gtsam/examples/ImuFactorsExample.cpp

/* ----------------------------------------------------------------------------

 * GTSAM Copyright 2010, Georgia Tech Research Corporation,
 * Atlanta, Georgia 30332-0415
 * All Rights Reserved
 * Authors: Frank Dellaert, et al. (see THANKS for the full author list)

 * See LICENSE for the license information

 * -------------------------------------------------------------------------- */

/**
 * @file ImuFactorsExample
 * @brief Test example for using GTSAM ImuFactor and ImuCombinedFactor
 * navigation code.
 * @author Garrett (ghemann@gmail.com), Luca Carlone
 */

/**
 * Example of use of the imuFactors (imuFactor and combinedImuFactor) in
 * conjunction with GPS
 *  - imuFactor is used by default. You can test combinedImuFactor by
 *  appending a `-c` flag at the end (see below for example command).
 *  - we read IMU and GPS data from a CSV file, with the following format:
 *  A row starting with "i" is the first initial position formatted with
 *  N, E, D, qx, qY, qZ, qW, velN, velE, velD
 *  A row starting with "0" is an imu measurement
 *  linAccN, linAccE, linAccD, angVelN, angVelE, angVelD
 *  A row starting with "1" is a gps correction formatted with
 *  N, E, D, qX, qY, qZ, qW
 * Note that for GPS correction, we're only using the position not the
 * rotation. The rotation is provided in the file for ground truth comparison.
 *
 *  See usage: ./ImuFactorsExample --help
 */

#include <boost/program_options.hpp>

// GTSAM related includes.
#include <gtsam/inference/Symbol.h>
#include <gtsam/navigation/CombinedImuFactor.h>
#include <gtsam/navigation/GPSFactor.h>
#include <gtsam/navigation/ImuFactor.h>
#include <gtsam/nonlinear/ISAM2.h>
#include <gtsam/nonlinear/LevenbergMarquardtOptimizer.h>
#include <gtsam/nonlinear/NonlinearFactorGraph.h>
#include <gtsam/slam/BetweenFactor.h>
#include <gtsam/slam/dataset.h>

#include <cstring>
#include <fstream>
#include <iostream>

using namespace gtsam;
using namespace std;

using symbol_shorthand::B;  // Bias  (ax,ay,az,gx,gy,gz)
using symbol_shorthand::V;  // Vel   (xdot,ydot,zdot)
using symbol_shorthand::X;  // Pose3 (x,y,z,r,p,y)

namespace po = boost::program_options;

po::variables_map parseOptions(int argc, char* argv[]) {
  po::options_description desc;
  desc.add_options()("help,h", "produce help message")(
      "data_csv_path", po::value<string>()->default_value("imuAndGPSdata.csv"),
      "path to the CSV file with the IMU data")(
      "output_filename",
      po::value<string>()->default_value("imuFactorExampleResults.csv"),
      "path to the result file to use")("use_isam", po::bool_switch(),
                                        "use ISAM as the optimizer");

  po::variables_map vm;
  po::store(po::parse_command_line(argc, argv, desc), vm);

  if (vm.count("help")) {
    cout << desc << "\n";
    exit(1);
  }

  return vm;
}

boost::shared_ptr<PreintegratedCombinedMeasurements::Params> imuParams() {
  // We use the sensor specs to build the noise model for the IMU factor.
  double accel_noise_sigma = 0.0003924;
  double gyro_noise_sigma = 0.000205689024915;
  double accel_bias_rw_sigma = 0.004905;
  double gyro_bias_rw_sigma = 0.000001454441043;
  Matrix33 measured_acc_cov = I_3x3 * pow(accel_noise_sigma, 2);
  Matrix33 measured_omega_cov = I_3x3 * pow(gyro_noise_sigma, 2);
  Matrix33 integration_error_cov =
      I_3x3 * 1e-8;  // error committed in integrating position from velocities
  Matrix33 bias_acc_cov = I_3x3 * pow(accel_bias_rw_sigma, 2);
  Matrix33 bias_omega_cov = I_3x3 * pow(gyro_bias_rw_sigma, 2);
  Matrix66 bias_acc_omega_int =
      I_6x6 * 1e-5;  // error in the bias used for preintegration

