State machine
Dependencies: mbed Adafruit_GFX BioroboticsMotorControl MODSERIAL BioroboticsEMGFilter
Diff: main.cpp
- Revision:
- 20:af1a6cd7469b
- Parent:
- 19:53b9729fbab5
- Child:
- 21:d541303a2ea6
diff -r 53b9729fbab5 -r af1a6cd7469b main.cpp --- a/main.cpp Wed Oct 31 16:19:28 2018 +0000 +++ b/main.cpp Wed Oct 31 18:22:39 2018 +0000 @@ -1,35 +1,22 @@ #include "mbed.h" +#include "constants.h" + #include "Button.h" #include "Screen.h" #include "motor.h" #include "motor_calibration.h" +#include "forward_kinematics.h" enum States {waiting, calib_motor, calib_bicep1, calib_bicep2, homing, operation, failure}; // The possible states of the state machine // Global variables -const double PI = 3.14159265359; -// Main loop wait time per cycle. This does not influence the motor PID or EMG reading frequencies. -const float main_loop_wait_time = 0.01; -// Time between two button polls. Used to debounce the button presses. -const float button_poll_interval = 0.05; - -const float pid_period = 0.001; // PID sample period in seconds. - -const float Kp = 10.0; -const float Ki = 0.1; -const float Kd = 0.5; Motor main_motor(D6, D7, D13, D12); Motor sec_motor(D5, D4, D10, D11); -// The motor -> main gear ratio is 25 / 60. -// The motor -> secondary gear ratio is 25/50 -const float main_gear_ratio = 25.0/60.0; -const float sec_gear_ratio = 25.0/50.0; - AnalogIn potmeter1(A5); // Analoge input van potmeter 1 -> Motor 1 AnalogIn potmeter2(A4); // Analoge input van potmeter 2 -> Motor 2 @@ -81,6 +68,13 @@ if (ud_button.has_just_been_pressed()) { current_state = calib_motor; } + + // TODO: + // THIS OPTION IS ONLY HERE FOR DEBUGGING PURPOSES. + // REMOVE WHEN THE DEMO STATE IS IMPLEMENTED. + if (lr_button.has_just_been_pressed()) { + current_state = operation; + } } void do_state_calib_motor() @@ -156,16 +150,19 @@ void do_state_homing() { + double main_home = PI * 0.5; + double sec_home = 0; + if(last_state != current_state) { last_state = current_state; // State just changed to this one. screen.clear_display(); screen.display_state_name("Homing"); + + main_motor.set_target_angle(main_home); + sec_motor.set_target_angle(sec_home); } - main_motor.set_target_angle(PI*0.5); - sec_motor.set_target_angle(0); - if (ud_button.has_just_been_pressed()) { current_state = calib_bicep1; } @@ -186,6 +183,22 @@ screen.display_left_right_arrow(control_goes_right); } + // Using potmeters for debugging purposes; + double main_angle = ((potmeter1.read() * 2) - 1) * PI; + double sec_angle = ((potmeter2.read() * 2) - 1) * PI; + + double e_x = 0.0; + double e_y = 0.0; + + forward_kinematics(main_angle, sec_angle, e_x, e_y); + + screen.get_screen_handle()->setTextCursor(0, 0); + screen.get_screen_handle()->printf("M_a: %.6f\n", main_angle); + screen.get_screen_handle()->printf("S_a: %.6f\n", sec_angle); + screen.get_screen_handle()->printf("X: %.6f\n", e_x); + screen.get_screen_handle()->printf("Y: %.6f", e_y); + screen.display(); + /* double main_target = ((potmeter1.read() * 2) - 1) * PI; main_motor.set_target_angle(main_target);