dragonpilot/selfdrive/controls/lib/latcontrol_indi.py

import math
import numpy as np

from cereal import log
from common.filter_simple import FirstOrderFilter
from common.numpy_fast import clip, interp
from common.realtime import DT_CTRL
from selfdrive.car import apply_toyota_steer_torque_limits
from selfdrive.car.toyota.values import CarControllerParams
from selfdrive.controls.lib.drive_helpers import get_steer_max


class LatControlINDI():
  def __init__(self, CP):
    self.angle_steers_des = 0.

    A = np.array([[1.0, DT_CTRL, 0.0],
                  [0.0, 1.0, DT_CTRL],
                  [0.0, 0.0, 1.0]])
    C = np.array([[1.0, 0.0, 0.0],
                  [0.0, 1.0, 0.0]])

    # Q = np.matrix([[1e-2, 0.0, 0.0], [0.0, 1.0, 0.0], [0.0, 0.0, 10.0]])
    # R = np.matrix([[1e-2, 0.0], [0.0, 1e3]])

    # (x, l, K) = control.dare(np.transpose(A), np.transpose(C), Q, R)
    # K = np.transpose(K)
    K = np.array([[7.30262179e-01, 2.07003658e-04],
                  [7.29394177e+00, 1.39159419e-02],
                  [1.71022442e+01, 3.38495381e-02]])

    self.speed = 0.

    self.K = K
    self.A_K = A - np.dot(K, C)
    self.x = np.array([[0.], [0.], [0.]])

    self.enforce_rate_limit = CP.carName == "toyota"

    self._RC = (CP.lateralTuning.indi.timeConstantBP, CP.lateralTuning.indi.timeConstantV)
    self._G = (CP.lateralTuning.indi.actuatorEffectivenessBP, CP.lateralTuning.indi.actuatorEffectivenessV)
    self._outer_loop_gain = (CP.lateralTuning.indi.outerLoopGainBP, CP.lateralTuning.indi.outerLoopGainV)
    self._inner_loop_gain = (CP.lateralTuning.indi.innerLoopGainBP, CP.lateralTuning.indi.innerLoopGainV)

    self.sat_count_rate = 1.0 * DT_CTRL
    self.sat_limit = CP.steerLimitTimer
    self.steer_filter = FirstOrderFilter(0., self.RC, DT_CTRL)

    self.reset()

  @property
  def RC(self):
    return interp(self.speed, self._RC[0], self._RC[1])

  @property
  def G(self):
    return interp(self.speed, self._G[0], self._G[1])

  @property
  def outer_loop_gain(self):
    return interp(self.speed, self._outer_loop_gain[0], self._outer_loop_gain[1])

  @property
  def inner_loop_gain(self):
    return interp(self.speed, self._inner_loop_gain[0], self._inner_loop_gain[1])

  def reset(self):
    self.steer_filter.x = 0.
    self.output_steer = 0.
    self.sat_count = 0.
    self.speed = 0.

  def _check_saturation(self, control, check_saturation, limit):
    saturated = abs(control) == limit

    if saturated and check_saturation:
      self.sat_count += self.sat_count_rate
    else:
      self.sat_count -= self.sat_count_rate

    self.sat_count = clip(self.sat_count, 0.0, 1.0)

    return self.sat_count > self.sat_limit

  def update(self, active, CS, CP, VM, params, curvature, curvature_rate):
    self.speed = CS.vEgo
    # Update Kalman filter
    y = np.array([[math.radians(CS.steeringAngleDeg)], [math.radians(CS.steeringRateDeg)]])
    self.x = np.dot(self.A_K, self.x) + np.dot(self.K, y)

    indi_log = log.ControlsState.LateralINDIState.new_message()
    indi_log.steeringAngleDeg = math.degrees(self.x[0])
    indi_log.steeringRateDeg = math.degrees(self.x[1])
    indi_log.steeringAccelDeg = math.degrees(self.x[2])

    steers_des = VM.get_steer_from_curvature(-curvature, CS.vEgo)
    steers_des += math.radians(params.angleOffsetDeg)
    if CS.vEgo < 0.3 or not active:
      indi_log.active = False
      self.output_steer = 0.0
      self.steer_filter.x = 0.0
    else:

      rate_des = VM.get_steer_from_curvature(-curvature_rate, CS.vEgo)

      # Expected actuator value
      self.steer_filter.update_alpha(self.RC)
      self.steer_filter.update(self.output_steer)

