry and raw motion data from T265 Realsense device at 30Hz.

Parameters

left	: Left image.
right	: Right image.
cMw	: Pointer to pose from visual odometry.
odo_vel	: Pointer to 6-dim linear and angular velocities vector from visual odometry.
odo_acc	: Pointer to 6-dim linear and angular acceleration vector from visual odometry.
imu_vel	: Pointer to IMU 3-dim angular velocity vector from gyro.
imu_acc	: Pointer to IMU 3-dim linear acceleration vector.
confidence	: Pose estimation confidence (1: Low, 2: Medium, 3: High).
ts	: Data timestamp.

Definition at line 387 of file vpRealSense2.cpp.

References getNativeFrameData(), m_pipe, m_pos, m_quat, vpColVector::resize(), and vpImage< Type >::resize().

void vpRealSense2::acquire	(	unsigned char *const	data_image,
		unsigned char *const	data_depth,
		std::vector< vpColVector > *const	data_pointCloud,
		pcl::PointCloud< pcl::PointXYZ >::Ptr &	pointcloud,
		unsigned char *const	data_infrared = `NULL`,
		rs2::align *const	align_to = `NULL`,
		double *	ts = `NULL`
	)

Acquire data from RealSense device.

Parameters

data_image	: Color image buffer or NULL if not wanted.
data_depth	: Depth image buffer or NULL if not wanted.
data_pointCloud	: Point cloud vector pointer or NULL if not wanted.
pointcloud	: Point cloud (in PCL format and without texture information) pointer or NULL if not wanted.
data_infrared	: Infrared image buffer or NULL if not wanted.
align_to	: Align to a reference stream or NULL if not wanted. Only depth and color streams can be aligned.
ts	: Data timestamp or NULL if not wanted.

Definition at line 488 of file vpRealSense2.cpp.

References acquire().

void vpRealSense2::acquire	(	unsigned char *const	data_image,
		unsigned char *const	data_depth,
		std::vector< vpColVector > *const	data_pointCloud,
		pcl::PointCloud< pcl::PointXYZ >::Ptr &	pointcloud,
		unsigned char *const	data_infrared1,
		unsigned char *const	data_infrared2,
		rs2::align *const	align_to,
		double *	ts = `NULL`
	)

Acquire data from RealSense device.

Parameters

data_image	: Color image buffer or NULL if not wanted.
data_depth	: Depth image buffer or NULL if not wanted.
data_pointCloud	: Point cloud vector pointer or NULL if not wanted.
pointcloud	: Point cloud (in PCL format and without texture information) pointer or NULL if not wanted.
data_infrared1	: First infrared image buffer or NULL if not wanted.
data_infrared2	: Second infrared image (if supported by the device) buffer or NULL if not wanted.
align_to	: Align to a reference stream or NULL if not wanted. Only depth and color streams can be aligned.
ts	: Data timestamp or NULL if not wanted.

Definition at line 510 of file vpRealSense2.cpp.

References getNativeFrameData(), getPointcloud(), and m_pipe.

void vpRealSense2::acquire	(	unsigned char *const	data_image,
		unsigned char *const	data_depth,
		std::vector< vpColVector > *const	data_pointCloud,
		pcl::PointCloud< pcl::PointXYZRGB >::Ptr &	pointcloud,
		unsigned char *const	data_infrared = `NULL`,
		rs2::align *const	align_to = `NULL`,
		double *	ts = `NULL`
	)

Acquire data from RealSense device.

Parameters

data_image	: Color image buffer or NULL if not wanted.
data_depth	: Depth image buffer or NULL if not wanted.
data_pointCloud	: Point cloud vector pointer or NULL if not wanted.
pointcloud	: Point cloud (in PCL format and with texture information) pointer or NULL if not wanted.
data_infrared	: Infrared image buffer or NULL if not wanted.
align_to	: Align to a reference stream or NULL if not wanted. Only depth and color streams can be aligned.
ts	: Data timestamp or NULL if not wanted.