  auto p = PreintegratedCombinedMeasurements::Params::MakeSharedD(0.0);
  // PreintegrationBase params:
  p->accelerometerCovariance =
      measured_acc_cov;  // acc white noise in continuous
  p->integrationCovariance =
      integration_error_cov;  // integration uncertainty continuous
  // should be using 2nd order integration
  // PreintegratedRotation params:
  p->gyroscopeCovariance =
      measured_omega_cov;  // gyro white noise in continuous
  // PreintegrationCombinedMeasurements params:
  p->biasAccCovariance = bias_acc_cov;      // acc bias in continuous
  p->biasOmegaCovariance = bias_omega_cov;  // gyro bias in continuous
  p->biasAccOmegaInt = bias_acc_omega_int;

  return p;
}

int main(int argc, char* argv[]) {
  string data_filename, output_filename;

  bool use_isam = false;

  po::variables_map var_map = parseOptions(argc, argv);

  data_filename = findExampleDataFile(var_map["data_csv_path"].as<string>());
  output_filename = var_map["output_filename"].as<string>();
  use_isam = var_map["use_isam"].as<bool>();

  ISAM2* isam2 = 0;
  if (use_isam) {
    printf("Using ISAM2\n");
    ISAM2Params parameters;
    parameters.relinearizeThreshold = 0.01;
    parameters.relinearizeSkip = 1;
    isam2 = new ISAM2(parameters);

  } else {
    printf("Using Levenberg Marquardt Optimizer\n");
  }

  // Set up output file for plotting errors
  FILE* fp_out = fopen(output_filename.c_str(), "w+");
  fprintf(fp_out,
          "#time(s),x(m),y(m),z(m),qx,qy,qz,qw,gt_x(m),gt_y(m),gt_z(m),gt_qx,"
          "gt_qy,gt_qz,gt_qw\n");

  // Begin parsing the CSV file.  Input the first line for initialization.
  // From there, we'll iterate through the file and we'll preintegrate the IMU
  // or add in the GPS given the input.
  ifstream file(data_filename.c_str());
  string value;

  // Format is (N,E,D,qX,qY,qZ,qW,velN,velE,velD)
  Vector10 initial_state;
  getline(file, value, ',');  // i
  for (int i = 0; i < 9; i++) {
    getline(file, value, ',');
    initial_state(i) = stof(value.c_str());
  }
  getline(file, value, '\n');
  initial_state(9) = stof(value.c_str());
  cout << "initial state:\n" << initial_state.transpose() << "\n\n";

  // Assemble initial quaternion through GTSAM constructor
  // ::quaternion(w,x,y,z);
  Rot3 prior_rotation = Rot3::Quaternion(initial_state(6), initial_state(3),
                                         initial_state(4), initial_state(5));
  Point3 prior_point(initial_state.head<3>());
  Pose3 prior_pose(prior_rotation, prior_point);
  Vector3 prior_velocity(initial_state.tail<3>());
  imuBias::ConstantBias prior_imu_bias;  // assume zero initial bias

  Values initial_values;
  int correction_count = 0;
  initial_values.insert(X(correction_count), prior_pose);
  initial_values.insert(V(correction_count), prior_velocity);
  initial_values.insert(B(correction_count), prior_imu_bias);

  // Assemble prior noise model and add it the graph.`
  auto pose_noise_model = noiseModel::Diagonal::Sigmas(
      (Vector(6) << 0.01, 0.01, 0.01, 0.5, 0.5, 0.5)
          .finished());  // rad,rad,rad,m, m, m
  auto velocity_noise_model = noiseModel::Isotropic::Sigma(3, 0.1);  // m/s
  auto bias_noise_model = noiseModel::Isotropic::Sigma(6, 1e-3);

