bool HectorMappingRos::rosLaserScanToDataContainer(const sensor_msgs::LaserScan& scan, hectorslam::DataContainer& dataContainer, float scaleToMap)
{
  size_t size = scan.ranges.size();

  float angle = scan.angle_min;

  dataContainer.clear();

  dataContainer.setOrigo(Eigen::Vector2f::Zero());

  float maxRangeForContainer = scan.range_max - 0.1f;

  for (size_t i = 0; i < size; ++i)
  {
    float dist = scan.ranges[i];

    if ( (dist > scan.range_min) && (dist < maxRangeForContainer))
    {
      dist *= scaleToMap;
      dataContainer.add(Eigen::Vector2f(cos(angle) * dist, sin(angle) * dist));
    }

    angle += scan.angle_increment;
  }

  return true;
}
Пример #2
0
bool HectorMappingRos::rosPointCloudToDataContainer(const sensor_msgs::PointCloud& pointCloud, const tf::StampedTransform& laserTransform, hectorslam::DataContainer& dataContainer, float scaleToMap)
{
  size_t size = pointCloud.points.size();
  
  dataContainer.clear();
  
  tf::Vector3 laserPos (laserTransform.getOrigin());
  dataContainer.setOrigo(Eigen::Vector2f(laserPos.x(), laserPos.y())*scaleToMap);
  
  for (size_t i = 0; i < size; ++i)
    {
      
      const geometry_msgs::Point32& currPoint(pointCloud.points[i]);
      
      float dist_sqr = currPoint.x*currPoint.x + currPoint.y* currPoint.y;
      
      if ( (dist_sqr > p_sqr_laser_min_dist_) && (dist_sqr < p_sqr_laser_max_dist_) ){
	
	if ( (currPoint.x < 0.0f) && (dist_sqr < 0.50f)){
	  continue;
	}
	
	tf::Vector3 pointPosBaseFrame(laserTransform * tf::Vector3(currPoint.x, currPoint.y, currPoint.z));
	
	float pointPosLaserFrameZ = pointPosBaseFrame.z() - laserPos.z();
	
	if (pointPosLaserFrameZ > p_laser_z_min_value_ && pointPosLaserFrameZ < p_laser_z_max_value_)
	  {
	    dataContainer.add(Eigen::Vector2f(pointPosBaseFrame.x(),pointPosBaseFrame.y())*scaleToMap);
	  }
      }
    }
  
  return true;
}