Adding metrics (#1240)

to measure fraction of sensor time that is taken up by voxel filter, scan matcher, and inserting into submap.
master
Susanne Pielawa 2018-07-09 21:20:58 +02:00 committed by Wally B. Feed
parent aa3ac7e837
commit 3ee7c6710f
2 changed files with 81 additions and 4 deletions

View File

@ -31,6 +31,9 @@ namespace cartographer {
namespace mapping {
static auto* kLocalSlamLatencyMetric = metrics::Gauge::Null();
static auto* kLocalSlamVoxelFilterFraction = metrics::Gauge::Null();
static auto* kLocalSlamScanMatcherFraction = metrics::Gauge::Null();
static auto* kLocalSlamInsertIntoSubmapFraction = metrics::Gauge::Null();
static auto* kRealTimeCorrelativeScanMatcherScoreMetric =
metrics::Histogram::Null();
static auto* kCeresScanMatcherCostMetric = metrics::Histogram::Null();
@ -108,6 +111,7 @@ LocalTrajectoryBuilder3D::AddRangeData(
std::vector<transform::Rigid3f> hits_poses;
hits_poses.reserve(hits.size());
bool warned = false;
for (const auto& hit : hits) {
common::Time time_point = time + common::FromSeconds(hit.point_time[3]);
if (time_point < extrapolator_->GetLastExtrapolatedTime()) {
@ -150,18 +154,40 @@ LocalTrajectoryBuilder3D::AddRangeData(
++num_accumulated_;
if (num_accumulated_ >= options_.num_accumulated_range_data()) {
const common::Time current_sensor_time = synchronized_data.time;
common::optional<common::Duration> sensor_duration;
if (last_sensor_time_.has_value()) {
sensor_duration = current_sensor_time - last_sensor_time_.value();
}
last_sensor_time_ = current_sensor_time;
num_accumulated_ = 0;
transform::Rigid3f current_pose =
extrapolator_->ExtrapolatePose(time).cast<float>();
const auto voxel_filter_start = std::chrono::steady_clock::now();
const sensor::RangeData filtered_range_data = {
current_pose.translation(),
sensor::VoxelFilter(options_.voxel_filter_size())
.Filter(accumulated_range_data_.returns),
sensor::VoxelFilter(options_.voxel_filter_size())
.Filter(accumulated_range_data_.misses)};
const auto voxel_filter_stop = std::chrono::steady_clock::now();
const auto voxel_filter_duration = voxel_filter_stop - voxel_filter_start;
if (sensor_duration.has_value()) {
const double voxel_filter_fraction =
std::chrono::duration_cast<std::chrono::duration<double>>(
voxel_filter_duration)
.count() /
common::ToSeconds(sensor_duration.value());
kLocalSlamVoxelFilterFraction->Set(voxel_filter_fraction);
}
return AddAccumulatedRangeData(
time, sensor::TransformRangeData(filtered_range_data,
current_pose.inverse()));
time,
sensor::TransformRangeData(filtered_range_data, current_pose.inverse()),
sensor_duration);
}
return nullptr;
}
@ -169,7 +195,8 @@ LocalTrajectoryBuilder3D::AddRangeData(
std::unique_ptr<LocalTrajectoryBuilder3D::MatchingResult>
LocalTrajectoryBuilder3D::AddAccumulatedRangeData(
const common::Time time,
const sensor::RangeData& filtered_range_data_in_tracking) {
const sensor::RangeData& filtered_range_data_in_tracking,
const common::optional<common::Duration>& sensor_duration) {
if (filtered_range_data_in_tracking.returns.empty()) {
LOG(WARNING) << "Dropped empty range data.";
return nullptr;
@ -178,6 +205,8 @@ LocalTrajectoryBuilder3D::AddAccumulatedRangeData(
const transform::Rigid3d pose_prediction =
extrapolator_->ExtrapolatePose(time);
const auto scan_matcher_start = std::chrono::steady_clock::now();
std::shared_ptr<const mapping::Submap3D> matching_submap =
active_submaps_.submaps().front();
transform::Rigid3d initial_ceres_pose =
@ -219,6 +248,18 @@ LocalTrajectoryBuilder3D::AddAccumulatedRangeData(
{&low_resolution_point_cloud_in_tracking,
&matching_submap->low_resolution_hybrid_grid()}},