      # Compute acceleration error
      rate_sp = self.outer_loop_gain * (steers_des - self.x[0]) + rate_des
      accel_sp = self.inner_loop_gain * (rate_sp - self.x[1])
      accel_error = accel_sp - self.x[2]

      # Compute change in actuator
      g_inv = 1. / self.G
      delta_u = g_inv * accel_error

      # If steering pressed, only allow wind down
      if CS.steeringPressed and (delta_u * self.output_steer > 0):
        delta_u = 0

      # Enforce rate limit
      if self.enforce_rate_limit:
        steer_max = float(CarControllerParams.STEER_MAX)
        new_output_steer_cmd = steer_max * (self.steer_filter.x + delta_u)
        prev_output_steer_cmd = steer_max * self.output_steer
        new_output_steer_cmd = apply_toyota_steer_torque_limits(new_output_steer_cmd, prev_output_steer_cmd, prev_output_steer_cmd, CarControllerParams)
        self.output_steer = new_output_steer_cmd / steer_max
      else:
        self.output_steer = self.steer_filter.x + delta_u

      steers_max = get_steer_max(CP, CS.vEgo)
      self.output_steer = clip(self.output_steer, -steers_max, steers_max)

      indi_log.active = True
      indi_log.rateSetPoint = float(rate_sp)
      indi_log.accelSetPoint = float(accel_sp)
      indi_log.accelError = float(accel_error)
      indi_log.delayedOutput = float(self.steer_filter.x)
      indi_log.delta = float(delta_u)
      indi_log.output = float(self.output_steer)

      check_saturation = (CS.vEgo > 10.) and not CS.steeringRateLimited and not CS.steeringPressed
      indi_log.saturated = self._check_saturation(self.output_steer, check_saturation, steers_max)

    return float(self.output_steer), float(steers_des), indi_log
selfdrive/controls 6 years ago			`import math`
			`import numpy as np`

			`from cereal import log`
Use first order filter (#21411) * Use first order filter in INDI * use first order filter in LP as well * Update selfdrive/controls/lib/lane_planner.py Co-authored-by: Willem Melching <willem.melching@gmail.com> * RC->rc * division safe Co-authored-by: Willem Melching <willem.melching@gmail.com> 4 years ago			`from common.filter_simple import FirstOrderFilter`
Add indi breakpoints (#19664) * Added BP, V to latcontrol_indi * hyundai * toyota * Tests for INDI outerLoopGain 5 years ago			`from common.numpy_fast import clip, interp`
Use first order filter (#21411) * Use first order filter in INDI * use first order filter in LP as well * Update selfdrive/controls/lib/lane_planner.py Co-authored-by: Willem Melching <willem.melching@gmail.com> * RC->rc * division safe Co-authored-by: Willem Melching <willem.melching@gmail.com> 4 years ago			`from common.realtime import DT_CTRL`
selfdrive/controls 6 years ago			`from selfdrive.car import apply_toyota_steer_torque_limits`
Use first order filter (#21411) * Use first order filter in INDI * use first order filter in LP as well * Update selfdrive/controls/lib/lane_planner.py Co-authored-by: Willem Melching <willem.melching@gmail.com> * RC->rc * division safe Co-authored-by: Willem Melching <willem.melching@gmail.com> 4 years ago			`from selfdrive.car.toyota.values import CarControllerParams`
selfdrive/controls 6 years ago			`from selfdrive.controls.lib.drive_helpers import get_steer_max`


			`class LatControlINDI():`
			`def __init__(self, CP):`
			`self.angle_steers_des = 0.`

matrix subclass not recommended way to represent matrices (#2348) 5 years ago			`A = np.array([[1.0, DT_CTRL, 0.0],`
			`[0.0, 1.0, DT_CTRL],`
			`[0.0, 0.0, 1.0]])`
			`C = np.array([[1.0, 0.0, 0.0],`
			`[0.0, 1.0, 0.0]])`
selfdrive/controls 6 years ago
			`# Q = np.matrix([[1e-2, 0.0, 0.0], [0.0, 1.0, 0.0], [0.0, 0.0, 10.0]])`
			`# R = np.matrix([[1e-2, 0.0], [0.0, 1e3]])`

