dragonpilot/selfdrive/controls/lib/latcontrol_torque.py

import math

from cereal import log
from common.numpy_fast import interp
from selfdrive.controls.lib.latcontrol import LatControl, MIN_STEER_SPEED
from selfdrive.controls.lib.pid import PIDController
from selfdrive.controls.lib.vehicle_model import ACCELERATION_DUE_TO_GRAVITY

# At higher speeds (25+mph) we can assume:
# Lateral acceleration achieved by a specific car correlates to
# torque applied to the steering rack. It does not correlate to
# wheel slip, or to speed.

# This controller applies torque to achieve desired lateral
# accelerations. To compensate for the low speed effects we
# use a LOW_SPEED_FACTOR in the error. Additionally, there is
# friction in the steering wheel that needs to be overcome to
# move it at all, this is compensated for too.


LOW_SPEED_FACTOR = 200
JERK_THRESHOLD = 0.2


class LatControlTorque(LatControl):
  def __init__(self, CP, CI):
    super().__init__(CP, CI)
    self.CP = CP
    self.pid = PIDController(CP.lateralTuning.torque.kp, CP.lateralTuning.torque.ki,
                             k_f=CP.lateralTuning.torque.kf, pos_limit=self.steer_max, neg_limit=-self.steer_max)
    self.get_steer_feedforward = CI.get_steer_feedforward_function()
    self.use_steering_angle = CP.lateralTuning.torque.useSteeringAngle
    self.friction = CP.lateralTuning.torque.friction

  def reset(self):
    super().reset()
    self.pid.reset()

  def update(self, active, CS, VM, params, last_actuators, desired_curvature, desired_curvature_rate, llk):
    pid_log = log.ControlsState.LateralTorqueState.new_message()

    if CS.vEgo < MIN_STEER_SPEED or not active:
      output_torque = 0.0
      pid_log.active = False
      self.pid.reset()
    else:
      if self.use_steering_angle:
        actual_curvature = -VM.calc_curvature(math.radians(CS.steeringAngleDeg - params.angleOffsetDeg), CS.vEgo, params.roll)
      else:
        actual_curvature = llk.angularVelocityCalibrated.value[2] / CS.vEgo
      desired_lateral_accel = desired_curvature * CS.vEgo ** 2
      desired_lateral_jerk = desired_curvature_rate * CS.vEgo ** 2
      actual_lateral_accel = actual_curvature * CS.vEgo ** 2

      setpoint = desired_lateral_accel + LOW_SPEED_FACTOR * desired_curvature
      measurement = actual_lateral_accel + LOW_SPEED_FACTOR * actual_curvature
      error = setpoint - measurement
      pid_log.error = error

      ff = desired_lateral_accel - params.roll * ACCELERATION_DUE_TO_GRAVITY
      # convert friction into lateral accel units for feedforward
      friction_compensation = interp(desired_lateral_jerk, [-JERK_THRESHOLD, JERK_THRESHOLD], [-self.friction, self.friction])
      ff += friction_compensation / self.CP.lateralTuning.torque.kf
      output_torque = self.pid.update(error,
                                      override=CS.steeringPressed, feedforward=ff,
                                      speed=CS.vEgo,
                                      freeze_integrator=CS.steeringRateLimited)

      pid_log.active = True
      pid_log.p = self.pid.p
      pid_log.i = self.pid.i
      pid_log.d = self.pid.d
      pid_log.f = self.pid.f
      pid_log.output = -output_torque
      pid_log.saturated = self._check_saturation(self.steer_max - abs(output_torque) < 1e-3, CS)

