Obbart/universal_robots_ros_driver
1
0
Fork 0
mirror of https://gitlab.com/obbart/universal_robots_ros_driver.git synced 2026-04-10 01:50:46 +02:00
Code Releases Activity
Files
281d4c39551ecbf2560f285cec31e5739cc464be
universal_robots_ros_driver/test/calibration_test.cpp
Felix Mauch 281d4c3955 test 1000 random joint states in fk test
2019-05-27 15:26:10 +02:00

136 lines
6.2 KiB
C++
Raw Blame History

// this is for emacs file handling -*- mode: c++; indent-tabs-mode: nil -*-
// -- BEGIN LICENSE BLOCK ----------------------------------------------
// -- END LICENSE BLOCK ------------------------------------------------
//----------------------------------------------------------------------
/*!\file
*
* \author Felix Mauch mauch@fzi.de
* \date 2019-03-11
*
*/
//----------------------------------------------------------------------
#include <gtest/gtest.h>
#include <ur_rtde_driver/calibration.h>
namespace
{
bool isApproximately(const double val1, const double val2, const double precision)
{
return std::abs(val1 - val2) < precision;
}
TEST(UrRtdeDriver, ur10_ideal)
{
DHRobot my_robot;
const double pi = std::atan(1) * 4;
// This is an ideal UR10
// clang-format off
my_robot.segments_.push_back(DHSegment(0.1273 , 0 , 0 , pi / 2));
my_robot.segments_.push_back(DHSegment(0 , -0.612 , 0 , 0));
my_robot.segments_.push_back(DHSegment(0 , -0.5723, 0 , 0.0));
my_robot.segments_.push_back(DHSegment(0.163841, 0 , 0 , pi / 2));
my_robot.segments_.push_back(DHSegment(0.1157 , 0 , 0 , -pi / 2));
my_robot.segments_.push_back(DHSegment(0.0922 , 0 , 0 , 0));
// clang-format on
Calibration calibration(my_robot);
Eigen::Matrix<double, 6, 1> jointvalues;
{
jointvalues << 0, 0, 0, 0, 0, 0;
Eigen::Matrix4d fk = calibration.calcForwardKinematics(jointvalues);
EXPECT_DOUBLE_EQ(fk(0, 3), my_robot.segments_[1].a_ + my_robot.segments_[2].a_);
EXPECT_DOUBLE_EQ(fk(1, 3), -1 * (my_robot.segments_[3].d_ + my_robot.segments_[5].d_));
EXPECT_DOUBLE_EQ(fk(2, 3), my_robot.segments_[0].d_ - my_robot.segments_[4].d_);
}
{
jointvalues << M_PI_2, -M_PI_4, M_PI_2, -M_PI_4, 0, 0;
Eigen::Matrix4d fk = calibration.calcForwardKinematics(jointvalues);
EXPECT_DOUBLE_EQ(fk(0, 3), my_robot.segments_[3].d_ + my_robot.segments_[5].d_);
EXPECT_DOUBLE_EQ(fk(1, 3), my_robot.segments_[1].a_ / std::sqrt(2) + my_robot.segments_[2].a_ / std::sqrt(2));
// Because of the sqrt calculations a DOUBLE_EQ does not work here.
EXPECT_PRED3(isApproximately, fk(2, 3),
my_robot.segments_[0].d_ - my_robot.segments_[1].a_ / std::sqrt(2) +
my_robot.segments_[2].a_ / std::sqrt(2) - my_robot.segments_[4].d_,
1e-16);
}
}
TEST(UrRtdeDriver, calibration)
{
/* This test compares the forward kinematics of the model constructed from uncorrected
* parameters with the one from the corrected parameters. They are tested against random
* joint values and should be equal (in a numeric sense).
