Adding NavSatFix to trajectory builder. (#666)

GPS message is converted first to ECEF, and then to a local frame. The first GPS message defines the local frame. PAIR=wohe [RFC=0007](https://github.com/googlecartographer/rfcs/blob/master/text/0007-nav-sat-support.md)
2018-01-12 19:35:16 +01:00 · 2018-01-12 19:35:16 +01:00 · 1eda46a941
parent b0a937b7ed
commit 1eda46a941
2 changed files with 45 additions and 21 deletions
--- a/cartographer_ros/cartographer_ros/sensor_bridge.cc
+++ b/cartographer_ros/cartographer_ros/sensor_bridge.cc
@ -48,37 +48,57 @@ SensorBridge::SensorBridge(
      tf_bridge_(tracking_frame, lookup_transform_timeout_sec, tf_buffer),
      trajectory_builder_(trajectory_builder) {}

-std::unique_ptr<::cartographer::sensor::OdometryData>
-SensorBridge::ToOdometryData(const nav_msgs::Odometry::ConstPtr& msg) {
+std::unique_ptr<carto::sensor::OdometryData> SensorBridge::ToOdometryData(
+    const nav_msgs::Odometry::ConstPtr& msg) {
  const carto::common::Time time = FromRos(msg->header.stamp);
  const auto sensor_to_tracking = tf_bridge_.LookupToTracking(
      time, CheckNoLeadingSlash(msg->child_frame_id));
  if (sensor_to_tracking == nullptr) {
    return nullptr;
  }
-  return ::cartographer::common::make_unique<
-      ::cartographer::sensor::OdometryData>(
-      ::cartographer::sensor::OdometryData{
+  return carto::common::make_unique<carto::sensor::OdometryData>(
+      carto::sensor::OdometryData{
          time, ToRigid3d(msg->pose.pose) * sensor_to_tracking->inverse()});
 }

 void SensorBridge::HandleOdometryMessage(
    const std::string& sensor_id, const nav_msgs::Odometry::ConstPtr& msg) {
-  std::unique_ptr<::cartographer::sensor::OdometryData> odometry_data =
+  std::unique_ptr<carto::sensor::OdometryData> odometry_data =
      ToOdometryData(msg);
  if (odometry_data != nullptr) {
    trajectory_builder_->AddSensorData(
-        sensor_id, cartographer::sensor::OdometryData{odometry_data->time,
-                                                      odometry_data->pose});
+        sensor_id,
+        carto::sensor::OdometryData{odometry_data->time, odometry_data->pose});
  }
 }

 void SensorBridge::HandleNavSatFixMessage(
    const std::string& sensor_id, const sensor_msgs::NavSatFix::ConstPtr& msg) {
-  LOG(FATAL) << "TODO(spielawa / wohe): NavSatFix support not yet implemented.";
+  const carto::common::Time time = FromRos(msg->header.stamp);
+  if (msg->status.status == sensor_msgs::NavSatStatus::STATUS_NO_FIX) {
+    trajectory_builder_->AddSensorData(
+        sensor_id, carto::sensor::FixedFramePoseData{
+                       time, carto::common::optional<Rigid3d>()});
+    return;
  }

-std::unique_ptr<::cartographer::sensor::ImuData> SensorBridge::ToImuData(
+  if (!ecef_to_local_frame_.has_value()) {
+    ecef_to_local_frame_ =
+        ComputeLocalFrameFromLatLong(msg->latitude, msg->longitude);
+    LOG(INFO) << "Using NavSatFix. Setting ecef_to_local_frame with lat = "
+              << msg->latitude << ", long = " << msg->longitude << ".";
+  }
+
+  trajectory_builder_->AddSensorData(
+      sensor_id,
+      carto::sensor::FixedFramePoseData{
+          time, carto::common::optional<Rigid3d>(Rigid3d::Translation(
+                    ecef_to_local_frame_.value() *
+                    LatLongAltToEcef(msg->latitude, msg->longitude,
+                                     msg->altitude)))});
+}
+
+std::unique_ptr<carto::sensor::ImuData> SensorBridge::ToImuData(
    const sensor_msgs::Imu::ConstPtr& msg) {
  CHECK_NE(msg->linear_acceleration_covariance[0], -1)
      << "Your IMU data claims to not contain linear acceleration measurements "
@ -101,8 +121,8 @@ std::unique_ptr<::cartographer::sensor::ImuData> SensorBridge::ToImuData(
      << "The IMU frame must be colocated with the tracking frame. "
         "Transforming linear acceleration into the tracking frame will "
         "otherwise be imprecise.";
-  return ::cartographer::common::make_unique<::cartographer::sensor::ImuData>(
-      ::cartographer::sensor::ImuData{
+  return carto::common::make_unique<carto::sensor::ImuData>(
+      carto::sensor::ImuData{
          time,
          sensor_to_tracking->rotation() * ToEigen(msg->linear_acceleration),
          sensor_to_tracking->rotation() * ToEigen(msg->angular_velocity)});
@ -110,19 +130,19 @@ std::unique_ptr<::cartographer::sensor::ImuData> SensorBridge::ToImuData(

