double _transmitter_power;
double _tx_antenna_height;
double _rx_antenna_height;
- double _antenna_gain;
+ double _rx_antenna_gain;
+ double _tx_antenna_gain;
+ double _rx_line_losses;
+ double _tx_line_losses;
+ double _terrain_sampling_distance;
+ int _polarization;
std::map<string, double[2]> _mat_database;
int _propagation_model; /// 0 none, 1 round Earth, 2 ITM
public:
- FGRadio();
- ~FGRadio();
+ FGRadioTransmission();
+ ~FGRadioTransmission();
void setFrequency(double freq, int radio);
void setRxSensitivity(double sensitivity) { _receiver_sensitivity = sensitivity; };
void setTxAntennaHeight(double tx_antenna_height) { _tx_antenna_height = tx_antenna_height; };
void setRxAntennaHeight(double rx_antenna_height) { _rx_antenna_height = rx_antenna_height; };
+ void setTxAntennaGain(double tx_antenna_gain) { _tx_antenna_gain = tx_antenna_gain; };
+ void setRxAntennaGain(double rx_antenna_gain) { _rx_antenna_gain = rx_antenna_gain; };
+ void setTxLineLosses(double tx_line_losses) { _tx_line_losses = tx_line_losses; };
+ void setRxLineLosses(double rx_line_losses) { _rx_line_losses = rx_line_losses; };
void setPropagationModel(int model) { _propagation_model = model; };
+ void setPolarization(int polarization) { _polarization = polarization; };
// transmission_type: 0 for air to ground 1 for ground to air, 2 for air to air, 3 for pilot to ground, 4 for pilot to air
void receiveATC(SGGeod tx_pos, double freq, string text, int transmission_type);
void receiveChat(SGGeod tx_pos, double freq, string text, int transmission_type);