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osi_detectedroadmarking.proto
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osi_detectedroadmarking.proto
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syntax = "proto2";
option optimize_for = SPEED;
import "osi_common.proto";
import "osi_roadmarking.proto";
import "osi_detectedobject.proto";
package osi3;
//
// \brief A road marking in the environment as detected by the sensor.
//
// \image html OSI_DetectedRoadMarking.svg
//
// The figure shows two STOP road markings (\c
// DetectedRoadMarking::CandidateRoadMarking::classification). STOP \c
// RoadMarking::Classification::type == \c
// RoadMarking::Classification::TYPE_TEXTUAL_TRAFFIC_SIGN is marked, STOP \c
// RoadMarking::Classification::type == \c
// RoadMarking::Classification::TYPE_SYMBOLIC_TRAFFIC_SIGN is not marked.
//
// The parent frame of a detected road marking is the virtual sensor coordinate
// system.
//
// /note The virtual sensor coordinate system is relative to the vehicle coordinate
// system which has its origin in the center of the rear axle of the ego
// vehicle. This means if virtual sensor mounting position and orientation are
// set to (0,0,0) the virtual sensor coordinate system coincides with the
// vehicle coordinate system.
//
message DetectedRoadMarking
{
// Common information of one detected item.
//
optional DetectedItemHeader header = 1;
// The base parameters of the road marking.
//
// The orientation of the bounding box \c #base
// \c BaseStationary::orientation is defined as follows:
// The z-axis of the \c BaseStationary::orientation is the vector from the
// 'bottom' to the 'top' of the road marking's (i.e. painted traffic sign)
// 2D image area.
// (Normally it is in the ground truth xy-plain.)
// The x-axis of the \c BaseStationary::orientation is the view normal of
// the road marking's 2D image area.
// Normally this x-axis points to the sky.
//
// \note If a valid unidirectional road marking is assigned to the host
// vehicle's current lane and the driving direction of the latter roughly
// matches the z-axis of the \c #base \c BaseStationary::orientation then
// the road marking is of relevance to (i.e. in effect for) the host
// vehicle.
//
optional BaseStationary base = 2;
// The root mean squared error of the base parameters of the detected
// road marking. \c RoadMarking::base has to be identical for
// all \c #candidate road markings.
//
optional BaseStationary base_rmse = 3;
// A list of candidates for this road marking as estimated by the
// sensor.
//
repeated CandidateRoadMarking candidate = 4;
// The visual color of the material of the road marking.
//
// \note This does not represent the semantic classification but the visual
// appearance. For semantic classification of the road marking use the color
// field in \c CandidateRoadMarking::classification.
//
optional ColorDescription color_description = 5;
//
// \brief A candidate for a detected road marking as estimated by the
// sensor.
//
message CandidateRoadMarking
{
// The estimated probability that this candidate is the true value.
//
// \note The sum of all \c #probability must be one. This probability is
// given under the condition of
// \c DetectedItemHeader::existence_probability.
//
// \rules
// is_less_than_or_equal_to: 1
// is_greater_than_or_equal_to: 0
// \endrules
//
optional double probability = 1;
// The classification of the road marking.
//
// \note IDs, which are referenced in this message, usually
// reference to \c DetectedXXX::tracking_id IDs.
//
optional RoadMarking.Classification classification = 2;
}
}