Definition at line 573 of file vpRealSense2.cpp.

References acquire().

void vpRealSense2::acquire	(	unsigned char *const	data_image,
		unsigned char *const	data_depth,
		std::vector< vpColVector > *const	data_pointCloud,
		pcl::PointCloud< pcl::PointXYZRGB >::Ptr &	pointcloud,
		unsigned char *const	data_infrared1,
		unsigned char *const	data_infrared2,
		rs2::align *const	align_to,
		double *	ts = `NULL`
	)

Acquire data from RealSense device.

Parameters

data_image	: Color image buffer or NULL if not wanted.
data_depth	: Depth image buffer or NULL if not wanted.
data_pointCloud	: Point cloud vector pointer or NULL if not wanted.
pointcloud	: Point cloud (in PCL format and with texture information) pointer or NULL if not wanted.
data_infrared1	: First infrared image buffer or NULL if not wanted.
data_infrared2	: Second infrared image (if supported by the device) buffer or NULL if not wanted.
align_to	: Align to a reference stream or NULL if not wanted. Only depth and color streams can be aligned.
ts	: Data timestamp or NULL if not wanted.

Definition at line 595 of file vpRealSense2.cpp.

References getNativeFrameData(), getPointcloud(), and m_pipe.

void vpRealSense2::close ( )

librealsense documentation:

Stop the pipeline streaming. The pipeline stops delivering samples to the attached computer vision modules and processing blocks, stops the device streaming and releases the device resources used by the pipeline. It is the application's responsibility to release any frame reference it owns. The method takes effect only after start() was called, otherwise an exception is raised.

Examples:: testRealSense2_D435.cpp, and testRealSense2_SR300.cpp.

Definition at line 658 of file vpRealSense2.cpp.

References m_init, and m_pipe.

Referenced by open(), and ~vpRealSense2().

vpCameraParameters vpRealSense2::getCameraParameters	(	const rs2_stream &	stream,
		vpCameraParameters::vpCameraParametersProjType	type = `vpCameraParameters::perspectiveProjWithDistortion`,
		int	index = `-1`
	)		const

Return the camera parameters corresponding to a specific stream. This function has to be called after open().

Parameters

stream	: Stream for which camera intrinsic parameters are returned.
type	: Indicates if the model should include distorsion parameters or not.
index	: Index of camera in T265 device, 1: Left 2. Right. Otherwise: -1(default)

See also: getIntrinsics()

Examples:: grabRealSense2.cpp, servoFrankaIBVS.cpp, servoFrankaPBVS.cpp, testRealSense2_D435_align.cpp, testRealSense2_D435_opencv.cpp, testRealSense2_SR300.cpp, testRealSense2_T265_undistort.cpp, tutorial-apriltag-detector-live-rgbd-realsense.cpp, tutorial-apriltag-detector-live-T265-realsense.cpp, tutorial-apriltag-detector-live.cpp, tutorial-franka-acquire-calib-data.cpp, tutorial-mb-generic-tracker-apriltag-rs2.cpp, tutorial-mb-generic-tracker-live.cpp, tutorial-mb-generic-tracker-rgbd-realsense.cpp, tutorial-pose-from-points-live.cpp, and tutorial-pose-from-points-realsense-T265.cpp.

Definition at line 675 of file vpRealSense2.cpp.

References vpCameraParameters::initPersProjWithDistortion(), vpCameraParameters::initPersProjWithoutDistortion(), vpCameraParameters::initProjWithKannalaBrandtDistortion(), m_pipelineProfile, vpCameraParameters::perspectiveProjWithDistortion, vpCameraParameters::perspectiveProjWithoutDistortion, and vpCameraParameters::ProjWithKannalaBrandtDistortion.

void vpRealSense2::getColorFrame	(	const rs2::frame &	frame,
		vpImage< vpRGBa > &	color
	)

protected

Definition at line 732 of file vpRealSense2.cpp.

References vpImageConvert::BGRToRGBa(), vpImage< Type >::bitmap, vpException::fatalError, vpImage< Type >::resize(), and vpImageConvert::RGBToRGBa().