  // Add all prior factors (pose, velocity, bias) to the graph.
  NonlinearFactorGraph* graph = new NonlinearFactorGraph();
  graph->addPrior(X(correction_count), prior_pose, pose_noise_model);
  graph->addPrior(V(correction_count), prior_velocity, velocity_noise_model);
  graph->addPrior(B(correction_count), prior_imu_bias, bias_noise_model);

  auto p = imuParams();

  std::shared_ptr<PreintegrationType> preintegrated =
      std::make_shared<PreintegratedImuMeasurements>(p, prior_imu_bias);

  assert(preintegrated);

  // Store previous state for imu integration and latest predicted outcome.
  NavState prev_state(prior_pose, prior_velocity);
  NavState prop_state = prev_state;
  imuBias::ConstantBias prev_bias = prior_imu_bias;

  // Keep track of total error over the entire run as simple performance metric.
  double current_position_error = 0.0, current_orientation_error = 0.0;

  double output_time = 0.0;
  double dt = 0.005;  // The real system has noise, but here, results are nearly
                      // exactly the same, so keeping this for simplicity.

  // All priors have been set up, now iterate through the data file.
  while (file.good()) {
    // Parse out first value
    getline(file, value, ',');
    int type = stoi(value.c_str());

    if (type == 0) {  // IMU measurement
      Vector6 imu;
      for (int i = 0; i < 5; ++i) {
        getline(file, value, ',');
        imu(i) = stof(value.c_str());
      }
      getline(file, value, '\n');
      imu(5) = stof(value.c_str());

      // Adding the IMU preintegration.
      preintegrated->integrateMeasurement(imu.head<3>(), imu.tail<3>(), dt);

    } else if (type == 1) {  // GPS measurement
      Vector7 gps;
      for (int i = 0; i < 6; ++i) {
        getline(file, value, ',');
        gps(i) = stof(value.c_str());
      }
      getline(file, value, '\n');
      gps(6) = stof(value.c_str());

      correction_count++;

      // Adding IMU factor and GPS factor and optimizing.
      auto preint_imu =
          dynamic_cast<const PreintegratedImuMeasurements&>(*preintegrated);
      ImuFactor imu_factor(X(correction_count - 1), V(correction_count - 1),
                           X(correction_count), V(correction_count),
                           B(correction_count - 1), preint_imu);
      graph->add(imu_factor);
      imuBias::ConstantBias zero_bias(Vector3(0, 0, 0), Vector3(0, 0, 0));
      graph->add(BetweenFactor<imuBias::ConstantBias>(
          B(correction_count - 1), B(correction_count), zero_bias,
          bias_noise_model));

      auto correction_noise = noiseModel::Isotropic::Sigma(3, 1.0);
      GPSFactor gps_factor(X(correction_count),
                           Point3(gps(0),   // N,
                                  gps(1),   // E,
                                  gps(2)),  // D,
                           correction_noise);
      graph->add(gps_factor);

      // Now optimize and compare results.
      prop_state = preintegrated->predict(prev_state, prev_bias);
      initial_values.insert(X(correction_count), prop_state.pose());
      initial_values.insert(V(correction_count), prop_state.v());
      initial_values.insert(B(correction_count), prev_bias);

      Values result;

      if (use_isam) {
        isam2->update(*graph, initial_values);
        isam2->update();
        result = isam2->calculateEstimate();

        // reset the graph
        graph->resize(0);
        initial_values.clear();

      } else {
        LevenbergMarquardtOptimizer optimizer(*graph, initial_values);
        result = optimizer.optimize();
      }

      // Overwrite the beginning of the preintegration for the next step.
      prev_state = NavState(result.at<Pose3>(X(correction_count)),
                            result.at<Vector3>(V(correction_count)));
      prev_bias = result.at<imuBias::ConstantBias>(B(correction_count));

      // Reset the preintegration object.
      preintegrated->resetIntegrationAndSetBias(prev_bias);

      // Print out the position and orientation error for comparison.
      Vector3 gtsam_position = prev_state.pose().translation();
      Vector3 position_error = gtsam_position - gps.head<3>();
      current_position_error = position_error.norm();

