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realtimeroboticsgroup.org / RealtimeRoboticsGroup / test / d77c064ecc096fd6943a57322b94eaf2c06fa6a7 / . / frc971 / control_loops / python / drivetrain.py
blob: aa29d6bf64206bd168b76f368d7048ca22071f95 [file] [log] [blame]
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]1#!/usr/bin/python
2
3from frc971.control_loops.python import control_loop
4from frc971.control_loops.python import controls
5import numpy
6import sys
7from matplotlib import pylab
8import glog
9
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]10
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]11class DrivetrainParams(object):
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]12
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]13 def __init__(self,
14 J,
15 mass,
16 robot_radius,
17 wheel_radius,
Austin Schuhecc92a02019-01-20 17:42:19 -0800[diff] [blame]18 G=None,
19 G_high=None,
20 G_low=None,
21 q_pos=None,
22 q_pos_low=None,
23 q_pos_high=None,
24 q_vel=None,
25 q_vel_low=None,
26 q_vel_high=None,
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]27 efficiency=0.60,
28 has_imu=False,
29 force=False,
30 kf_q_voltage=10.0,
31 motor_type=control_loop.CIM(),
32 num_motors=2,
33 dt=0.00505,
34 controller_poles=[0.90, 0.90],
Michael Schuh95fbcc52018-03-10 20:57:20 -0800[diff] [blame]35 observer_poles=[0.02, 0.02],
36 robot_cg_offset=0.0):
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]37 """Defines all constants of a drivetrain.
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]38
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]39 Args:
40 J: float, Moment of inertia of drivetrain in kg m^2
41 mass: float, Mass of the robot in kg.
42 robot_radius: float, Radius of the robot, in meters (requires tuning by
43 hand).
44 wheel_radius: float, Radius of the wheels, in meters.
Austin Schuhecc92a02019-01-20 17:42:19 -0800[diff] [blame]45 G: float, Gear ratio for a single speed.
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]46 G_high: float, Gear ratio for high gear.
47 G_low: float, Gear ratio for low gear.
48 dt: float, Control loop time step.
Austin Schuhecc92a02019-01-20 17:42:19 -0800[diff] [blame]49 q_pos: float, q position for a single speed.
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]50 q_pos_low: float, q position low gear.
51 q_pos_high: float, q position high gear.
Austin Schuhecc92a02019-01-20 17:42:19 -0800[diff] [blame]52 q_vel: float, q velocity for a single speed
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]53 q_vel_low: float, q velocity low gear.
54 q_vel_high: float, q velocity high gear.
55 efficiency: float, gear box effiency.
56 has_imu: bool, true if imu is present.
57 force: bool, true if force.
58 kf_q_voltage: float
59 motor_type: object, class of values defining the motor in drivetrain.
60 num_motors: int, number of motors on one side of drivetrain.
61 controller_poles: array, An array of poles. (See control_loop.py)
62 observer_poles: array, An array of poles. (See control_loop.py)
Michael Schuh95fbcc52018-03-10 20:57:20 -0800[diff] [blame]63 robot_cg_offset: offset in meters of CG from robot center to left side
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]64 """
Austin Schuhecc92a02019-01-20 17:42:19 -0800[diff] [blame]65 if G is not None:
66 assert (G_high is None)
67 assert (G_low is None)
68 G_high = G
69 G_low = G
70 assert (G_high is not None)
71 assert (G_low is not None)
72
73 if q_pos is not None:
74 assert (q_pos_low is None)
75 assert (q_pos_high is None)
76 q_pos_low = q_pos
77 q_pos_high = q_pos
78 assert (q_pos_low is not None)
79 assert (q_pos_high is not None)
80
81 if q_vel is not None:
82 assert (q_vel_low is None)
83 assert (q_vel_high is None)
84 q_vel_low = q_vel
85 q_vel_high = q_vel
86 assert (q_vel_low is not None)
87 assert (q_vel_high is not None)
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]88
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]89 self.J = J
90 self.mass = mass
91 self.robot_radius = robot_radius
Michael Schuh95fbcc52018-03-10 20:57:20 -0800[diff] [blame]92 self.robot_cg_offset = robot_cg_offset
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]93 self.wheel_radius = wheel_radius
94 self.G_high = G_high
95 self.G_low = G_low
96 self.dt = dt
97 self.q_pos_low = q_pos_low
98 self.q_pos_high = q_pos_high
99 self.q_vel_low = q_vel_low
100 self.q_vel_high = q_vel_high
101 self.efficiency = efficiency
102 self.has_imu = has_imu
103 self.kf_q_voltage = kf_q_voltage
104 self.motor_type = motor_type
105 self.force = force
106 self.num_motors = num_motors
107 self.controller_poles = controller_poles
108 self.observer_poles = observer_poles
109
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]110
111class Drivetrain(control_loop.ControlLoop):
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]112
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]113 def __init__(self,
114 drivetrain_params,
115 name="Drivetrain",
116 left_low=True,
117 right_low=True):
118 """Defines a base drivetrain for a robot.