&pose_observation_in_submap, &summary);
const auto scan_matcher_stop = std::chrono::steady_clock::now();
const auto scan_matcher_duration = scan_matcher_stop - scan_matcher_start;
if (sensor_duration.has_value()) {
const double scan_matcher_fraction =
std::chrono::duration_cast<std::chrono::duration<double>>(
scan_matcher_duration)
.count() /
common::ToSeconds(sensor_duration.value());
kLocalSlamScanMatcherFraction->Set(scan_matcher_fraction);
}
kCeresScanMatcherCostMetric->Observe(summary.final_cost);
double residual_distance = (pose_observation_in_submap.translation() -
initial_ceres_pose.translation())
@ -235,10 +276,26 @@ LocalTrajectoryBuilder3D::AddAccumulatedRangeData(
sensor::RangeData filtered_range_data_in_local = sensor::TransformRangeData(
filtered_range_data_in_tracking, pose_estimate.cast<float>());
const auto insert_into_submap_start = std::chrono::steady_clock::now();
std::unique_ptr<InsertionResult> insertion_result = InsertIntoSubmap(
time, filtered_range_data_in_local, filtered_range_data_in_tracking,
high_resolution_point_cloud_in_tracking,
low_resolution_point_cloud_in_tracking, pose_estimate, gravity_alignment);
const auto insert_into_submap_stop = std::chrono::steady_clock::now();
const auto insert_into_submap_duration =
insert_into_submap_stop - insert_into_submap_start;
if (sensor_duration.has_value()) {
double insert_into_submap_fraction =
std::chrono::duration_cast<std::chrono::duration<double>>(
insert_into_submap_duration)
.count() /
common::ToSeconds(sensor_duration.value());
kLocalSlamInsertIntoSubmapFraction->Set(insert_into_submap_fraction);
}
auto duration = std::chrono::steady_clock::now() - accumulation_started_;
kLocalSlamLatencyMetric->Set(
std::chrono::duration_cast<std::chrono::duration<double>>(duration)
@ -304,6 +361,23 @@ void LocalTrajectoryBuilder3D::RegisterMetrics(
"mapping_3d_local_trajectory_builder_latency",
"Duration from first incoming point cloud in accumulation to local slam "
"result");
auto* voxel_filter_fraction = family_factory->NewGaugeFamily(
"mapping_3d_local_trajectory_builder_voxel_filter_fraction",
"Fraction of total sensor time taken up by voxel filter.");
kLocalSlamVoxelFilterFraction = voxel_filter_fraction->Add({});
auto* scan_matcher_fraction = family_factory->NewGaugeFamily(
"mapping_3d_local_trajectory_builder_scan_matcher_fraction",
"Fraction of total sensor time taken up by scan matcher.");
kLocalSlamScanMatcherFraction = scan_matcher_fraction->Add({});
auto* insert_into_submap_fraction = family_factory->NewGaugeFamily(
"mapping_3d_local_trajectory_builder"
"insert_into_submap_fraction",
"Fraction of total sensor time taken up by inserting into submap.");
kLocalSlamInsertIntoSubmapFraction = insert_into_submap_fraction->Add({});
kLocalSlamLatencyMetric = latency->Add({});
auto score_boundaries = metrics::Histogram::FixedWidth(0.05, 20);
auto* scores = family_factory->NewHistogramFamily(

View File

@ -77,7 +77,8 @@ class LocalTrajectoryBuilder3D {
private:
std::unique_ptr<MatchingResult> AddAccumulatedRangeData(
common::Time time,
const sensor::RangeData& filtered_range_data_in_tracking);
const sensor::RangeData& filtered_range_data_in_tracking,
const common::optional<common::Duration>& sensor_duration);
std::unique_ptr<InsertionResult> InsertIntoSubmap(
common::Time time, const sensor::RangeData& filtered_range_data_in_local,
@ -102,6 +103,8 @@ class LocalTrajectoryBuilder3D {
std::chrono::steady_clock::time_point accumulation_started_;
RangeDataCollator range_data_collator_;
common::optional<common::Time> last_sensor_time_;
};
} // namespace mapping