Prototyp V2
Dependencies: PM2_Libary
main.cpp@48:0ab6b1fd455f, 2022-04-19 (annotated)
- Committer:
- raomen
- Date:
- Tue Apr 19 18:52:59 2022 +0200
- Revision:
- 48:0ab6b1fd455f
- Parent:
- 47:8963ca9829b9
- Child:
- 51:7d165baaa646
mapping.cpp commented out but code functioning
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
pmic | 1:93d997d6b232 | 1 | #include "mbed.h" |
pmic | 17:c19b471f05cb | 2 | #include "PM2_Libary.h" |
raomen | 41:4a4978d1a578 | 3 | #include <cmath> |
lupomic | 33:70ea029a69e8 | 4 | #include <cstdint> |
raomen | 48:0ab6b1fd455f | 5 | //#include "mapping.cpp" |
raomen | 41:4a4978d1a578 | 6 | #include <cstdio> |
raomen | 39:025d1bee1397 | 7 | #include "math.h" |
raomen | 39:025d1bee1397 | 8 | //******************************************************************************************************************************************************************* |
raomen | 39:025d1bee1397 | 9 | // Defined Variables in mm coming from Hardware-team. Need to be updated |
raomen | 46:eba2263eb626 | 10 | float wheel_diameter = 30; // diameter of wheel with caterpillar to calculate mm per wheel turn (4) |
raomen | 46:eba2263eb626 | 11 | float arm_length = 118.5; // lenght of arm from pivotpoint to pivotpoint (3) |
raomen | 46:eba2263eb626 | 12 | float dist_arm_attach_distsensor = 20; // distance between pivot point arm on body to start distancesensor on top in horizontal (6) |
raomen | 46:eba2263eb626 | 13 | float dist_distsensors = 200; // distance between the two distancesensors on top of Wall-E (9) |
raomen | 46:eba2263eb626 | 14 | float dist_arm_ground = 51; // distance between pivotpoint arm and ground (5) |
raomen | 46:eba2263eb626 | 15 | float gripper_area_height = 16 ; // Height of Grappler cutout to grapple Stair (8) |
raomen | 46:eba2263eb626 | 16 | float dist_grappleratt_grappler_uk = 33; // distance between pivotpoint Grappler and bottom edge (?) |
raomen | 41:4a4978d1a578 | 17 | |
raomen | 46:eba2263eb626 | 18 | float height_stairs = 100; // height to top of next stairstep in mm |
raomen | 39:025d1bee1397 | 19 | //*********************************************************************************************************************************************************** |
raomen | 41:4a4978d1a578 | 20 | // declaration of Input - Output pins |
pmic | 17:c19b471f05cb | 21 | |
pmic | 24:86f1a63e35a0 | 22 | // user button on nucleo board |
pmic | 24:86f1a63e35a0 | 23 | Timer user_button_timer; // create Timer object which we use to check if user button was pressed for a certain time (robust against signal bouncing) |
pmic | 24:86f1a63e35a0 | 24 | InterruptIn user_button(PC_13); // create InterruptIn interface object to evaluate user button falling and rising edge (no blocking code in ISR) |
pmic | 24:86f1a63e35a0 | 25 | void user_button_pressed_fcn(); // custom functions which gets executed when user button gets pressed and released, definition below |
pmic | 24:86f1a63e35a0 | 26 | void user_button_released_fcn(); |
pmic | 6:e1fa1a2d7483 | 27 | |
pmic | 24:86f1a63e35a0 | 28 | // Sharp GP2Y0A41SK0F, 4-40 cm IR Sensor |
raomen | 38:c2663f7dcccb | 29 | float ir_distance_mV = 0.0f; // define variable to store measurement from infrared distancesensor in mVolt |