      Quaternion gtsam_quat = prev_state.pose().rotation().toQuaternion();
      Quaternion gps_quat(gps(6), gps(3), gps(4), gps(5));
      Quaternion quat_error = gtsam_quat * gps_quat.inverse();
      quat_error.normalize();
      Vector3 euler_angle_error(quat_error.x() * 2, quat_error.y() * 2,
                                quat_error.z() * 2);
      current_orientation_error = euler_angle_error.norm();

      // display statistics
      cout << "Position error:" << current_position_error << "\t "
           << "Angular error:" << current_orientation_error << "\n";

      fprintf(fp_out, "%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f\n",
              output_time, gtsam_position(0), gtsam_position(1),
              gtsam_position(2), gtsam_quat.x(), gtsam_quat.y(), gtsam_quat.z(),
              gtsam_quat.w(), gps(0), gps(1), gps(2), gps_quat.x(),
              gps_quat.y(), gps_quat.z(), gps_quat.w());

      output_time += 1.0;

    } else {
      cerr << "ERROR parsing file\n";
      return 1;
    }
  }
  fclose(fp_out);
  cout << "Complete, results written to " << output_filename << "\n\n";

  return 0;
}
added comments 2016-06-09 22:51:16 +08:00			`/* ----------------------------------------------------------------------------`

			`* GTSAM Copyright 2010, Georgia Tech Research Corporation,`
			`* Atlanta, Georgia 30332-0415`
			`* All Rights Reserved`
			`* Authors: Frank Dellaert, et al. (see THANKS for the full author list)`

			`* See LICENSE for the license information`

			`* -------------------------------------------------------------------------- */`

			`/**`
updated filename in brief 2020-06-18 02:47:43 +08:00			`* @file ImuFactorsExample`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`* @brief Test example for using GTSAM ImuFactor and ImuCombinedFactor`
			`* navigation code.`
added comments 2016-06-09 22:51:16 +08:00			`* @author Garrett (ghemann@gmail.com), Luca Carlone`
			`*/`

			`/**`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`* Example of use of the imuFactors (imuFactor and combinedImuFactor) in`
			`* conjunction with GPS`
Add flag for CombinedImu 2019-12-20 15:01:37 +08:00			`* - imuFactor is used by default. You can test combinedImuFactor by`
			* appending a `-c` flag at the end (see below for example command).
added comments 2016-06-09 22:51:16 +08:00			`* - we read IMU and GPS data from a CSV file, with the following format:`
			`* A row starting with "i" is the first initial position formatted with`
			`* N, E, D, qx, qY, qZ, qW, velN, velE, velD`
			`* A row starting with "0" is an imu measurement`
			`* linAccN, linAccE, linAccD, angVelN, angVelE, angVelD`
			`* A row starting with "1" is a gps correction formatted with`
			`* N, E, D, qX, qY, qZ, qW`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`* Note that for GPS correction, we're only using the position not the`
			`* rotation. The rotation is provided in the file for ground truth comparison.`
Add flag for CombinedImu 2019-12-20 15:01:37 +08:00			`*`
use boost program_options for command line parsing 2020-08-11 14:32:58 +08:00			`* See usage: ./ImuFactorsExample --help`
added comments 2016-06-09 22:51:16 +08:00			`*/`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
use boost program_options for command line parsing 2020-08-11 14:32:58 +08:00			`#include <boost/program_options.hpp>`

