reference/2.0.4/_c_robot2_d_pose_estimator__unittest_8cpp_source.html

 /* +------------------------------------------------------------------------+
    |                     Mobile Robot Programming Toolkit (MRPT)            |
    |                          https://www.mrpt.org/                         |
    |                                                                        |
    | Copyright (c) 2005-2020, Individual contributors, see AUTHORS file     |
    | See: https://www.mrpt.org/Authors - All rights reserved.               |
    | Released under BSD License. See: https://www.mrpt.org/License          |
    +------------------------------------------------------------------------+ */

 #include <gtest/gtest.h>
 #include <mrpt/poses/CRobot2DPoseEstimator.h>
 #include <mrpt/system/datetime.h>

 TEST(CRobot2DPoseEstimator, defaultCtor)
 {
     mrpt::poses::CRobot2DPoseEstimator rpe;

     mrpt::math::TPose2D p;
     mrpt::math::TTwist2D vl, vg;

     bool ok = rpe.getCurrentEstimate(p, vl, vg);

     EXPECT_FALSE(ok);
 }

 TEST(CRobot2DPoseEstimator, extrapolateRobotPose)
 {
     mrpt::math::TPose2D p = {0, 0, 0};
     const mrpt::math::TTwist2D vl = {2.0, 1.0, -0.5};
     const double dt = 2.0;

     mrpt::math::TPose2D new_p;
     mrpt::poses::CRobot2DPoseEstimator::extrapolateRobotPose(p, vl, dt, new_p);

     EXPECT_DOUBLE_EQ(new_p.x, p.x + dt * vl.vx);
     EXPECT_DOUBLE_EQ(new_p.y, p.y + dt * vl.vy);
     EXPECT_DOUBLE_EQ(new_p.phi, p.phi + dt * vl.omega);

     // now, rotated 90deg:
     p = mrpt::math::TPose2D{10.0, 20.0, mrpt::DEG2RAD(90.0)};
     mrpt::poses::CRobot2DPoseEstimator::extrapolateRobotPose(p, vl, dt, new_p);

     EXPECT_NEAR(new_p.x, p.x - dt * vl.vy, 1e-5);
     EXPECT_NEAR(new_p.y, p.y + dt * vl.vx, 1e-5);
     EXPECT_NEAR(new_p.phi, p.phi + dt * vl.omega, 1e-5);
 }

 TEST(CRobot2DPoseEstimator, integrateOdometryAndLocalization)
 {
     const mrpt::math::TPose2D odo1 = {0, 0, 0};
     const mrpt::math::TPose2D loc1 = {10.0, 20.0, mrpt::DEG2RAD(90.0)};
     const mrpt::math::TTwist2D vel1 = {1.0, 0.0, mrpt::DEG2RAD(10.0)};
     const double dt = 1.0;
     const auto odo2 = odo1 + vel1 * dt;

     mrpt::poses::CRobot2DPoseEstimator rpe;

     rpe.params.max_localiz_age = 2 * dt;
     rpe.params.max_odometry_age = 2 * dt;

     const auto t0 = mrpt::Clock::now();
     const auto t1 = mrpt::system::timestampAdd(t0, dt);

     // t0:
     rpe.processUpdateNewOdometry(odo1, t0, true, vel1);
     rpe.processUpdateNewPoseLocalization(loc1, t0);

     mrpt::math::TPose2D p;
     mrpt::math::TTwist2D vl, vg;
     bool ok = rpe.getCurrentEstimate(p, vl, vg, t0);
     EXPECT_TRUE(ok);
     EXPECT_NEAR(p.x, loc1.x, 1e-5);
     EXPECT_NEAR(p.y, loc1.y, 1e-5);
     EXPECT_NEAR(p.phi, loc1.phi, 1e-5);

     EXPECT_NEAR(vl.vx, vel1.vx, 1e-5);
     EXPECT_NEAR(vl.vy, vel1.vy, 1e-5);
     EXPECT_NEAR(vl.omega, vel1.omega, 1e-5);

     EXPECT_NEAR(vg.vx, -vel1.vy, 1e-5);  // 90deg rot
     EXPECT_NEAR(vg.vy, vel1.vx, 1e-5);
     EXPECT_NEAR(vg.omega, vel1.omega, 1e-5);

     // t1:
     rpe.processUpdateNewOdometry(odo2, t1, true, vel1);
     ok = rpe.getCurrentEstimate(p, vl, vg, t1);
     EXPECT_TRUE(ok);
     EXPECT_NEAR(p.x, loc1.x - dt * vel1.vy, 1e-5);
     EXPECT_NEAR(p.y, loc1.y + dt * vel1.vx, 1e-5);
     EXPECT_NEAR(p.phi, loc1.phi + dt * vel1.omega, 1e-5);

