/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*- void init_camera() { g.rc_camera_pitch.set_angle(4500); g.rc_camera_pitch.radio_min = 1000; g.rc_camera_pitch.radio_trim = 1500; g.rc_camera_pitch.radio_max = 2000; g.rc_camera_roll.set_angle(4500); g.rc_camera_roll.radio_min = 1000; g.rc_camera_roll.radio_trim = 1500; g.rc_camera_roll.radio_max = 2000; } void camera_stabilization() { g.rc_camera_pitch.set_pwm(APM_RC.InputCh(CH_6)); // I'm using CH 6 input here. // allow control mixing g.rc_camera_pitch.servo_out = g.rc_camera_pitch.control_mix(-dcm.pitch_sensor); // dont allow control mixing //g.rc_camera_pitch.servo_out = dcm.pitch_sensor * -1; g.rc_camera_pitch.calc_pwm(); APM_RC.OutputCh(CH_5, g.rc_camera_pitch.radio_out); g.rc_camera_roll.servo_out = -dcm.roll_sensor; g.rc_camera_roll.calc_pwm(); APM_RC.OutputCh(CH_6, g.rc_camera_roll.radio_out); //If you want to do control mixing use this function. // set servo_out to the control input from radio //rc_camera_roll = g.rc_2.control_mix(dcm.pitch_sensor); //rc_camera_roll.calc_pwm(); }