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00022 #include <stdr_robot/sensors/sonar.h>
00023
00024 namespace stdr_robot {
00025
00034 Sonar::Sonar(const nav_msgs::OccupancyGrid& map,
00035 const stdr_msgs::SonarSensorMsg& msg,
00036 const std::string& name,
00037 ros::NodeHandle& n)
00038 :
00039 Sensor(map, name, n, msg.pose, msg.frame_id, msg.frequency)
00040 {
00041 _description = msg;
00042
00043 _publisher = n.advertise<sensor_msgs::Range>
00044 ( _namespace + "/" + msg.frame_id, 1 );
00045 }
00046
00051 Sonar::~Sonar(void)
00052 {
00053
00054 }
00055
00060 void Sonar::updateSensorCallback()
00061 {
00062 float angle;
00063 int distance;
00064 int xMap, yMap;
00065 sensor_msgs::Range sonarRangeMsg;
00066
00067 sonarRangeMsg.max_range = _description.maxRange;
00068 sonarRangeMsg.min_range = _description.minRange;
00069 sonarRangeMsg.radiation_type = 0;
00070 sonarRangeMsg.field_of_view = _description.coneAngle;
00071
00072 if ( _map.info.height == 0 || _map.info.width == 0 )
00073 {
00074 ROS_DEBUG("Outside limits\n");
00075 return;
00076 }
00077
00078 sonarRangeMsg.range = _description.maxRange;
00079
00080 float angleStep = 3.14159 / 180.0;
00081 float angleMin = - ( _description.coneAngle / 2.0 );
00082 float angleMax = _description.coneAngle / 2.0 ;
00084
00085
00086
00087 for ( float sonarIter = angleMin; sonarIter < angleMax;
00088 sonarIter += angleStep )
00089 {
00090
00091 distance = 1;
00092
00093 while ( distance <= _description.maxRange / _map.info.resolution )
00094 {
00095 xMap = _sensorTransform.getOrigin().x() / _map.info.resolution +
00096 cos( sonarIter + tf::getYaw(_sensorTransform.getRotation()) )
00097 * distance;
00098 yMap = _sensorTransform.getOrigin().y() / _map.info.resolution +
00099 sin( sonarIter + tf::getYaw(_sensorTransform.getRotation()) )
00100 * distance;
00101
00102 if (yMap * _map.info.width + xMap > _map.info.height*_map.info.width)
00103 return;
00104
00106 if ( _map.data[ yMap * _map.info.width + xMap ] > 70 )
00107 {
00108 break;
00109 }
00110 distance ++;
00111 }
00112
00113 if ( distance * _map.info.resolution < sonarRangeMsg.range )
00114 {
00115 sonarRangeMsg.range = distance * _map.info.resolution;
00116 }
00117 }
00118
00119 if ( sonarRangeMsg.range < _description.minRange )
00120 {
00121 sonarRangeMsg.range = -std::numeric_limits<float>::infinity();
00122 }
00123 else if ( sonarRangeMsg.range >= _description.maxRange )
00124 {
00125 sonarRangeMsg.range = std::numeric_limits<float>::infinity();
00126 }
00127
00128 sonarRangeMsg.header.stamp = ros::Time::now();
00129 sonarRangeMsg.header.frame_id = _namespace + "_" + _description.frame_id;
00130 _publisher.publish( sonarRangeMsg );
00131 }
00132
00133 }