pmic | 24:86f1a63e35a0 | 30 | AnalogIn ir_analog_in(PC_2); // create AnalogIn object to read in infrared distance sensor, 0...3.3V are mapped to 0...1 |
pmic | 6:e1fa1a2d7483 | 31 | |
pmic | 24:86f1a63e35a0 | 32 | // 78:1, 100:1, ... Metal Gearmotor 20Dx44L mm 12V CB |
pmic | 24:86f1a63e35a0 | 33 | DigitalOut enable_motors(PB_15); // create DigitalOut object to enable dc motors |
pmic | 24:86f1a63e35a0 | 34 | float pwm_period_s = 0.00005f; // define pwm period time in seconds and create FastPWM objects to command dc motors |
raomen | 48:0ab6b1fd455f | 35 | |
lupomic | 33:70ea029a69e8 | 36 | //motor pin declaration |
raomen | 46:eba2263eb626 | 37 | FastPWM pwm_M_right (PB_13); //motor pin decalaration for wheels right side |
raomen | 46:eba2263eb626 | 38 | FastPWM pwm_M_left (PA_9); //motor pin decalaration for wheels left side |
raomen | 46:eba2263eb626 | 39 | FastPWM pwm_M_arm (PA_10); //motor pin decalaration for arm |
pmic | 17:c19b471f05cb | 40 | |
lupomic | 33:70ea029a69e8 | 41 | //Encoder pin declaration |
raomen | 46:eba2263eb626 | 42 | EncoderCounter encoder_M_right (PA_6, PC_7); //encoder pin decalaration for wheels right side |
raomen | 46:eba2263eb626 | 43 | EncoderCounter encoder_M_left (PB_6, PB_7); //encoder pin decalaration for wheels left side |
raomen | 46:eba2263eb626 | 44 | EncoderCounter encoder_M_arm (PA_0, PA_1); //encoder pin decalaration for arm |
raomen | 41:4a4978d1a578 | 45 | //*********************************************************************************************************************************************************** |
raomen | 43:7964411b4a6b | 46 | // Hardware controll Setup and functions (motors and sensors) |
pmic | 17:c19b471f05cb | 47 | |
pmic | 30:1e8295770bc1 | 48 | // create SpeedController and PositionController objects, default parametrization is for 78.125:1 gear box |
raomen | 46:eba2263eb626 | 49 | float max_voltage = 12.0f; // define maximum voltage of battery packs, adjust this to 6.0f V if you only use one batterypack |
raomen | 46:eba2263eb626 | 50 | float counts_per_turn_wheels = 20.0f * 78.125f; // define counts per turn at gearbox end (counts/turn * gearratio) for wheels |
raomen | 46:eba2263eb626 | 51 | float counts_per_turn_arm = 20.0f * 78.125f * 10.0f; // define counts per turn at gearbox end (counts/turn * gearratio) for arm |
raomen | 46:eba2263eb626 | 52 | float kn = 180.0f / 12.0f; // define motor constant in rpm per V |
raomen | 46:eba2263eb626 | 53 | float k_gear = 100.0f / 78.125f; // define additional ratio in case you are using a dc motor with a different gear box, e.g. 100:1 (DC with 100:1 has 2'000 turns for 360°) |
raomen | 46:eba2263eb626 | 54 | float kp = 0.1f; // define custom kp, this is the default speed controller gain for gear box 78.125:1 |
raomen | 46:eba2263eb626 | 55 | |
lupomic | 33:70ea029a69e8 | 56 | //motors for tracks |
lupomic | 33:70ea029a69e8 | 57 | PositionController positionController_M_right(counts_per_turn_wheels * k_gear, kn / k_gear, kp * k_gear, max_voltage, pwm_M_right, encoder_M_right); // parameters adjusted to 100:1 gear, we need a different speed controller gain here |