added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`// GTSAM related includes.`
reworked basic ImuFactorsExample 2020-08-11 14:32:44 +08:00			`#include <gtsam/inference/Symbol.h>`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`#include <gtsam/navigation/CombinedImuFactor.h>`
			`#include <gtsam/navigation/GPSFactor.h>`
			`#include <gtsam/navigation/ImuFactor.h>`
reworked basic ImuFactorsExample 2020-08-11 14:32:44 +08:00			`#include <gtsam/nonlinear/ISAM2.h>`
got rid of useless Eigen stuff in example 2016-06-10 07:43:03 +08:00			`#include <gtsam/nonlinear/LevenbergMarquardtOptimizer.h>`
			`#include <gtsam/nonlinear/NonlinearFactorGraph.h>`
reworked basic ImuFactorsExample 2020-08-11 14:32:44 +08:00			`#include <gtsam/slam/BetweenFactor.h>`
			`#include <gtsam/slam/dataset.h>`
Reformatted and refactored 2020-05-10 07:08:17 +08:00
Add flag for CombinedImu 2019-12-20 15:01:37 +08:00			`#include <cstring>`
got rid of useless Eigen stuff in example 2016-06-10 07:43:03 +08:00			`#include <fstream>`
			`#include <iostream>`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
			`using namespace gtsam;`
			`using namespace std;`

Reformatted and refactored 2020-05-10 07:08:17 +08:00			`using symbol_shorthand::B; // Bias (ax,ay,az,gx,gy,gz)`
			`using symbol_shorthand::V; // Vel (xdot,ydot,zdot)`
			`using symbol_shorthand::X; // Pose3 (x,y,z,r,p,y)`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
use boost program_options for command line parsing 2020-08-11 14:32:58 +08:00			`namespace po = boost::program_options;`

			`po::variables_map parseOptions(int argc, char* argv[]) {`
			`po::options_description desc;`
			`desc.add_options()("help,h", "produce help message")(`
			`"data_csv_path", po::value<string>()->default_value("imuAndGPSdata.csv"),`
			`"path to the CSV file with the IMU data")(`
			`"output_filename",`
			`po::value<string>()->default_value("imuFactorExampleResults.csv"),`
			`"path to the result file to use")("use_isam", po::bool_switch(),`
			`"use ISAM as the optimizer");`

			`po::variables_map vm;`
			`po::store(po::parse_command_line(argc, argv, desc), vm);`

			`if (vm.count("help")) {`
			`cout << desc << "\n";`
			`exit(1);`
			`}`

			`return vm;`
			`}`

reworked basic ImuFactorsExample 2020-08-11 14:32:44 +08:00			`boost::shared_ptr<PreintegratedCombinedMeasurements::Params> imuParams() {`
			`// We use the sensor specs to build the noise model for the IMU factor.`
			`double accel_noise_sigma = 0.0003924;`
			`double gyro_noise_sigma = 0.000205689024915;`
			`double accel_bias_rw_sigma = 0.004905;`
			`double gyro_bias_rw_sigma = 0.000001454441043;`
			`Matrix33 measured_acc_cov = I_3x3 * pow(accel_noise_sigma, 2);`
			`Matrix33 measured_omega_cov = I_3x3 * pow(gyro_noise_sigma, 2);`
			`Matrix33 integration_error_cov =`
			`I_3x3 * 1e-8; // error committed in integrating position from velocities`
			`Matrix33 bias_acc_cov = I_3x3 * pow(accel_bias_rw_sigma, 2);`
			`Matrix33 bias_omega_cov = I_3x3 * pow(gyro_bias_rw_sigma, 2);`
			`Matrix66 bias_acc_omega_int =`
			`I_6x6 * 1e-5; // error in the bias used for preintegration`

			`auto p = PreintegratedCombinedMeasurements::Params::MakeSharedD(0.0);`
			`// PreintegrationBase params:`
			`p->accelerometerCovariance =`
			`measured_acc_cov; // acc white noise in continuous`
			`p->integrationCovariance =`
			`integration_error_cov; // integration uncertainty continuous`
			`// should be using 2nd order integration`
			`// PreintegratedRotation params:`
			`p->gyroscopeCovariance =`
			`measured_omega_cov; // gyro white noise in continuous`
			`// PreintegrationCombinedMeasurements params:`
			`p->biasAccCovariance = bias_acc_cov; // acc bias in continuous`
			`p->biasOmegaCovariance = bias_omega_cov; // gyro bias in continuous`
			`p->biasAccOmegaInt = bias_acc_omega_int;`

			`return p;`
			`}`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`int main(int argc, char* argv[]) {`
reworked basic ImuFactorsExample 2020-08-11 14:32:44 +08:00			`string data_filename, output_filename;`