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]119
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]120 Args:
121 drivetrain_params: DrivetrainParams, class of values defining the drivetrain.
122 name: string, Name of this drivetrain.
123 left_low: bool, Whether the left is in high gear.
124 right_low: bool, Whether the right is in high gear.
125 """
126 super(Drivetrain, self).__init__(name)
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]127
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]128 # Moment of inertia of the drivetrain in kg m^2
129 self.J = drivetrain_params.J
130 # Mass of the robot, in kg.
131 self.mass = drivetrain_params.mass
132 # Radius of the robot, in meters (requires tuning by hand)
133 self.robot_radius = drivetrain_params.robot_radius
134 # Radius of the wheels, in meters.
135 self.r = drivetrain_params.wheel_radius
136 self.has_imu = drivetrain_params.has_imu
Michael Schuh95fbcc52018-03-10 20:57:20 -0800[diff] [blame]137 # Offset in meters of the CG from the center of the robot to the left side
138 # of the robot. Since the arm is on the right side, the offset will
139 # likely be a negative number.
140 self.robot_cg_offset = drivetrain_params.robot_cg_offset
141 # Distance from the left side of the robot to the Center of Gravity
142 self.robot_radius_l = drivetrain_params.robot_radius - self.robot_cg_offset
143 # Distance from the right side of the robot to the Center of Gravity
144 self.robot_radius_r = drivetrain_params.robot_radius + self.robot_cg_offset
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]145
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]146 # Gear ratios
147 self.G_low = drivetrain_params.G_low
148 self.G_high = drivetrain_params.G_high
149 if left_low:
150 self.Gl = self.G_low
151 else:
152 self.Gl = self.G_high
153 if right_low:
154 self.Gr = self.G_low
155 else:
156 self.Gr = self.G_high
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]157
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]158 # Control loop time step
159 self.dt = drivetrain_params.dt
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]160
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]161 self.efficiency = drivetrain_params.efficiency
162 self.force = drivetrain_params.force
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]163
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]164 self.BuildDrivetrain(drivetrain_params.motor_type,
165 drivetrain_params.num_motors)
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]166
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]167 if left_low or right_low:
168 q_pos = drivetrain_params.q_pos_low
169 q_vel = drivetrain_params.q_vel_low
170 else:
171 q_pos = drivetrain_params.q_pos_high
172 q_vel = drivetrain_params.q_vel_high
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]173
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]174 self.BuildDrivetrainController(q_pos, q_vel)
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]175
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]176 self.InitializeState()
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]177
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]178 def BuildDrivetrain(self, motor, num_motors_per_side):
179 self.motor = motor
180 # Number of motors per side
181 self.num_motors = num_motors_per_side
182 # Stall Torque in N m
183 self.stall_torque = motor.stall_torque * self.num_motors * self.efficiency
184 # Stall Current in Amps
185 self.stall_current = motor.stall_current * self.num_motors
186 # Free Speed in rad/s
187 self.free_speed = motor.free_speed
188 # Free Current in Amps
189 self.free_current = motor.free_current * self.num_motors
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]190
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]191 # Effective motor resistance in ohms.
192 self.resistance = 12.0 / self.stall_current
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]193
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]194 # Resistance of the motor, divided by the number of motors.
195 # Motor velocity constant
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]196 self.Kv = (
197 self.free_speed / (12.0 - self.resistance * self.free_current))
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]198 # Torque constant
199 self.Kt = self.stall_torque / self.stall_current
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]200
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]201 # These describe the way that a given side of a robot will be influenced
202 # by the other side. Units of 1 / kg.
