Inputs¶
Inputs are described in the next table:
PIN |
Description |
Form |
Size |
Units |
|---|---|---|---|---|
1 |
Static Pressure 1 |
[pressure_measurement;sensor temperature] |
2x1 |
\(Pa\) ; \(K\) |
2 |
Static Pressure 2 |
[pressure_measurement;sensor temperature] |
2x1 |
\(Pa\) ; \(K\) |
3 |
Static Pressure 3 |
[pressure_measurement;sensor temperature] |
2x1 |
\(Pa\) ; \(K\) |
4 |
Dynamic Pressure |
[pressure_measurement;sensor temperature] |
2x1 |
\(Pa\) ; \(K\) |
5 |
IMU 1 |
[acc_x;acc_y;acc_z;gyr_x;gyr_y;gyr_z;sensor temperature] |
7x1 |
\(\frac{m}{s^2}\) ; \(\frac{rad}{s}\) ; \(K\) |
6 |
IMU 2 |
[acc_x;acc_y;acc_z;gyr_x;gyr_y;gyr_z;sensor temperature] |
7x1 |
\(\frac{m}{s^2}\) ; \(\frac{rad}{s}\) ; \(K\) |
7 |
IMU 3 |
[acc_x;acc_y;acc_z;gyr_x;gyr_y;gyr_z;sensor temperature] |
7x1 |
\(\frac{m}{s^2}\) ; \(\frac{rad}{s}\) ; \(K\) |
8 |
Magnetometer 1 |
[mag_x;mag_y;mag_z;sensor temperature] |
4x1 |
\(T\) ; \(K\) |
9 |
Magnetometer 2 |
[mag_x;mag_y;mag_z;sensor temperature] |
4x1 |
\(T\) ; \(K\) |
10 |
Magnetometer 3 |
[mag_x;mag_y;mag_z;sensor temperature] |
4x1 |
\(T\) ; \(K\) |
11 |
Magnetometer 4 |
[mag_x;mag_y;mag_z;sensor temperature] |
4x1 |
\(T\) ; \(K\) |
12 |
GNSS 1 |
[1;3;lon;lat;alt;hr_accu;vt_accu;v_n;v_e;v_d;v_accu] |
11x1 |
\(deg \cdot 10^7\) ; \(mm\) ; \(\frac{mm}{s}\) |
13 |
GNSS 2 |
[1;3;lon;lat;alt;hr_accu;vt_accu;v_n;v_e;v_d;v_accu] |
11x1 |
\(deg \cdot 10^7\) ; \(mm\) ; \(\frac{mm}{s}\) |
14 |
Relative Position 1 |
[1;x_rel;y_rel;z_rel;d_x;d_y;d_z;x_accu;y_accu;z_accu] |
10x1 |
\(cm\) ; \(mm \cdot 10^{-1}\) |
15 |
Relative Position 2 |
[1;x_rel;y_rel;z_rel;d_x;d_y;d_z;x_accu;y_accu;z_accu] |
10x1 |
\(cm\) ; \(mm \cdot 10^{-1}\) |
16 |
GNSS Time |
[week_number;milliseconds_of_week] |
2x1 |
-; \(ms\) |
17 |
Lidar 1 |
[lidar_measurement] |
1x1 |
\(cm\) |
18 |
Lidar 2 |
[lidar_measurement] |
1x1 |
\(cm\) |
19 |
Lidar 3 |
[lidar_measurement] |
1x1 |
\(cm\) |
20 |
Lidar 4 |
[lidar_measurement] |
1x1 |
\(cm\) |
21 |
Lidar 5 |
[lidar_measurement] |
1x1 |
\(cm\) |
22 |
IDs Bit Var Out. |
[Var_IDs] |
Dynamic(2200 max.)x1 |
- |
23 |
IDs Unsigned Var Out. |
[Var_IDs] |
Dynamic(2002 max.)x1 |
- |
24 |
IDs Real Var Out. |
[Var_IDs] |
Dynamic(4021 max.)x1 |
- |
25 |
ADCs |
[adc(1-17)] |
17x1 |
- |
26 |
SCI-A (4G) Data |
[serial_data] |
1024x1 |
- |
27 |
SCI-A (4G) Length |
[serial_length] |
1x1 |
- |
28 |
SCI-B (Radio) Data |
[serial_data] |
1024x1 |
- |
29 |
SCI-B (Radio) Length |
[serial_length] |
1x1 |
- |
30 |
SCI-C (RS-485) Data |
[serial_data] |
1024x1 |
- |
31 |
SCI-C (RS-485) Length |
[serial_length] |
1x1 |
- |
32 |
SCI-D (RS-232) Data |
[serial_data] |
1024x1 |
- |
33 |
SCI-D (RS-232) Length |
[serial_length] |
1x1 |
- |
34 |
USB Data |
[serial_data] |
1024x1 |
- |
35 |
USB Length |
[serial_length] |
1x1 |
- |
36 |
Bit Var In. |
[Var0_ID;Var0_value;…;Var80_ID;Var80_value] |
160x1 |
- |
37 |
Unsigned Var In. |
[Var0_ID;Var0_value;…;Var80_ID;Var80_value] |
160x1 |
- |
38 |
Real Var In. |
[Var0_ID;Var0_value;…;Var80_ID;Var80_value] |
160x1 |
- |
Note
In the table above, the size of the inputs “IDs Bit/Unsigned/Real Var Out.” (pins 22, 23 and 24 respectively) have been described as Dynamic because they don’t need to have a fixed size. However, the size has to be continuous throughout the simulation.