			`# (x, l, K) = control.dare(np.transpose(A), np.transpose(C), Q, R)`
			`# K = np.transpose(K)`
matrix subclass not recommended way to represent matrices (#2348) 5 years ago			`K = np.array([[7.30262179e-01, 2.07003658e-04],`
			`[7.29394177e+00, 1.39159419e-02],`
			`[1.71022442e+01, 3.38495381e-02]])`
selfdrive/controls 6 years ago
Add indi breakpoints (#19664) * Added BP, V to latcontrol_indi * hyundai * toyota * Tests for INDI outerLoopGain 5 years ago			`self.speed = 0.`

selfdrive/controls 6 years ago			`self.K = K`
			`self.A_K = A - np.dot(K, C)`
matrix subclass not recommended way to represent matrices (#2348) 5 years ago			`self.x = np.array([[0.], [0.], [0.]])`
selfdrive/controls 6 years ago
			`self.enforce_rate_limit = CP.carName == "toyota"`

Add indi breakpoints (#19664) * Added BP, V to latcontrol_indi * hyundai * toyota * Tests for INDI outerLoopGain 5 years ago			`self._RC = (CP.lateralTuning.indi.timeConstantBP, CP.lateralTuning.indi.timeConstantV)`
			`self._G = (CP.lateralTuning.indi.actuatorEffectivenessBP, CP.lateralTuning.indi.actuatorEffectivenessV)`
			`self._outer_loop_gain = (CP.lateralTuning.indi.outerLoopGainBP, CP.lateralTuning.indi.outerLoopGainV)`
			`self._inner_loop_gain = (CP.lateralTuning.indi.innerLoopGainBP, CP.lateralTuning.indi.innerLoopGainV)`
selfdrive/controls 6 years ago
			`self.sat_count_rate = 1.0 * DT_CTRL`
			`self.sat_limit = CP.steerLimitTimer`
Use first order filter (#21411) * Use first order filter in INDI * use first order filter in LP as well * Update selfdrive/controls/lib/lane_planner.py Co-authored-by: Willem Melching <willem.melching@gmail.com> * RC->rc * division safe Co-authored-by: Willem Melching <willem.melching@gmail.com> 4 years ago			`self.steer_filter = FirstOrderFilter(0., self.RC, DT_CTRL)`
selfdrive/controls 6 years ago
			`self.reset()`

Add indi breakpoints (#19664) * Added BP, V to latcontrol_indi * hyundai * toyota * Tests for INDI outerLoopGain 5 years ago			`@property`
			`def RC(self):`
			`return interp(self.speed, self._RC[0], self._RC[1])`

			`@property`
			`def G(self):`
			`return interp(self.speed, self._G[0], self._G[1])`

			`@property`
			`def outer_loop_gain(self):`
			`return interp(self.speed, self._outer_loop_gain[0], self._outer_loop_gain[1])`

			`@property`
			`def inner_loop_gain(self):`
			`return interp(self.speed, self._inner_loop_gain[0], self._inner_loop_gain[1])`

selfdrive/controls 6 years ago			`def reset(self):`
Use first order filter (#21411) * Use first order filter in INDI * use first order filter in LP as well * Update selfdrive/controls/lib/lane_planner.py Co-authored-by: Willem Melching <willem.melching@gmail.com> * RC->rc * division safe Co-authored-by: Willem Melching <willem.melching@gmail.com> 4 years ago			`self.steer_filter.x = 0.`
selfdrive/controls 6 years ago			`self.output_steer = 0.`
Use first order filter (#21411) * Use first order filter in INDI * use first order filter in LP as well * Update selfdrive/controls/lib/lane_planner.py Co-authored-by: Willem Melching <willem.melching@gmail.com> * RC->rc * division safe Co-authored-by: Willem Melching <willem.melching@gmail.com> 4 years ago			`self.sat_count = 0.`
Add indi breakpoints (#19664) * Added BP, V to latcontrol_indi * hyundai * toyota * Tests for INDI outerLoopGain 5 years ago			`self.speed = 0.`
selfdrive/controls 6 years ago
			`def _check_saturation(self, control, check_saturation, limit):`
			`saturated = abs(control) == limit`

			`if saturated and check_saturation:`
			`self.sat_count += self.sat_count_rate`
			`else:`
			`self.sat_count -= self.sat_count_rate`

