m3Dpi robot, based on the Pololu 3pi and m3pi. m3Dpi has multiple distance sensors, gyroscope, compass and accelerometer sensor to be fully aware of its environment. With the addition of xbee or nrf24n01 module it has wireless communication capabilities.
Dependencies: m3Dpi mbed-rtos mbed MbedJSONValue
main.cpp
- Committer:
- kudrom
- Date:
- 2015-12-11
- Revision:
- 8:5c0833506d67
- Parent:
- 7:9068fc754a0b
- Child:
- 9:5292bf545459
File content as of revision 8:5c0833506d67:
#include "mbed.h" #include "rtos.h" #include "M3Dpi.h" #include "jsonReporter.h" const char M3DPI_ID[] = "first"; M3Dpi robot; Serial pc(USBTX,USBRX); JsonReporter report(&pc, M3DPI_ID); static float r_wheel = 0.0; static float l_wheel = 0.0; char direction = 'f'; void setLeds(m3dpi::Distance distance) { int colors[8] = {distance.front, distance.front_right, distance.right, distance.back_right, distance.back, distance.back_left, distance.left, distance.front_left}; // shift distance value to get red colors for(int i = 0; i < 8; i++){ colors[i] = colors[i] << 16; } robot.setLeds(colors); } void read_sensors_thread(void const * args) { robot.setStatus(Color::GREEN); m3dpi::Distance distance = robot.getDistance(); setLeds(distance); report.distance(distance); report.direction(robot.getDirection()); report.rotation(robot.getRotation()); report.acceleration(robot.getAcceleration()); report.time(robot.getTime()); robot.setStatus(Color::BLACK); } void read_commands_thread(void const *args) { if(pc.readable()){ char command = pc.getc(); switch(command){ case 'l': // Left if(direction == 'f'){ l_wheel += 0.1; }else{ l_wheel -= 0.1; } break; case 'r': // Right if(direction == 'f'){ r_wheel += 0.1; }else{ r_wheel -= 0.1; } break; case 'f': // Frontward r_wheel += 0.1; l_wheel += 0.1; direction = 'f'; break; case 'b': // Backward r_wheel -= 0.1; l_wheel -= 0.1; direction = 'b'; break; case 's': // Brake r_wheel = 0; l_wheel = 0; direction = 'f'; break; default: pc.printf("Unknown command %c.\n", command); } robot.left_motor(l_wheel); robot.right_motor(r_wheel); } } int main() { pc.baud(115200); RtosTimer readSensorsThread(read_sensors_thread, osTimerPeriodic); readSensorsThread.start(1000); RtosTimer readCommandsThread(read_commands_thread, osTimerPeriodic); readCommandsThread.start(50); Thread::wait(osWaitForever); }