 void SensorBridge::HandleImuMessage(const std::string& sensor_id,
                                    const sensor_msgs::Imu::ConstPtr& msg) {
-  std::unique_ptr<::cartographer::sensor::ImuData> imu_data = ToImuData(msg);
+  std::unique_ptr<carto::sensor::ImuData> imu_data = ToImuData(msg);
  if (imu_data != nullptr) {
    trajectory_builder_->AddSensorData(
-        sensor_id, cartographer::sensor::ImuData{imu_data->time,
-                                                 imu_data->linear_acceleration,
+        sensor_id,
+        carto::sensor::ImuData{imu_data->time, imu_data->linear_acceleration,
                               imu_data->angular_velocity});
  }
 }

 void SensorBridge::HandleLaserScanMessage(
    const std::string& sensor_id, const sensor_msgs::LaserScan::ConstPtr& msg) {
-  ::cartographer::sensor::PointCloudWithIntensities point_cloud;
-  ::cartographer::common::Time time;
+  carto::sensor::PointCloudWithIntensities point_cloud;
+  carto::common::Time time;
  std::tie(point_cloud, time) = ToPointCloudWithIntensities(*msg);
  HandleLaserScan(sensor_id, time, msg->header.frame_id, point_cloud);
 }
@ -130,8 +150,8 @@ void SensorBridge::HandleLaserScanMessage(
 void SensorBridge::HandleMultiEchoLaserScanMessage(
    const std::string& sensor_id,
    const sensor_msgs::MultiEchoLaserScan::ConstPtr& msg) {
-  ::cartographer::sensor::PointCloudWithIntensities point_cloud;
-  ::cartographer::common::Time time;
+  carto::sensor::PointCloudWithIntensities point_cloud;
+  carto::common::Time time;
  std::tie(point_cloud, time) = ToPointCloudWithIntensities(*msg);
  HandleLaserScan(sensor_id, time, msg->header.frame_id, point_cloud);
 }
@ -187,7 +207,7 @@ void SensorBridge::HandleRangefinder(
      tf_bridge_.LookupToTracking(time, CheckNoLeadingSlash(frame_id));
  if (sensor_to_tracking != nullptr) {
    trajectory_builder_->AddSensorData(
-        sensor_id, cartographer::sensor::TimedPointCloudData{
+        sensor_id, carto::sensor::TimedPointCloudData{
                       time, sensor_to_tracking->translation().cast<float>(),
                       carto::sensor::TransformTimedPointCloud(
                           ranges, sensor_to_tracking->cast<float>())});
--- a/cartographer_ros/cartographer_ros/sensor_bridge.h
+++ b/cartographer_ros/cartographer_ros/sensor_bridge.h
@ -19,6 +19,7 @@

 #include <memory>

+#include "cartographer/common/optional.h"
 #include "cartographer/mapping/trajectory_builder_interface.h"
 #include "cartographer/sensor/imu_data.h"
 #include "cartographer/sensor/odometry_data.h"
@ -82,6 +83,9 @@ class SensorBridge {
  const TfBridge tf_bridge_;
  ::cartographer::mapping::TrajectoryBuilderInterface* const
      trajectory_builder_;
+
+  ::cartographer::common::optional<::cartographer::transform::Rigid3d>
+      ecef_to_local_frame_;
 };

 }  // namespace cartographer_ros