			`self.sat_count = clip(self.sat_count, 0.0, 1.0)`

			`return self.sat_count > self.sat_limit`

Refactor lateral lag compensation (#21334) * add T_IDXS * refactor * fix test * unused * typo * needs casting * Update selfdrive/controls/lib/drive_helpers.py Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> * deprecate field * regen all * new segs * add todo * split back * clean * bad names * do in controls * add arg Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> 4 years ago			`def update(self, active, CS, CP, VM, params, curvature, curvature_rate):`
Add indi breakpoints (#19664) * Added BP, V to latcontrol_indi * hyundai * toyota * Tests for INDI outerLoopGain 5 years ago			`self.speed = CS.vEgo`
selfdrive/controls 6 years ago			`# Update Kalman filter`
cereal cleanup part 2 (#20092) * car stuff * thermal * Revert "car stuff" This reverts commit 77fd1c65ebd01abfa8493ae12c9e6b14f7ada976. * panda state * camera stuff * start deg * most is building * builds * planner + controls run * fix up paramsd * cleanup * process replay passes * fix webcam build * camerad * no more frame * thermald * ui * paramsd * camera replay * fix long tests * fix camerad tests * maxSteeringAngle * bump cereal * more frame * cereal master 5 years ago			`y = np.array([[math.radians(CS.steeringAngleDeg)], [math.radians(CS.steeringRateDeg)]])`
selfdrive/controls 6 years ago			`self.x = np.dot(self.A_K, self.x) + np.dot(self.K, y)`

			`indi_log = log.ControlsState.LateralINDIState.new_message()`
cereal cleanup part 2 (#20092) * car stuff * thermal * Revert "car stuff" This reverts commit 77fd1c65ebd01abfa8493ae12c9e6b14f7ada976. * panda state * camera stuff * start deg * most is building * builds * planner + controls run * fix up paramsd * cleanup * process replay passes * fix webcam build * camerad * no more frame * thermald * ui * paramsd * camera replay * fix long tests * fix camerad tests * maxSteeringAngle * bump cereal * more frame * cereal master 5 years ago			`indi_log.steeringAngleDeg = math.degrees(self.x[0])`
			`indi_log.steeringRateDeg = math.degrees(self.x[1])`
			`indi_log.steeringAccelDeg = math.degrees(self.x[2])`
selfdrive/controls 6 years ago
Refactor lateral lag compensation (#21334) * add T_IDXS * refactor * fix test * unused * typo * needs casting * Update selfdrive/controls/lib/drive_helpers.py Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> * deprecate field * regen all * new segs * add todo * split back * clean * bad names * do in controls * add arg Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> 4 years ago			`steers_des = VM.get_steer_from_curvature(-curvature, CS.vEgo)`
			`steers_des += math.radians(params.angleOffsetDeg)`
Controlsd refactor (#1487) * it's a class * more refactor * remove that * car interface should create that * that too * not a dict * don't create permanent events every iteration * break up long lines * fix honda * small optimization * less long lines * dict is faster * latcontrol less args * longcontrol less args * update profiling script * few optimizations * create events together * clean up * more clean up * remove comment * clean up * simplify state transition * more clean up * update comments 6 years ago			`if CS.vEgo < 0.3 or not active:`
selfdrive/controls 6 years ago			`indi_log.active = False`
			`self.output_steer = 0.0`
Use first order filter (#21411) * Use first order filter in INDI * use first order filter in LP as well * Update selfdrive/controls/lib/lane_planner.py Co-authored-by: Willem Melching <willem.melching@gmail.com> * RC->rc * division safe Co-authored-by: Willem Melching <willem.melching@gmail.com> 4 years ago			`self.steer_filter.x = 0.0`
selfdrive/controls 6 years ago			`else:`

Refactor lateral lag compensation (#21334) * add T_IDXS * refactor * fix test * unused * typo * needs casting * Update selfdrive/controls/lib/drive_helpers.py Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> * deprecate field * regen all * new segs * add todo * split back * clean * bad names * do in controls * add arg Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> 4 years ago			`rate_des = VM.get_steer_from_curvature(-curvature_rate, CS.vEgo)`
selfdrive/controls 6 years ago
			`# Expected actuator value`
Use first order filter (#21411) * Use first order filter in INDI * use first order filter in LP as well * Update selfdrive/controls/lib/lane_planner.py Co-authored-by: Willem Melching <willem.melching@gmail.com> * RC->rc * division safe Co-authored-by: Willem Melching <willem.melching@gmail.com> 4 years ago			`self.steer_filter.update_alpha(self.RC)`
			`self.steer_filter.update(self.output_steer)`
selfdrive/controls 6 years ago
			`# Compute acceleration error`
			`rate_sp = self.outer_loop_gain * (steers_des - self.x[0]) + rate_des`
			`accel_sp = self.inner_loop_gain * (rate_sp - self.x[1])`
			`accel_error = accel_sp - self.x[2]`