lupomic | 33:70ea029a69e8 | 58 | PositionController positionController_M_left(counts_per_turn_wheels * k_gear, kn / k_gear, kp * k_gear, max_voltage, pwm_M_left, encoder_M_left); // parameters adjusted to 100:1 gear, we need a different speed controller gain here |
lupomic | 33:70ea029a69e8 | 59 | //Arm Motor |
lupomic | 33:70ea029a69e8 | 60 | PositionController positionController_M_Arm(counts_per_turn_arm * k_gear, kn / k_gear, kp * k_gear, max_voltage, pwm_M_arm, encoder_M_arm); // parameters adjusted to 100:1 gear, we need a different speed controller gain here |
pmic | 17:c19b471f05cb | 61 | |
lupomic | 33:70ea029a69e8 | 62 | // PositionController positionController_M3(counts_per_turn, kn, max_voltage, pwm_M3, encoder_M3); // default 78.125:1 gear with default contoller parameters |
lupomic | 33:70ea029a69e8 | 63 | //PositionController positionController_M3(counts_per_turn * k_gear, kn / k_gear, kp * k_gear, max_voltage, pwm_M3, encoder_M3); // parameters adjusted to 100:1 gear, we need a different speed controller gain here |
raomen | 41:4a4978d1a578 | 64 | //*********************************************************************************************************************************************************** |
raomen | 43:7964411b4a6b | 65 | // logic functions for basic movement |
raomen | 41:4a4978d1a578 | 66 | |
lupomic | 33:70ea029a69e8 | 67 | //Platzhalter Variabeln für die Positionierung |
raomen | 46:eba2263eb626 | 68 | int drive_stright_mm = 100; // placeholder for testing drives amount forward |
raomen | 46:eba2263eb626 | 69 | int drive_back_mm = -100; // placeholder for testing drives amount backwards |
raomen | 46:eba2263eb626 | 70 | int ToNextFunction = 0; // current state of the system (which function is beeing executed) |
lupomic | 33:70ea029a69e8 | 71 | |
raomen | 46:eba2263eb626 | 72 | // definition important variables |
raomen | 46:eba2263eb626 | 73 | float pi = 2 * acos(0.0); // definiton of pi |
raomen | 46:eba2263eb626 | 74 | float max_speed_rps_wheel = 0.6f; // define maximum speed that the position controller is changig the speed for the wheels, has to be smaller or equal to kn * max_voltage |
raomen | 46:eba2263eb626 | 75 | float max_speed_rps_arm = 0.3f; // define maximum speed that the position controller is changig the speed for the arm, has to be smaller or equal to kn * max_voltage |
raomen | 46:eba2263eb626 | 76 | float start_deg_arm = -asin((dist_arm_ground - dist_grappleratt_grappler_uk) / arm_length) * 180.0/pi ; //calculates the starting degree of the arm (gripper has to touch ground in frotn of Wall-E) |
raomen | 46:eba2263eb626 | 77 | float current_deg_arm = start_deg_arm; // saves the current degree the arm has. |
raomen | 46:eba2263eb626 | 78 | |
raomen | 47:8963ca9829b9 | 79 | // import functions from file mapping |
raomen | 48:0ab6b1fd455f | 80 | //extern double powerx(double base, double pow2); |
raomen | 48:0ab6b1fd455f | 81 | //extern double mapping (float adc_value_mV); |
lupomic | 36:6116ce98080d | 82 | |
raomen | 46:eba2263eb626 | 83 | // calculates the deg which the arm has to take to reach a certain height (the input height has to be the height of OK Gripper area) |
raomen | 42:6e7ab1136354 | 84 | double calc_arm_deg_for_height(int height_mm) |