Outputs¶
Outputs are the following:
PIN |
Description |
Form |
Size |
Units |
|---|---|---|---|---|
1 |
Control Outputs |
[control_outputs(1-20)] |
20x1 |
- |
2 |
Servo Outputs |
[servos(1-32)] |
32x1 |
- |
3 |
Position |
[lon;lat;alt] |
3x1 |
\(rad\) ; \(m\) |
4 |
Heights |
[msl,agl] |
2x1 |
\(m\) |
5 |
Velocities |
[longitudinal_v;lateral_v;velocity(module)] |
3x1 |
\(\frac{m}{s}\) |
6 |
IAS, TAS, GS |
[ias,tas,gs] |
3x1 |
\(\frac{m}{s}\) |
7 |
MSL |
[msl_from_qnh;msl_from_ISA] |
2x1 |
\(m\) |
8 |
Angle of Attack, Sideslip |
[angle_of_attack;sideslip] |
2x1 |
\(rad\) |
9 |
Dynamic Pressure |
[dynamic_pressure] |
3x1 |
\(Pa\) |
10 |
Raw IAS |
[ias_raw] |
1x1 |
\(\frac{m}{s}\) |
11 |
Tangential Acceleration |
[tangential_acceleration] |
1x1 |
\(\frac{m}{s^2}\) |
12 |
Body Velocities |
[longitudinal_v;lateral_v;vertical_v] |
3x1 |
\(\frac{m}{s}\) |
13 |
Angular Velocities |
[roll_rate;pitch_rate;yaw_rate] |
3x1 |
\(\frac{rad}{s}\) |
14 |
Angular Acceleration |
[acc_z_axis;acc_y_axis;acc_x_axis] |
3x1 |
\(\frac{rad}{s}\) |
15 |
NED Acceleration |
[acc_north;acc_east;acc_down] |
3x1 |
\(\frac{m}{s^2}\) |
16 |
NED Velocities |
[v_north;v_east;v_down] |
3x1 |
\(\frac{m}{s}\) |
17 |
Attitude |
[Yaw;Pitch;Roll] |
3x1 |
\(rad\) |
18 |
Co-Angles |
[co-Yaw;co-Pitch;co-Roll] |
3x1 |
\(rad\) |
19 |
Aerodynamic Angles |
[heading,flight_path;bank_angle] |
3x1 |
\(rad\) |
20 |
Body Accelerations |
[acc_x,acc_y;acc_z] |
3x1 |
\(\frac{m}{s^2}\) |
21 |
Load factor |
[nx;ny;nz] |
3x1 |
- |
22 |
SCI-A (4G) Data |
[serial_data] |
1024x1 |
- |
23 |
SCI-A (4G) Length |
[serial_length] |
1x1 |
- |
24 |
SCI-B (Radio) Data |
[serial_data] |
1024x1 |
- |
25 |
SCI-B (Radio) Length |
[serial_length] |
1x1 |
- |
26 |
SCI-C (RS-485) Data |
[serial_data] |
1024x1 |
- |
27 |
SCI-C (RS-485) Length |
[serial_length] |
1x1 |
- |
28 |
SCI-D (RS-232) Data |
[serial_data] |
1024x1 |
- |
29 |
SCI-D (RS-232) Length |
[serial_length] |
1x1 |
- |
30 |
USB Data |
[serial_data] |
1024x1 |
- |
31 |
USB Length |
[serial_length] |
1x1 |
- |
32 |
Bit Var Out. |
[Var_values] |
Dynamic(2200 max.)x1 |
- |
33 |
Unsigned Var Out. |
[Var_values] |
Dynamic(2002 max.)x1 |
- |
34 |
Real Var Out. |
[Var_values] |
Dynamic(4021 max.)x1 |
- |
Note
The outputs “Bit/Unsigned/Real Var Out.” (pins 32, 33 and 34 respectively) correspond to the inputs “IDs Bit/Unsigned/Real Var Out.” (pins 22, 23 and 24 respectively), so they will have the same size as defined in the inputs.
In the following sections, the user can have a look at how to implement the sensors and telemetry blocks, as well as general visualisation of a complete simulation.