			`bool use_isam = false;`

use boost program_options for command line parsing 2020-08-11 14:32:58 +08:00			`po::variables_map var_map = parseOptions(argc, argv);`

			`data_filename = findExampleDataFile(var_map["data_csv_path"].as<string>());`
			`output_filename = var_map["output_filename"].as<string>();`
			`use_isam = var_map["use_isam"].as<bool>();`
reworked basic ImuFactorsExample 2020-08-11 14:32:44 +08:00
Assign pointer to prevent errors 2020-11-28 08:35:12 +08:00			`ISAM2* isam2 = 0;`
reworked basic ImuFactorsExample 2020-08-11 14:32:44 +08:00			`if (use_isam) {`
			`printf("Using ISAM2\n");`
			`ISAM2Params parameters;`
			`parameters.relinearizeThreshold = 0.01;`
			`parameters.relinearizeSkip = 1;`
			`isam2 = new ISAM2(parameters);`

added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`} else {`
reworked basic ImuFactorsExample 2020-08-11 14:32:44 +08:00			`printf("Using Levenberg Marquardt Optimizer\n");`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`}`
cleaned up example 2016-06-08 08:36:18 +08:00
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`// Set up output file for plotting errors`
reworked basic ImuFactorsExample 2020-08-11 14:32:44 +08:00			`FILE* fp_out = fopen(output_filename.c_str(), "w+");`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`fprintf(fp_out,`
			`"#time(s),x(m),y(m),z(m),qx,qy,qz,qw,gt_x(m),gt_y(m),gt_z(m),gt_qx,"`
			`"gt_qy,gt_qz,gt_qw\n");`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
			`// Begin parsing the CSV file. Input the first line for initialization.`
			`// From there, we'll iterate through the file and we'll preintegrate the IMU`
			`// or add in the GPS given the input.`
cleaned up example 2016-06-08 08:36:18 +08:00			`ifstream file(data_filename.c_str());`
			`string value;`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
			`// Format is (N,E,D,qX,qY,qZ,qW,velN,velE,velD)`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`Vector10 initial_state;`
			`getline(file, value, ','); // i`
			`for (int i = 0; i < 9; i++) {`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`getline(file, value, ',');`
replace atof/atoi with standardized stof/stoi 2020-08-18 01:12:40 +08:00			`initial_state(i) = stof(value.c_str());`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`}`
			`getline(file, value, '\n');`
replace atof/atoi with standardized stof/stoi 2020-08-18 01:12:40 +08:00			`initial_state(9) = stof(value.c_str());`
cleaned up example 2016-06-08 08:36:18 +08:00			`cout << "initial state:\n" << initial_state.transpose() << "\n\n";`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`// Assemble initial quaternion through GTSAM constructor`
			`// ::quaternion(w,x,y,z);`
remove trailing spaces 2019-02-11 22:39:48 +08:00			`Rot3 prior_rotation = Rot3::Quaternion(initial_state(6), initial_state(3),`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`initial_state(4), initial_state(5));`
			`Point3 prior_point(initial_state.head<3>());`
			`Pose3 prior_pose(prior_rotation, prior_point);`
			`Vector3 prior_velocity(initial_state.tail<3>());`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`imuBias::ConstantBias prior_imu_bias; // assume zero initial bias`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
			`Values initial_values;`
			`int correction_count = 0;`
			`initial_values.insert(X(correction_count), prior_pose);`
			`initial_values.insert(V(correction_count), prior_velocity);`
remove trailing spaces 2019-02-11 22:39:48 +08:00			`initial_values.insert(B(correction_count), prior_imu_bias);`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
Reformatted and refactored 2020-05-10 07:08:17 +08:00			// Assemble prior noise model and add it the graph.`
			`auto pose_noise_model = noiseModel::Diagonal::Sigmas(`
			`(Vector(6) << 0.01, 0.01, 0.01, 0.5, 0.5, 0.5)`
			`.finished()); // rad,rad,rad,m, m, m`
			`auto velocity_noise_model = noiseModel::Isotropic::Sigma(3, 0.1); // m/s`
			`auto bias_noise_model = noiseModel::Isotropic::Sigma(6, 1e-3);`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
			`// Add all prior factors (pose, velocity, bias) to the graph.`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`NonlinearFactorGraph* graph = new NonlinearFactorGraph();`
Replace addPrior<> with addPrior 2020-04-13 01:10:09 +08:00			`graph->addPrior(X(correction_count), prior_pose, pose_noise_model);`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`graph->addPrior(V(correction_count), prior_velocity, velocity_noise_model);`
			`graph->addPrior(B(correction_count), prior_imu_bias, bias_noise_model);`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
reworked basic ImuFactorsExample 2020-08-11 14:32:44 +08:00			`auto p = imuParams();`
Reformatted and refactored 2020-05-10 07:08:17 +08:00
reworked basic ImuFactorsExample 2020-08-11 14:32:44 +08:00			`std::shared_ptr<PreintegrationType> preintegrated =`
			`std::make_shared<PreintegratedImuMeasurements>(p, prior_imu_bias);`
remove trailing spaces 2019-02-11 22:39:48 +08:00
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`assert(preintegrated);`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`// Store previous state for imu integration and latest predicted outcome.`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`NavState prev_state(prior_pose, prior_velocity);`
			`NavState prop_state = prev_state;`
			`imuBias::ConstantBias prev_bias = prior_imu_bias;`