    # TODO left is positive in this convention
    return -output_torque, 0.0, pid_log
Lateral torque-based control with roll on TSS2 corolla and TSSP rav4 (#24260) * Initial commit * Fix bugs * Need more torque rate * Cleanup cray cray control * Write nicely * Chiiil * Not relevant for cray cray control * Do some logging * Seems like it has more torque than I thought * Bit more feedforward * Tune change * Retune * Retune * Little more chill * Add coroll * Add corolla * Give craycray a good name * Update to proper logging * D to the PI * Should be in radians * Add d * Start oscillations * Add D term * Only change torque rate limits for new tune * Add d logging * Should be enough * Wrong sign in D * Downtune a little * Needed to prevent faults * Add lqr rav4 to tune * Try derivative again * Data based retune * Data based retune * add friction compensation * Doesnt need too much P with friction comp * remove lqr * Remove kd * Fix tests * fix tests * Too much error * Get roll induced error under 1cm/deg * Too much jitter * Do roll comp * Add ki * Final update * Update refs * Cleanup latcontrol_torque a little more 3 years ago			`import math`
Clean up controllers (#24340) * clean up lat controllers * pass CP once * sort 3 years ago
			`from cereal import log`
Lateral torque-based control with roll on TSS2 corolla and TSSP rav4 (#24260) * Initial commit * Fix bugs * Need more torque rate * Cleanup cray cray control * Write nicely * Chiiil * Not relevant for cray cray control * Do some logging * Seems like it has more torque than I thought * Bit more feedforward * Tune change * Retune * Retune * Little more chill * Add coroll * Add corolla * Give craycray a good name * Update to proper logging * D to the PI * Should be in radians * Add d * Start oscillations * Add D term * Only change torque rate limits for new tune * Add d logging * Should be enough * Wrong sign in D * Downtune a little * Needed to prevent faults * Add lqr rav4 to tune * Try derivative again * Data based retune * Data based retune * add friction compensation * Doesnt need too much P with friction comp * remove lqr * Remove kd * Fix tests * fix tests * Too much error * Get roll induced error under 1cm/deg * Too much jitter * Do roll comp * Add ki * Final update * Update refs * Cleanup latcontrol_torque a little more 3 years ago			`from common.numpy_fast import interp`
			`from selfdrive.controls.lib.latcontrol import LatControl, MIN_STEER_SPEED`
Clean up controllers (#24340) * clean up lat controllers * pass CP once * sort 3 years ago			`from selfdrive.controls.lib.pid import PIDController`
Lateral torque-based control with roll on TSS2 corolla and TSSP rav4 (#24260) * Initial commit * Fix bugs * Need more torque rate * Cleanup cray cray control * Write nicely * Chiiil * Not relevant for cray cray control * Do some logging * Seems like it has more torque than I thought * Bit more feedforward * Tune change * Retune * Retune * Little more chill * Add coroll * Add corolla * Give craycray a good name * Update to proper logging * D to the PI * Should be in radians * Add d * Start oscillations * Add D term * Only change torque rate limits for new tune * Add d logging * Should be enough * Wrong sign in D * Downtune a little * Needed to prevent faults * Add lqr rav4 to tune * Try derivative again * Data based retune * Data based retune * add friction compensation * Doesnt need too much P with friction comp * remove lqr * Remove kd * Fix tests * fix tests * Too much error * Get roll induced error under 1cm/deg * Too much jitter * Do roll comp * Add ki * Final update * Update refs * Cleanup latcontrol_torque a little more 3 years ago			`from selfdrive.controls.lib.vehicle_model import ACCELERATION_DUE_TO_GRAVITY`

			`# At higher speeds (25+mph) we can assume:`
			`# Lateral acceleration achieved by a specific car correlates to`
			`# torque applied to the steering rack. It does not correlate to`
			`# wheel slip, or to speed.`

			`# This controller applies torque to achieve desired lateral`
			`# accelerations. To compensate for the low speed effects we`
Clean up controllers (#24340) * clean up lat controllers * pass CP once * sort 3 years ago			`# use a LOW_SPEED_FACTOR in the error. Additionally, there is`
Lateral torque-based control with roll on TSS2 corolla and TSSP rav4 (#24260) * Initial commit * Fix bugs * Need more torque rate * Cleanup cray cray control * Write nicely * Chiiil * Not relevant for cray cray control * Do some logging * Seems like it has more torque than I thought * Bit more feedforward * Tune change * Retune * Retune * Little more chill * Add coroll * Add corolla * Give craycray a good name * Update to proper logging * D to the PI * Should be in radians * Add d * Start oscillations * Add D term * Only change torque rate limits for new tune * Add d logging * Should be enough * Wrong sign in D * Downtune a little * Needed to prevent faults * Add lqr rav4 to tune * Try derivative again * Data based retune * Data based retune * add friction compensation * Doesnt need too much P with friction comp * remove lqr * Remove kd * Fix tests * fix tests * Too much error * Get roll induced error under 1cm/deg * Too much jitter * Do roll comp * Add ki * Final update * Update refs * Cleanup latcontrol_torque a little more 3 years ago			`# friction in the steering wheel that needs to be overcome to`
			`# move it at all, this is compensated for too.`