Referenced by acquire().

float vpRealSense2::getDepthScale ( )

Get depth scale value used to convert all the uint16_t values contained in a depth frame into a distance in meter.

Examples:: getRealSense2Info.cpp, testRealSense2_D435_align.cpp, testRealSense2_D435_opencv.cpp, and tutorial-apriltag-detector-live-rgbd-realsense.cpp.

Definition at line 758 of file vpRealSense2.cpp.

References m_depthScale, and m_init.

void vpRealSense2::getGreyFrame	(	const rs2::frame &	frame,
		vpImage< unsigned char > &	grey
	)

protected

Definition at line 783 of file vpRealSense2.cpp.

References vpImageConvert::BGRToGrey(), vpImage< Type >::bitmap, vpException::fatalError, vpImage< Type >::resize(), vpImageConvert::RGBaToGrey(), and vpImageConvert::RGBToGrey().

Referenced by acquire().

void vpRealSense2::getIMUAcceleration	(	vpColVector *	imu_acc,
		double *	ts
	)

Get timestamped IMU acceleration from RealSense T265 device at 62.5Hz.

Parameters

imu_acc	: IMU 3-dim linear acceleration vector.
ts	: Timestamp.

Note: This function should be used with RS2_STREAM_ACCEL stream enabled.; Be aware that IMU frame's X and Z axes are opposite to X and Z axes of pose frame.

vpRealSense2 rs;
rs2::config config;
config.enable_stream(RS2_STREAM_ACCEL);
rs.open(config);
vpColVector imu_acc;
double timestamp;
rs.getIMUAcceleration(&imu_acc, &timestamp);

Definition at line 1242 of file vpRealSense2.cpp.

References m_pipe, and vpColVector::resize().

void vpRealSense2::getIMUData	(	vpColVector *	imu_acc,
		vpColVector *	imu_vel,
		double *	ts
	)

Get timestamped IMU data from RealSense T265 device.

Parameters

imu_acc	: IMU 3-dim linear acceleration vector.
imu_vel	: IMU 3-dim angular velocity vector from gyro.
ts	: Timestamp.

Note: Be aware that IMU frame's X and Z axes are opposite to X and Z axes of pose frame.

vpRealSense2 rs;
rs2::config config;
config.enable_stream(RS2_STREAM_ACCEL);
config.enable_stream(RS2_STREAM_GYRO);
rs.open(config);
vpColVector imu_acc, imu_vel;
double timestamp;
rs.getIMUVelocity(&imu_acc, &imu_vel, &timestamp);

Examples:: testRealSense2_T265_imu.cpp.

Definition at line 1318 of file vpRealSense2.cpp.

References m_pipe, and vpColVector::resize().

void vpRealSense2::getIMUVelocity	(	vpColVector *	imu_vel,
		double *	ts
	)

Get timestamped IMU angular velocities from RealSense T265 device at 200Hz.

Parameters

imu_vel	: IMU 3-dim angular velocity vector from gyro.
ts	: Timestamp.

Note: This function should be used with RS2_STREAM_GYRO stream enabled.; Be aware that IMU frame's X and Z axes are opposite to X and Z axes of pose frame.

vpRealSense2 rs;
rs2::config config;
config.enable_stream(RS2_STREAM_GYRO);
rs.open(config);
vpColVector imu_vel;
double timestamp;
rs.getIMUVelocity(&imu_vel, &timestamp);

Definition at line 1280 of file vpRealSense2.cpp.

References m_pipe, and vpColVector::resize().

rs2_intrinsics vpRealSense2::getIntrinsics	(	const rs2_stream &	stream,
		int	index = `-1`
	)		const

Get intrinsic parameters corresponding to the stream. This function has to be called after open().

Parameters

stream	: Stream for which the camera intrinsic parameters are returned.
index	: Index of the stream. Default: -1. In case of T265 camera: Left Fisheye: 1, Right Fisheye: 2

See also: getCameraParameters()

Examples:: grabRealSense2.cpp, testRealSense2_T265_images.cpp, testRealSense2_T265_images_odometry_async.cpp, and testRealSense2_T265_undistort.cpp.