			`# Compute change in actuator`
			`g_inv = 1. / self.G`
			`delta_u = g_inv * accel_error`

only allow INDI wind down on user override (#20080) 5 years ago			`# If steering pressed, only allow wind down`
			`if CS.steeringPressed and (delta_u * self.output_steer > 0):`
			`delta_u = 0`

selfdrive/controls 6 years ago			`# Enforce rate limit`
			`if self.enforce_rate_limit:`
Move all CarControllerParams into values.py (#19663) * toyota * use scale from values.py * nissan * subaru * honda * gm * toyota combine into CarControllerParams * nissan refactor * chrysler refactor * mazda refactor * hyundai refactor * subaru refactor 5 years ago			`steer_max = float(CarControllerParams.STEER_MAX)`
Use first order filter (#21411) * Use first order filter in INDI * use first order filter in LP as well * Update selfdrive/controls/lib/lane_planner.py Co-authored-by: Willem Melching <willem.melching@gmail.com> * RC->rc * division safe Co-authored-by: Willem Melching <willem.melching@gmail.com> 4 years ago			`new_output_steer_cmd = steer_max * (self.steer_filter.x + delta_u)`
selfdrive/controls 6 years ago			`prev_output_steer_cmd = steer_max * self.output_steer`
Move all CarControllerParams into values.py (#19663) * toyota * use scale from values.py * nissan * subaru * honda * gm * toyota combine into CarControllerParams * nissan refactor * chrysler refactor * mazda refactor * hyundai refactor * subaru refactor 5 years ago			`new_output_steer_cmd = apply_toyota_steer_torque_limits(new_output_steer_cmd, prev_output_steer_cmd, prev_output_steer_cmd, CarControllerParams)`
selfdrive/controls 6 years ago			`self.output_steer = new_output_steer_cmd / steer_max`
			`else:`
Use first order filter (#21411) * Use first order filter in INDI * use first order filter in LP as well * Update selfdrive/controls/lib/lane_planner.py Co-authored-by: Willem Melching <willem.melching@gmail.com> * RC->rc * division safe Co-authored-by: Willem Melching <willem.melching@gmail.com> 4 years ago			`self.output_steer = self.steer_filter.x + delta_u`
selfdrive/controls 6 years ago
Controlsd refactor (#1487) * it's a class * more refactor * remove that * car interface should create that * that too * not a dict * don't create permanent events every iteration * break up long lines * fix honda * small optimization * less long lines * dict is faster * latcontrol less args * longcontrol less args * update profiling script * few optimizations * create events together * clean up * more clean up * remove comment * clean up * simplify state transition * more clean up * update comments 6 years ago			`steers_max = get_steer_max(CP, CS.vEgo)`
selfdrive/controls 6 years ago			`self.output_steer = clip(self.output_steer, -steers_max, steers_max)`

			`indi_log.active = True`
			`indi_log.rateSetPoint = float(rate_sp)`
			`indi_log.accelSetPoint = float(accel_sp)`
			`indi_log.accelError = float(accel_error)`
Use first order filter (#21411) * Use first order filter in INDI * use first order filter in LP as well * Update selfdrive/controls/lib/lane_planner.py Co-authored-by: Willem Melching <willem.melching@gmail.com> * RC->rc * division safe Co-authored-by: Willem Melching <willem.melching@gmail.com> 4 years ago			`indi_log.delayedOutput = float(self.steer_filter.x)`
selfdrive/controls 6 years ago			`indi_log.delta = float(delta_u)`
			`indi_log.output = float(self.output_steer)`

Flake8 E22X (#1607) * e221 * e225 * bump opendbc 5 years ago			`check_saturation = (CS.vEgo > 10.) and not CS.steeringRateLimited and not CS.steeringPressed`
selfdrive/controls 6 years ago			`indi_log.saturated = self._check_saturation(self.output_steer, check_saturation, steers_max)`

Refactor lateral lag compensation (#21334) * add T_IDXS * refactor * fix test * unused * typo * needs casting * Update selfdrive/controls/lib/drive_helpers.py Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> * deprecate field * regen all * new segs * add todo * split back * clean * bad names * do in controls * add arg Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> 4 years ago			`return float(self.output_steer), float(steers_des), indi_log`