			`LOW_SPEED_FACTOR = 200`
			`JERK_THRESHOLD = 0.2`


			`class LatControlTorque(LatControl):`
			`def __init__(self, CP, CI):`
			`super().__init__(CP, CI)`
Clean up controllers (#24340) * clean up lat controllers * pass CP once * sort 3 years ago			`self.CP = CP`
Lateral torque-based control with roll on TSS2 corolla and TSSP rav4 (#24260) * Initial commit * Fix bugs * Need more torque rate * Cleanup cray cray control * Write nicely * Chiiil * Not relevant for cray cray control * Do some logging * Seems like it has more torque than I thought * Bit more feedforward * Tune change * Retune * Retune * Little more chill * Add coroll * Add corolla * Give craycray a good name * Update to proper logging * D to the PI * Should be in radians * Add d * Start oscillations * Add D term * Only change torque rate limits for new tune * Add d logging * Should be enough * Wrong sign in D * Downtune a little * Needed to prevent faults * Add lqr rav4 to tune * Try derivative again * Data based retune * Data based retune * add friction compensation * Doesnt need too much P with friction comp * remove lqr * Remove kd * Fix tests * fix tests * Too much error * Get roll induced error under 1cm/deg * Too much jitter * Do roll comp * Add ki * Final update * Update refs * Cleanup latcontrol_torque a little more 3 years ago			`self.pid = PIDController(CP.lateralTuning.torque.kp, CP.lateralTuning.torque.ki,`
Clean up controllers (#24340) * clean up lat controllers * pass CP once * sort 3 years ago			`k_f=CP.lateralTuning.torque.kf, pos_limit=self.steer_max, neg_limit=-self.steer_max)`
Lateral torque-based control with roll on TSS2 corolla and TSSP rav4 (#24260) * Initial commit * Fix bugs * Need more torque rate * Cleanup cray cray control * Write nicely * Chiiil * Not relevant for cray cray control * Do some logging * Seems like it has more torque than I thought * Bit more feedforward * Tune change * Retune * Retune * Little more chill * Add coroll * Add corolla * Give craycray a good name * Update to proper logging * D to the PI * Should be in radians * Add d * Start oscillations * Add D term * Only change torque rate limits for new tune * Add d logging * Should be enough * Wrong sign in D * Downtune a little * Needed to prevent faults * Add lqr rav4 to tune * Try derivative again * Data based retune * Data based retune * add friction compensation * Doesnt need too much P with friction comp * remove lqr * Remove kd * Fix tests * fix tests * Too much error * Get roll induced error under 1cm/deg * Too much jitter * Do roll comp * Add ki * Final update * Update refs * Cleanup latcontrol_torque a little more 3 years ago			`self.get_steer_feedforward = CI.get_steer_feedforward_function()`
			`self.use_steering_angle = CP.lateralTuning.torque.useSteeringAngle`
			`self.friction = CP.lateralTuning.torque.friction`

			`def reset(self):`
			`super().reset()`
			`self.pid.reset()`

Clean up controllers (#24340) * clean up lat controllers * pass CP once * sort 3 years ago			`def update(self, active, CS, VM, params, last_actuators, desired_curvature, desired_curvature_rate, llk):`
Lateral torque-based control with roll on TSS2 corolla and TSSP rav4 (#24260) * Initial commit * Fix bugs * Need more torque rate * Cleanup cray cray control * Write nicely * Chiiil * Not relevant for cray cray control * Do some logging * Seems like it has more torque than I thought * Bit more feedforward * Tune change * Retune * Retune * Little more chill * Add coroll * Add corolla * Give craycray a good name * Update to proper logging * D to the PI * Should be in radians * Add d * Start oscillations * Add D term * Only change torque rate limits for new tune * Add d logging * Should be enough * Wrong sign in D * Downtune a little * Needed to prevent faults * Add lqr rav4 to tune * Try derivative again * Data based retune * Data based retune * add friction compensation * Doesnt need too much P with friction comp * remove lqr * Remove kd * Fix tests * fix tests * Too much error * Get roll induced error under 1cm/deg * Too much jitter * Do roll comp * Add ki * Final update * Update refs * Cleanup latcontrol_torque a little more 3 years ago			`pid_log = log.ControlsState.LateralTorqueState.new_message()`