raomen | 40:e32c57763d92 | 85 | { |
raomen | 46:eba2263eb626 | 86 | if ((height_mm - dist_arm_ground - (dist_grappleratt_grappler_uk - gripper_area_height)) > arm_length) //check if height is reachable |
raomen | 41:4a4978d1a578 | 87 | { |
raomen | 43:7964411b4a6b | 88 | printf("Error in calc_arm_deg_for_height: desired height is bigger than Wall-E arm lenght."); // error message when desired height is not reachable. |
raomen | 41:4a4978d1a578 | 89 | } |
raomen | 46:eba2263eb626 | 90 | else |
raomen | 46:eba2263eb626 | 91 | { |
raomen | 46:eba2263eb626 | 92 | float height_arm = height_mm - dist_arm_ground - (dist_grappleratt_grappler_uk - gripper_area_height); // calculates the height which only the arm has to cover (- attachement height (arm to robot) etc.) |
raomen | 46:eba2263eb626 | 93 | float deg_arm = asin(height_arm / arm_length) * 180.0/pi; // calculates the absolute degrees which the arm has to reach |
raomen | 46:eba2263eb626 | 94 | return deg_arm; |
raomen | 46:eba2263eb626 | 95 | } |
raomen | 46:eba2263eb626 | 96 | return NULL; // <------ maybe error testing necessary (value deg_arm might not be returned) |
raomen | 40:e32c57763d92 | 97 | } |
raomen | 38:c2663f7dcccb | 98 | |
raomen | 46:eba2263eb626 | 99 | //calculates the deg which the wheels have to turn in order to cover specified distance in mm |
raomen | 45:8050724fe19b | 100 | float wheel_dist_to_deg(int distance) // distance has to be in mm. |
raomen | 45:8050724fe19b | 101 | { |
raomen | 45:8050724fe19b | 102 | float deg_wheel = distance * 360 /(wheel_diameter * pi); |
raomen | 45:8050724fe19b | 103 | return deg_wheel; |
raomen | 45:8050724fe19b | 104 | } |
raomen | 45:8050724fe19b | 105 | |
raomen | 46:eba2263eb626 | 106 | // bring arm in starting position. Height of stairs. |
raomen | 42:6e7ab1136354 | 107 | int start_position() |
raomen | 42:6e7ab1136354 | 108 | { |
raomen | 46:eba2263eb626 | 109 | double deg_up_from_horizon = calc_arm_deg_for_height(height_stairs); //deg which arm motor has to turn to in order to grab stair. starting from horizontal position |
raomen | 45:8050724fe19b | 110 | float deg = deg_up_from_horizon + start_deg_arm; |
raomen | 43:7964411b4a6b | 111 | if ((0.0 > deg) || (deg > 360.0)) |
raomen | 42:6e7ab1136354 | 112 | { |
raomen | 46:eba2263eb626 | 113 | printf("Error in start_position: degree is out of bound for Start Position."); // error when desired reaching point is out of reach. |
raomen | 42:6e7ab1136354 | 114 | } |
raomen | 45:8050724fe19b | 115 | positionController_M_Arm.setDesiredRotation(deg / 360.0, max_speed_rps_arm); // command to turn motor to desired deg. |
raomen | 46:eba2263eb626 | 116 | current_deg_arm = positionController_M_Arm.getRotation() * 360.0; |
raomen | 42:6e7ab1136354 | 117 | return NULL; |
raomen | 42:6e7ab1136354 | 118 | } |
raomen | 42:6e7ab1136354 | 119 | |
lupomic | 33:70ea029a69e8 | 120 | //Drives forward into the next step |
raomen | 43:7964411b4a6b | 121 | int drive_straight(float distance) |
raomen | 40:e32c57763d92 | 122 | { |
raomen | 46:eba2263eb626 | 123 | float deg_to_turn = wheel_dist_to_deg(distance); |
raomen | 45:8050724fe19b | 124 | positionController_M_right.setDesiredRotation(deg_to_turn / 360.0, max_speed_rps_wheel); |