Reformatted and refactored 2020-05-10 07:08:17 +08:00			`// Keep track of total error over the entire run as simple performance metric.`
working example! 2016-06-08 08:54:42 +08:00			`double current_position_error = 0.0, current_orientation_error = 0.0;`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
			`double output_time = 0.0;`
remove trailing spaces 2019-02-11 22:39:48 +08:00			`double dt = 0.005; // The real system has noise, but here, results are nearly`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`// exactly the same, so keeping this for simplicity.`

			`// All priors have been set up, now iterate through the data file.`
			`while (file.good()) {`
			`// Parse out first value`
			`getline(file, value, ',');`
replace atof/atoi with standardized stof/stoi 2020-08-18 01:12:40 +08:00			`int type = stoi(value.c_str());`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`if (type == 0) { // IMU measurement`
			`Vector6 imu;`
			`for (int i = 0; i < 5; ++i) {`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`getline(file, value, ',');`
replace atof/atoi with standardized stof/stoi 2020-08-18 01:12:40 +08:00			`imu(i) = stof(value.c_str());`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`}`
			`getline(file, value, '\n');`
replace atof/atoi with standardized stof/stoi 2020-08-18 01:12:40 +08:00			`imu(5) = stof(value.c_str());`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
			`// Adding the IMU preintegration.`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`preintegrated->integrateMeasurement(imu.head<3>(), imu.tail<3>(), dt);`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`} else if (type == 1) { // GPS measurement`
			`Vector7 gps;`
			`for (int i = 0; i < 6; ++i) {`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`getline(file, value, ',');`
replace atof/atoi with standardized stof/stoi 2020-08-18 01:12:40 +08:00			`gps(i) = stof(value.c_str());`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`}`
			`getline(file, value, '\n');`
replace atof/atoi with standardized stof/stoi 2020-08-18 01:12:40 +08:00			`gps(6) = stof(value.c_str());`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
			`correction_count++;`