			`if CS.vEgo < MIN_STEER_SPEED or not active:`
			`output_torque = 0.0`
			`pid_log.active = False`
			`self.pid.reset()`
			`else:`
			`if self.use_steering_angle:`
			`actual_curvature = -VM.calc_curvature(math.radians(CS.steeringAngleDeg - params.angleOffsetDeg), CS.vEgo, params.roll)`
			`else:`
			`actual_curvature = llk.angularVelocityCalibrated.value[2] / CS.vEgo`
Clean up controllers (#24340) * clean up lat controllers * pass CP once * sort 3 years ago			`desired_lateral_accel = desired_curvature * CS.vEgo ** 2`
			`desired_lateral_jerk = desired_curvature_rate * CS.vEgo ** 2`
			`actual_lateral_accel = actual_curvature * CS.vEgo ** 2`
Lateral torque-based control with roll on TSS2 corolla and TSSP rav4 (#24260) * Initial commit * Fix bugs * Need more torque rate * Cleanup cray cray control * Write nicely * Chiiil * Not relevant for cray cray control * Do some logging * Seems like it has more torque than I thought * Bit more feedforward * Tune change * Retune * Retune * Little more chill * Add coroll * Add corolla * Give craycray a good name * Update to proper logging * D to the PI * Should be in radians * Add d * Start oscillations * Add D term * Only change torque rate limits for new tune * Add d logging * Should be enough * Wrong sign in D * Downtune a little * Needed to prevent faults * Add lqr rav4 to tune * Try derivative again * Data based retune * Data based retune * add friction compensation * Doesnt need too much P with friction comp * remove lqr * Remove kd * Fix tests * fix tests * Too much error * Get roll induced error under 1cm/deg * Too much jitter * Do roll comp * Add ki * Final update * Update refs * Cleanup latcontrol_torque a little more 3 years ago
			`setpoint = desired_lateral_accel + LOW_SPEED_FACTOR * desired_curvature`
			`measurement = actual_lateral_accel + LOW_SPEED_FACTOR * actual_curvature`
			`error = setpoint - measurement`
			`pid_log.error = error`

			`ff = desired_lateral_accel - params.roll * ACCELERATION_DUE_TO_GRAVITY`
LatControlTorque: fix deadzone and missing steer saturated warning (#24294) * fix steer saturated alert and deadzone * fix and formatting * update refs * update refs * not needed * remove 3 years ago			`# convert friction into lateral accel units for feedforward`
			`friction_compensation = interp(desired_lateral_jerk, [-JERK_THRESHOLD, JERK_THRESHOLD], [-self.friction, self.friction])`
Clean up controllers (#24340) * clean up lat controllers * pass CP once * sort 3 years ago			`ff += friction_compensation / self.CP.lateralTuning.torque.kf`
Lateral torque-based control with roll on TSS2 corolla and TSSP rav4 (#24260) * Initial commit * Fix bugs * Need more torque rate * Cleanup cray cray control * Write nicely * Chiiil * Not relevant for cray cray control * Do some logging * Seems like it has more torque than I thought * Bit more feedforward * Tune change * Retune * Retune * Little more chill * Add coroll * Add corolla * Give craycray a good name * Update to proper logging * D to the PI * Should be in radians * Add d * Start oscillations * Add D term * Only change torque rate limits for new tune * Add d logging * Should be enough * Wrong sign in D * Downtune a little * Needed to prevent faults * Add lqr rav4 to tune * Try derivative again * Data based retune * Data based retune * add friction compensation * Doesnt need too much P with friction comp * remove lqr * Remove kd * Fix tests * fix tests * Too much error * Get roll induced error under 1cm/deg * Too much jitter * Do roll comp * Add ki * Final update * Update refs * Cleanup latcontrol_torque a little more 3 years ago			`output_torque = self.pid.update(error,`
			`override=CS.steeringPressed, feedforward=ff,`
			`speed=CS.vEgo,`
			`freeze_integrator=CS.steeringRateLimited)`

			`pid_log.active = True`
			`pid_log.p = self.pid.p`
			`pid_log.i = self.pid.i`
			`pid_log.d = self.pid.d`
			`pid_log.f = self.pid.f`
			`pid_log.output = -output_torque`
			`pid_log.saturated = self._check_saturation(self.steer_max - abs(output_torque) < 1e-3, CS)`

LatControlTorque: fix deadzone and missing steer saturated warning (#24294) * fix steer saturated alert and deadzone * fix and formatting * update refs * update refs * not needed * remove 3 years ago			`# TODO left is positive in this convention`
Lateral torque-based control with roll on TSS2 corolla and TSSP rav4 (#24260) * Initial commit * Fix bugs * Need more torque rate * Cleanup cray cray control * Write nicely * Chiiil * Not relevant for cray cray control * Do some logging * Seems like it has more torque than I thought * Bit more feedforward * Tune change * Retune * Retune * Little more chill * Add coroll * Add corolla * Give craycray a good name * Update to proper logging * D to the PI * Should be in radians * Add d * Start oscillations * Add D term * Only change torque rate limits for new tune * Add d logging * Should be enough * Wrong sign in D * Downtune a little * Needed to prevent faults * Add lqr rav4 to tune * Try derivative again * Data based retune * Data based retune * add friction compensation * Doesnt need too much P with friction comp * remove lqr * Remove kd * Fix tests * fix tests * Too much error * Get roll induced error under 1cm/deg * Too much jitter * Do roll comp * Add ki * Final update * Update refs * Cleanup latcontrol_torque a little more 3 years ago			`return -output_torque, 0.0, pid_log`