raomen | 45:8050724fe19b | 125 | positionController_M_left.setDesiredRotation(deg_to_turn / 360.0, max_speed_rps_wheel); |
raomen | 45:8050724fe19b | 126 | return NULL; |
lupomic | 33:70ea029a69e8 | 127 | } |
lupomic | 33:70ea029a69e8 | 128 | |
lupomic | 33:70ea029a69e8 | 129 | //only turns the arm until the robot is on the next step |
raomen | 46:eba2263eb626 | 130 | int lift_up() |
raomen | 40:e32c57763d92 | 131 | { |
raomen | 46:eba2263eb626 | 132 | float position_lift_end_deg = asin((-dist_arm_ground - (dist_grappleratt_grappler_uk-gripper_area_height)) / arm_length) - 90; // calculates the degree which has to be reached in order to get on top of next step |
raomen | 46:eba2263eb626 | 133 | |
raomen | 46:eba2263eb626 | 134 | positionController_M_Arm.setDesiredRotation(0, max_speed_rps_arm); |
raomen | 45:8050724fe19b | 135 | return NULL; |
lupomic | 33:70ea029a69e8 | 136 | } |
raomen | 43:7964411b4a6b | 137 | //*********************************************************************************************************************************************************** |
raomen | 38:c2663f7dcccb | 138 | |
raomen | 43:7964411b4a6b | 139 | //Function which checks if sensors and motors have been wired correctly and the expectet results will happen. otherwise Wall-E will show with armmovement. |
raomen | 43:7964411b4a6b | 140 | int check_start() |
raomen | 43:7964411b4a6b | 141 | { |
raomen | 43:7964411b4a6b | 142 | |
raomen | 46:eba2263eb626 | 143 | return NULL; |
raomen | 43:7964411b4a6b | 144 | } |
raomen | 43:7964411b4a6b | 145 | |
raomen | 41:4a4978d1a578 | 146 | // while loop gets executed every main_task_period_ms milliseconds |
raomen | 41:4a4978d1a578 | 147 | int main_task_period_ms = 30; // define main task period time in ms e.g. 30 ms -> main task runns ~33,33 times per second |
raomen | 41:4a4978d1a578 | 148 | Timer main_task_timer; // create Timer object which we use to run the main task every main task period time in ms |
raomen | 43:7964411b4a6b | 149 | //*********************************************************************************************************************************************************** |
raomen | 39:025d1bee1397 | 150 | |
lupomic | 33:70ea029a69e8 | 151 | int main(void) |
pmic | 23:26b3a25fc637 | 152 | { |
raomen | 46:eba2263eb626 | 153 | // attach button fall and rise functions to user button object |
raomen | 46:eba2263eb626 | 154 | user_button.fall(&user_button_pressed_fcn); |
raomen | 46:eba2263eb626 | 155 | user_button.rise(&user_button_released_fcn); |
lupomic | 34:9f779e91168e | 156 | |
raomen | 40:e32c57763d92 | 157 | while (true) |
raomen | 40:e32c57763d92 | 158 | { |
raomen | 45:8050724fe19b | 159 | enable_motors = 1; |
raomen | 45:8050724fe19b | 160 | ir_distance_mV = 1.0e3f * ir_analog_in.read() * 3.3f; |
lupomic | 33:70ea029a69e8 | 161 | |
raomen | 40:e32c57763d92 | 162 | switch (ToNextFunction) |
raomen | 40:e32c57763d92 | 163 | { |
raomen | 46:eba2263eb626 | 164 | |
raomen | 45:8050724fe19b | 165 | case 1: |
raomen | 45:8050724fe19b | 166 | start_position(); |
raomen | 46:eba2263eb626 | 167 | printf("Case 1: Position ARM (rot): %3.3f\n",positionController_M_Arm.getRotation()); |