     // reset:
     rpe.reset();
     ok = rpe.getCurrentEstimate(p, vl, vg, t1);
     EXPECT_FALSE(ok);
 }
EXPECT_TRUE
EXPECT_TRUE(mrpt::system::fileExists(ini_fil))

mrpt::math::TPose2D::x
double x
X,Y coordinates.
Definition: TPose2D.h:30

mrpt::poses::CRobot2DPoseEstimator::TOptions::max_odometry_age
double max_odometry_age
To consider data old, in seconds.
Definition: CRobot2DPoseEstimator.h:82

ok
bool ok
Definition: chessboard_stereo_camera_calib_unittest.cpp:61

mrpt::poses::CRobot2DPoseEstimator
A simple filter to estimate and extrapolate the robot 2D (x,y,phi) pose from asynchronous odometry an...
Definition: CRobot2DPoseEstimator.h:29

mrpt::Clock::now
static time_point now() noexcept
Returns the current time using the currently selected Clock source.
Definition: Clock.cpp:94

mrpt::poses::CRobot2DPoseEstimator::reset
void reset()
Resets all internal state.
Definition: CRobot2DPoseEstimator.cpp:37

datetime.h

mrpt::math::TTwist2D
2D twist: 2D velocity vector (vx,vy) + planar angular velocity (omega)
Definition: TTwist2D.h:19

mrpt::poses::CRobot2DPoseEstimator::processUpdateNewOdometry
void processUpdateNewOdometry(const mrpt::math::TPose2D &newGlobalOdometry, mrpt::Clock::time_point cur_tim, bool hasVelocities=false, const mrpt::math::TTwist2D &newRobotVelLocal=mrpt::math::TTwist2D())
Updates the filter with new odometry readings.
Definition: CRobot2DPoseEstimator.cpp:70

mrpt::DEG2RAD
constexpr double DEG2RAD(const double x)
Degrees to radians.
Definition: core/include/mrpt/core/bits_math.h:47

mrpt::math::TTwist2D::vx
double vx
Velocity components: X,Y (m/s)
Definition: TTwist2D.h:26

mrpt::math::TTwist2D::vy
double vy
Definition: TTwist2D.h:26

TEST
TEST(CRobot2DPoseEstimator, defaultCtor)
Definition: CRobot2DPoseEstimator_unittest.cpp:14

mrpt::math::TPose2D::y
double y
Definition: TPose2D.h:30

mrpt::poses::CRobot2DPoseEstimator::TOptions::max_localiz_age
double max_localiz_age
To consider data old, in seconds.
Definition: CRobot2DPoseEstimator.h:84

mrpt::poses::CRobot2DPoseEstimator::getCurrentEstimate
bool getCurrentEstimate(mrpt::math::TPose2D &pose, mrpt::math::TTwist2D &velLocal, mrpt::math::TTwist2D &velGlobal, mrpt::Clock::time_point tim_query=mrpt::Clock::now()) const
Get the estimate for a given timestamp (defaults to now()), obtained as:
Definition: CRobot2DPoseEstimator.cpp:109

mrpt::math::TPose2D
Lightweight 2D pose.
Definition: TPose2D.h:22

mrpt::poses::CRobot2DPoseEstimator::params
TOptions params
parameters of the filter.
Definition: CRobot2DPoseEstimator.h:88

CRobot2DPoseEstimator.h

mrpt::system::timestampAdd
mrpt::system::TTimeStamp timestampAdd(const mrpt::system::TTimeStamp tim, const double num_seconds)
Shifts a timestamp the given amount of seconds (>0: forwards in time, <0: backwards) ...
Definition: datetime.h:146

EXPECT_NEAR
EXPECT_NEAR(out.cam_params.rightCameraPose.x, 0.1194, 0.005)

mrpt::poses::CRobot2DPoseEstimator::extrapolateRobotPose
static void extrapolateRobotPose(const mrpt::math::TPose2D &p, const mrpt::math::TTwist2D &robot_vel_local, const double delta_time, mrpt::math::TPose2D &new_p)
Auxiliary static method to extrapolate the pose of a robot located at "p" with velocities (v...
Definition: CRobot2DPoseEstimator.cpp:170

mrpt::poses::CRobot2DPoseEstimator::processUpdateNewPoseLocalization
void processUpdateNewPoseLocalization(const mrpt::math::TPose2D &newPose, mrpt::Clock::time_point tim)
Updates the filter with new global-coordinates localization data from a localization or SLAM source...
Definition: CRobot2DPoseEstimator.cpp:52

mrpt::math::TPose2D::phi
double phi
Orientation (rads)
Definition: TPose2D.h:32

mrpt::math::TTwist2D::omega
double omega
Angular velocity (rad/s)
Definition: TTwist2D.h:28