			`// Adding IMU factor and GPS factor and optimizing.`
reworked basic ImuFactorsExample 2020-08-11 14:32:44 +08:00			`auto preint_imu =`
			`dynamic_cast<const PreintegratedImuMeasurements&>(*preintegrated);`
			`ImuFactor imu_factor(X(correction_count - 1), V(correction_count - 1),`
			`X(correction_count), V(correction_count),`
			`B(correction_count - 1), preint_imu);`
			`graph->add(imu_factor);`
			`imuBias::ConstantBias zero_bias(Vector3(0, 0, 0), Vector3(0, 0, 0));`
			`graph->add(BetweenFactor<imuBias::ConstantBias>(`
			`B(correction_count - 1), B(correction_count), zero_bias,`
			`bias_noise_model));`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`auto correction_noise = noiseModel::Isotropic::Sigma(3, 1.0);`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`GPSFactor gps_factor(X(correction_count),`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`Point3(gps(0), // N,`
			`gps(1), // E,`
			`gps(2)), // D,`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`correction_noise);`
			`graph->add(gps_factor);`
remove trailing spaces 2019-02-11 22:39:48 +08:00
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`// Now optimize and compare results.`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`prop_state = preintegrated->predict(prev_state, prev_bias);`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`initial_values.insert(X(correction_count), prop_state.pose());`
			`initial_values.insert(V(correction_count), prop_state.v());`
			`initial_values.insert(B(correction_count), prev_bias);`

adding functionality to use ISAM2 for imu preintegration example 2020-03-31 00:46:30 +08:00			`Values result;`
reworked basic ImuFactorsExample 2020-08-11 14:32:44 +08:00
			`if (use_isam) {`
			`isam2->update(*graph, initial_values);`
			`isam2->update();`
			`result = isam2->calculateEstimate();`

			`// reset the graph`
			`graph->resize(0);`
			`initial_values.clear();`

			`} else {`
			`LevenbergMarquardtOptimizer optimizer(*graph, initial_values);`
			`result = optimizer.optimize();`
			`}`

added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`// Overwrite the beginning of the preintegration for the next step.`
			`prev_state = NavState(result.at<Pose3>(X(correction_count)),`
			`result.at<Vector3>(V(correction_count)));`
			`prev_bias = result.at<imuBias::ConstantBias>(B(correction_count));`

			`// Reset the preintegration object.`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`preintegrated->resetIntegrationAndSetBias(prev_bias);`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
			`// Print out the position and orientation error for comparison.`
got rid of useless Eigen stuff in example 2016-06-10 07:43:03 +08:00			`Vector3 gtsam_position = prev_state.pose().translation();`
			`Vector3 position_error = gtsam_position - gps.head<3>();`
working example! 2016-06-08 08:54:42 +08:00			`current_position_error = position_error.norm();`
cleaned up example 2016-06-08 08:36:18 +08:00
got rid of useless Eigen stuff in example 2016-06-10 07:43:03 +08:00			`Quaternion gtsam_quat = prev_state.pose().rotation().toQuaternion();`
			`Quaternion gps_quat(gps(6), gps(3), gps(4), gps(5));`
			`Quaternion quat_error = gtsam_quat * gps_quat.inverse();`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`quat_error.normalize();`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`Vector3 euler_angle_error(quat_error.x() * 2, quat_error.y() * 2,`
			`quat_error.z() * 2);`
working example! 2016-06-08 08:54:42 +08:00			`current_orientation_error = euler_angle_error.norm();`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
cleaned up example 2016-06-08 08:36:18 +08:00			`// display statistics`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`cout << "Position error:" << current_position_error << "\t "`
			`<< "Angular error:" << current_orientation_error << "\n";`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
remove trailing spaces 2019-02-11 22:39:48 +08:00			`fprintf(fp_out, "%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f\n",`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`output_time, gtsam_position(0), gtsam_position(1),`
			`gtsam_position(2), gtsam_quat.x(), gtsam_quat.y(), gtsam_quat.z(),`
			`gtsam_quat.w(), gps(0), gps(1), gps(2), gps_quat.x(),`
			`gps_quat.y(), gps_quat.z(), gps_quat.w());`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00
			`output_time += 1.0;`

			`} else {`
cleaned up example 2016-06-08 08:36:18 +08:00			`cerr << "ERROR parsing file\n";`
added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`return 1;`
			`}`
			`}`
			`fclose(fp_out);`
Reformatted and refactored 2020-05-10 07:08:17 +08:00			`cout << "Complete, results written to " << output_filename << "\n\n";`

added IMU example, still debugging 2016-06-08 07:57:34 +08:00			`return 0;`
			`}`