*/
DHRobot my_robot;
const double pi = std::atan(1) * 4;
// This is an ideal UR10
// clang-format off
// d, a, theta, alpha
my_robot.segments_.push_back(DHSegment(0.1273 , 0 , 0 , pi / 2));
my_robot.segments_.push_back(DHSegment(0 , -0.612 , 0 , 0));
my_robot.segments_.push_back(DHSegment(0 , -0.5723, 0 , 0.0));
my_robot.segments_.push_back(DHSegment(0.163841, 0 , 0 , pi / 2));
my_robot.segments_.push_back(DHSegment(0.1157 , 0 , 0 , -pi / 2));
my_robot.segments_.push_back(DHSegment(0.0922 , 0 , 0 , 0));
// clang-format on
DHRobot my_robot_calibration;
// clang-format off
// d, a, theta, alpha
//my_robot_calibration.segments_.push_back(DHSegment(0 , 0 , 0 , 0.0));
//my_robot_calibration.segments_.push_back(DHSegment(0.5 , 0 , 0.1 , 0.2));
//my_robot_calibration.segments_.push_back(DHSegment(0.8 , 0 , 0.3 , 0.4));
//my_robot_calibration.segments_.push_back(DHSegment(-1.3 , 0 , 0 , 0.0));
//my_robot_calibration.segments_.push_back(DHSegment(0 , 0 , 0 , 0.0));
//my_robot_calibration.segments_.push_back(DHSegment(0 , 0 , 0 , 0.0));
my_robot_calibration.segments_.push_back(DHSegment( 0.00065609212979853 , 4.6311376834935676e-05 , -7.290070070824746e-05 , 0.000211987863869334 ));
my_robot_calibration.segments_.push_back(DHSegment( 1.4442162376284788 , -0.00012568315331862312 , -0.01713897289704999 , -0.0072553625957652995));
my_robot_calibration.segments_.push_back(DHSegment( 0.854147723854608 , 0.00186216581161458 , -0.03707159413492756 , -0.013483226769541364 ));
my_robot_calibration.segments_.push_back(DHSegment(-2.2989425877563705 , 9.918593870679266e-05 , 0.054279462160583214 , 0.0013495820227329425 ));
my_robot_calibration.segments_.push_back(DHSegment(-1.573498686836816e-05 , 4.215462720453189e-06 , 1.488984257025741e-07 , -0.001263136163679901 ));
my_robot_calibration.segments_.push_back(DHSegment( 1.9072435590711256e-05 , 0 , 1.551499479707493e-05 , 0 ));
// clang-format on
Calibration calibration(my_robot + my_robot_calibration);
Eigen::Matrix<double, 6, 1> jointvalues;
jointvalues << 0, 0, 0, 0, 0, 0;
// First let's see, whether our calibration input does make sense.
//{
// Eigen::Matrix4d fk = calibration.calcForwardKinematics(jointvalues);
// EXPECT_PRED3(isApproximately, -1.25672673098643, fk(0, 3), 1e-11);
// EXPECT_PRED3(isApproximately, -0.320928557210126, fk(1, 3), 1e-11);
// EXPECT_PRED3(isApproximately, 0.158086917698569, fk(2, 3), 1e-11);
//}
for (size_t i = 0; i < 1000; ++i)
{
Calibration calibration(my_robot + my_robot_calibration);
jointvalues = 2 * pi * Eigen::Matrix<double, 6, 1>::Random();
// TODO: Remove this output
std::cout << "Testing with jointvalues: [" << jointvalues.transpose() << "]" << std::endl;
Eigen::Matrix4d fk_orig = calibration.calcForwardKinematics(jointvalues);
calibration.correctChain();
Eigen::Matrix4d fk_corrected = calibration.calcForwardKinematics(jointvalues);
EXPECT_PRED3(isApproximately, fk_orig(0, 3), fk_corrected(0, 3), 1e-12);
EXPECT_PRED3(isApproximately, fk_orig(1, 3), fk_corrected(1, 3), 1e-12);
EXPECT_PRED3(isApproximately, fk_orig(2, 3), fk_corrected(2, 3), 1e-12);
}
}
} // namespace
int main(int argc, char* argv[])
{
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}
View Git Blame Copy Permalink