Definition at line 726 of file vpRealSense2.cpp.

References m_pipelineProfile.

float vpRealSense2::getInvalidDepthValue ( ) const

inline

Get the value used when the pixel value (u, v) in the depth map is invalid for the point cloud. For instance, the Point Cloud Library (PCL) uses NAN values for points where the depth is invalid.

Definition at line 344 of file vpRealSense2.h.

float vpRealSense2::getMaxZ ( ) const

inline

Get the maximum Z value (used to discard bad reconstructed depth for pointcloud).

Definition at line 348 of file vpRealSense2.h.

void vpRealSense2::getNativeFrameData	(	const rs2::frame &	frame,
		unsigned char *const	data
	)

protected

Definition at line 804 of file vpRealSense2.cpp.

Referenced by acquire().

unsigned int vpRealSense2::getOdometryData	(	vpHomogeneousMatrix *	cMw,
		vpColVector *	odo_vel,
		vpColVector *	odo_acc,
		double *	ts = `NULL`
	)

Get timestamped odometry data from T265 device at 30Hz.

Parameters

cMw	: Pose given by visual odometry.
odo_vel	: Pointer to 6-dim linear and angular velocities vector from visual odometry.
odo_acc	: Pointer to 6-dim linear and angular acceleration vector from visual odometry.
ts	: Timestamp.

Returns: Pose estimation confidence (1: Low, 2: Medium, 3: High).

Examples:: testRealSense2_T265_odometry.cpp.

Definition at line 1174 of file vpRealSense2.cpp.

References m_pipe, m_pos, m_quat, and vpColVector::resize().

rs2::pipeline& vpRealSense2::getPipeline ( )

inline

Get a reference to rs2::pipeline.

Examples:: testRealSense2_D435_opencv.cpp, and testRealSense2_SR300.cpp.

Definition at line 355 of file vpRealSense2.h.

rs2::pipeline_profile& vpRealSense2::getPipelineProfile ( )

inline

Get a reference to rs2::pipeline_profile.

Examples:: testRealSense2_D435_opencv.cpp, and testRealSense2_SR300.cpp.

Definition at line 358 of file vpRealSense2.h.

void vpRealSense2::getPointcloud	(	const rs2::depth_frame &	depth_frame,
		std::vector< vpColVector > &	pointcloud
	)

protected

Definition at line 834 of file vpRealSense2.cpp.

References vpException::fatalError, m_depthScale, m_invalidDepthValue, and m_max_Z.

Referenced by acquire().

void vpRealSense2::getPointcloud	(	const rs2::depth_frame &	depth_frame,
		pcl::PointCloud< pcl::PointXYZ >::Ptr &	pointcloud
	)

protected

Definition at line 887 of file vpRealSense2.cpp.

References vpException::fatalError, m_depthScale, m_invalidDepthValue, m_max_Z, m_pointcloud, and m_points.

void vpRealSense2::getPointcloud	(	const rs2::depth_frame &	depth_frame,
		const rs2::frame &	color_frame,
		pcl::PointCloud< pcl::PointXYZRGB >::Ptr &	pointcloud
	)

protected

Definition at line 953 of file vpRealSense2.cpp.

References vpException::fatalError, m_depthScale, m_invalidDepthValue, and m_max_Z.

std::string vpRealSense2::getProductLine ( )

Get the product line of the device being used. This function need librealsense > 2.31.0. Otherwise it returns "unknown".

Examples:: getRealSense2Info.cpp, grabRealSense2.cpp, grabRealSense2_T265.cpp, testRealSense2_T265_images.cpp, testRealSense2_T265_images_odometry.cpp, testRealSense2_T265_imu.cpp, testRealSense2_T265_odometry.cpp, and testRealSense2_T265_undistort.cpp.

Definition at line 1414 of file vpRealSense2.cpp.