raomen | 46:eba2263eb626 | 168 | break; |
raomen | 46:eba2263eb626 | 169 | |
raomen | 45:8050724fe19b | 170 | case 2: |
raomen | 45:8050724fe19b | 171 | drive_straight(drive_stright_mm); |
raomen | 45:8050724fe19b | 172 | printf("Case 2: Position Right(rot): %3.3f; Position Left (rot): %3.3f\n", |
raomen | 46:eba2263eb626 | 173 | positionController_M_right.getRotation(),positionController_M_left.getRotation()); |
raomen | 46:eba2263eb626 | 174 | break; |
raomen | 46:eba2263eb626 | 175 | |
raomen | 45:8050724fe19b | 176 | case 3: |
raomen | 46:eba2263eb626 | 177 | lift_up(); |
raomen | 46:eba2263eb626 | 178 | printf("Case 3: Position ARM (rot): %3.3f\n",positionController_M_Arm.getRotation()); |
raomen | 46:eba2263eb626 | 179 | break; |
raomen | 46:eba2263eb626 | 180 | |
raomen | 45:8050724fe19b | 181 | case 4: |
raomen | 46:eba2263eb626 | 182 | drive_straight(drive_back_mm); |
lupomic | 34:9f779e91168e | 183 | printf("Case 4: Position Right(rot): %3.3f; Position Left (rot): %3.3f\n", |
raomen | 46:eba2263eb626 | 184 | positionController_M_right.getRotation(),positionController_M_left.getRotation()); |
raomen | 46:eba2263eb626 | 185 | break; |
raomen | 46:eba2263eb626 | 186 | |
raomen | 45:8050724fe19b | 187 | case 5: |
raomen | 46:eba2263eb626 | 188 | lift_up(); |
raomen | 46:eba2263eb626 | 189 | printf("Case 5: Position ARM (rot): %3.3f\n",positionController_M_Arm.getRotation()); |
raomen | 46:eba2263eb626 | 190 | ToNextFunction = 0; |
raomen | 46:eba2263eb626 | 191 | break; |
raomen | 46:eba2263eb626 | 192 | |
raomen | 46:eba2263eb626 | 193 | default: ; |
lupomic | 33:70ea029a69e8 | 194 | } |
lupomic | 33:70ea029a69e8 | 195 | } |
lupomic | 33:70ea029a69e8 | 196 | // read timer and make the main thread sleep for the remaining time span (non blocking) |
pmic | 24:86f1a63e35a0 | 197 | int main_task_elapsed_time_ms = std::chrono::duration_cast<std::chrono::milliseconds>(main_task_timer.elapsed_time()).count(); |
pmic | 24:86f1a63e35a0 | 198 | thread_sleep_for(main_task_period_ms - main_task_elapsed_time_ms); |
raomen | 47:8963ca9829b9 | 199 | return 0; |
pmic | 1:93d997d6b232 | 200 | } |
pmic | 6:e1fa1a2d7483 | 201 | |
lupomic | 33:70ea029a69e8 | 202 | |
pmic | 24:86f1a63e35a0 | 203 | void user_button_pressed_fcn() |
pmic | 25:ea1d6e27c895 | 204 | { |
pmic | 26:28693b369945 | 205 | user_button_timer.start(); |
pmic | 6:e1fa1a2d7483 | 206 | user_button_timer.reset(); |
pmic | 6:e1fa1a2d7483 | 207 | } |
pmic | 6:e1fa1a2d7483 | 208 | |
raomen | 43:7964411b4a6b | 209 | void user_button_released_fcn() |
raomen | 43:7964411b4a6b | 210 | { |
pmic | 24:86f1a63e35a0 | 211 | // read timer and toggle do_execute_main_task if the button was pressed longer than the below specified time |
pmic | 24:86f1a63e35a0 | 212 | int user_button_elapsed_time_ms = std::chrono::duration_cast<std::chrono::milliseconds>(user_button_timer.elapsed_time()).count(); |
pmic | 6:e1fa1a2d7483 | 213 | user_button_timer.stop(); |
raomen | 43:7964411b4a6b | 214 | if (user_button_elapsed_time_ms > 200) |
raomen | 43:7964411b4a6b | 215 | { |
raomen | 43:7964411b4a6b | 216 | ToNextFunction += 1; |
raomen | 43:7964411b4a6b | 217 | } |
raomen | 43:7964411b4a6b | 218 | } |