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47 lines
1.6 KiB
47 lines
1.6 KiB
#include "mode.h" |
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#include "Rover.h" |
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void ModeSteering::update() |
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{ |
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// convert pilot throttle input to desired speed (up to twice the cruise speed) |
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float target_speed = channel_throttle->get_control_in() * 0.01f * calc_speed_max(g.speed_cruise, g.throttle_cruise * 0.01f); |
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// get speed forward |
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float speed; |
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if (!attitude_control.get_forward_speed(speed)) { |
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// no valid speed so stop |
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g2.motors.set_throttle(0.0f); |
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g2.motors.set_steering(0.0f); |
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lateral_acceleration = 0.0f; |
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return; |
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} |
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// in steering mode we control lateral acceleration directly. We first calculate the maximum lateral |
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// acceleration at full steering lock for this speed. That is V^2/R where R is the radius of turn. |
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float max_g_force = speed * speed / MAX(g2.turn_radius, 0.1f); |
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// constrain to user set TURN_MAX_G |
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max_g_force = constrain_float(max_g_force, 0.1f, g.turn_max_g * GRAVITY_MSS); |
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// convert pilot steering input to desired lateral acceleration |
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lateral_acceleration = max_g_force * (channel_steer->get_control_in() / 4500.0f); |
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// reverse target lateral acceleration if backing up |
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bool reversed = false; |
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if (is_negative(target_speed)) { |
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reversed = true; |
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lateral_acceleration = -lateral_acceleration; |
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} |
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// mark us as in_reverse when using a negative throttle |
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rover.set_reverse(reversed); |
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// run speed to throttle output controller |
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if (is_zero(target_speed)) { |
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stop_vehicle(); |
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} else { |
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// run steering controller |
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calc_nav_steer(reversed); |
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calc_throttle(target_speed, false); |
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} |
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}
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