References m_init, and m_product_line.

vpHomogeneousMatrix vpRealSense2::getTransformation	(	const rs2_stream &	from,
		const rs2_stream &	to,
		int	from_index = `-1`
	)		const

Get the extrinsic transformation from one stream to another. This function has to be called after open().

Parameters

from,to	: Streams for which the camera extrinsic parameters are returned.
from_index	: Index of the stream from which we will calculate the transformation, 1: From left to right, 2: From right to left. Otherwise: -1(default)

Examples:: grabRealSense2.cpp, testRealSense2_SR300.cpp, tutorial-mb-generic-tracker-apriltag-rs2.cpp, and tutorial-mb-generic-tracker-rgbd-realsense.cpp.

Definition at line 1134 of file vpRealSense2.cpp.

References m_pipelineProfile.

bool vpRealSense2::open ( const rs2::config & cfg = rs2::config() )

Open access to the RealSense device and start the streaming.

Examples:: getRealSense2Info.cpp, grabRealSense2.cpp, grabRealSense2_T265.cpp, servoFrankaIBVS.cpp, servoFrankaPBVS.cpp, testRealSense2_D435.cpp, testRealSense2_D435_align.cpp, testRealSense2_D435_opencv.cpp, testRealSense2_D435_pcl.cpp, testRealSense2_SR300.cpp, testRealSense2_T265_images.cpp, testRealSense2_T265_images_odometry.cpp, testRealSense2_T265_images_odometry_async.cpp, testRealSense2_T265_imu.cpp, testRealSense2_T265_odometry.cpp, testRealSense2_T265_undistort.cpp, tutorial-apriltag-detector-live-rgbd-realsense.cpp, tutorial-apriltag-detector-live-T265-realsense.cpp, tutorial-apriltag-detector-live.cpp, tutorial-franka-acquire-calib-data.cpp, tutorial-grabber-realsense-T265.cpp, tutorial-grabber-realsense.cpp, tutorial-mb-generic-tracker-apriltag-rs2.cpp, tutorial-mb-generic-tracker-live.cpp, tutorial-mb-generic-tracker-rgbd-realsense.cpp, tutorial-pose-from-points-live.cpp, and tutorial-pose-from-points-realsense-T265.cpp.

Definition at line 1352 of file vpRealSense2.cpp.

References close(), m_depthScale, m_init, m_pipe, m_pipelineProfile, and m_product_line.

bool vpRealSense2::open	(	const rs2::config &	cfg,
		std::function< void(rs2::frame)> &	callback
	)

Open access to the RealSense device and start the streaming.

Parameters

cfg	: A rs2::config with requested filters on the pipeline configuration. By default no filters are applied.
callback	: Stream callback, can be any callable object accepting rs2::frame. The callback is invoked immediately once a frame is ready.

Definition at line 1384 of file vpRealSense2.cpp.

References close(), m_depthScale, m_init, m_pipe, m_pipelineProfile, and m_product_line.

void vpRealSense2::setInvalidDepthValue ( float value )

inline

Set the value used when the pixel value (u, v) in the depth map is invalid for the point cloud. For instance, the Point Cloud Library (PCL) uses NAN values for points where the depth is invalid.

Definition at line 372 of file vpRealSense2.h.

void vpRealSense2::setMaxZ ( const float maxZ )

inline

Set the maximum Z value (used to discard bad reconstructed depth for pointcloud).

Definition at line 376 of file vpRealSense2.h.

Friends And Related Function Documentation

std::ostream & operator<<	(	std::ostream &	os,
		const vpRealSense2 &	rs
	)

friend

Return information from the sensor.

Parameters

os	: Input stream.
rs	: RealSense object.

The following example shows how to use this method.

#include <visp3/sensor/vpRealSense2.h>
int main()
{
  vpRealSense2 rs;
  rs.open();
  std::cout << "RealSense sensor information:\n" << rs << std::endl;
  return 0;
}

Definition at line 1556 of file vpRealSense2.cpp.