Michael Schuh95fbcc52018-03-10 20:57:20 -0800[diff] [blame]203 self.mspl = 1.0 / self.mass + self.robot_radius_l * self.robot_radius_l / self.J
204 self.mspr = 1.0 / self.mass + self.robot_radius_r * self.robot_radius_r / self.J
205 self.msnl = self.robot_radius_r / ( self.robot_radius_l * self.mass ) - \
206 self.robot_radius_l * self.robot_radius_r / self.J
207 self.msnr = self.robot_radius_l / ( self.robot_radius_r * self.mass ) - \
208 self.robot_radius_l * self.robot_radius_r / self.J
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]209 # The calculations which we will need for A and B.
210 self.tcl = self.Kt / self.Kv / (
211 self.Gl * self.Gl * self.resistance * self.r * self.r)
212 self.tcr = self.Kt / self.Kv / (
213 self.Gr * self.Gr * self.resistance * self.r * self.r)
214 self.mpl = self.Kt / (self.Gl * self.resistance * self.r)
215 self.mpr = self.Kt / (self.Gr * self.resistance * self.r)
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]216
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]217 # State feedback matrices
218 # X will be of the format
Austin Schuhd77c0642020-12-30 21:38:54 -0800[diff] [blame^]219 # [[positionl], [velocityl], [positionr], [velocityr]]
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]220 self.A_continuous = numpy.matrix(
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]221 [[0, 1, 0, 0], [0, -self.mspl * self.tcl, 0, -self.msnr * self.tcr],
222 [0, 0, 0, 1], [0, -self.msnl * self.tcl, 0,
223 -self.mspr * self.tcr]])
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]224 self.B_continuous = numpy.matrix(
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]225 [[0, 0], [self.mspl * self.mpl, self.msnr * self.mpr], [0, 0],
Michael Schuh95fbcc52018-03-10 20:57:20 -0800[diff] [blame]226 [self.msnl * self.mpl, self.mspr * self.mpr]])
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]227 self.C = numpy.matrix([[1, 0, 0, 0], [0, 0, 1, 0]])
228 self.D = numpy.matrix([[0, 0], [0, 0]])
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]229
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]230 self.A, self.B = self.ContinuousToDiscrete(self.A_continuous,
231 self.B_continuous, self.dt)
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]232
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]233 def BuildDrivetrainController(self, q_pos, q_vel):
Austin Schuhd77c0642020-12-30 21:38:54 -0800[diff] [blame^]234 # We can solve for the max velocity by setting \dot(x) = Ax + Bu to 0
235 max_voltage = 12
236 glog.debug(
237 "Max speed %f m/s",
238 -(self.B_continuous[1, 1] + self.B_continuous[1, 0]) /
239 (self.A_continuous[1, 1] + self.A_continuous[1, 3]) * max_voltage)
240
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]241 # Tune the LQR controller
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]242 self.Q = numpy.matrix([[(1.0 / (q_pos**2.0)), 0.0, 0.0, 0.0],
243 [0.0, (1.0 / (q_vel**2.0)), 0.0, 0.0],
244 [0.0, 0.0, (1.0 / (q_pos**2.0)), 0.0],
245 [0.0, 0.0, 0.0, (1.0 / (q_vel**2.0))]])
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]246
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]247 self.R = numpy.matrix([[(1.0 / (12.0**2.0)), 0.0],
248 [0.0, (1.0 / (12.0**2.0))]])
249 self.K = controls.dlqr(self.A, self.B, self.Q, self.R)
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]250
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]251 glog.debug('DT q_pos %f q_vel %s %s', q_pos, q_vel, self._name)
252 glog.debug(str(numpy.linalg.eig(self.A - self.B * self.K)[0]))
253 glog.debug('K %s', repr(self.K))
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]254
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]255 self.hlp = 0.3
256 self.llp = 0.4
257 self.PlaceObserverPoles([self.hlp, self.hlp, self.llp, self.llp])
258
259 self.U_max = numpy.matrix([[12.0], [12.0]])
260 self.U_min = numpy.matrix([[-12.0], [-12.0]])
261
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]262
263class KFDrivetrain(Drivetrain):
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]264
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]265 def __init__(self,
266 drivetrain_params,
267 name="KFDrivetrain",
268 left_low=True,
269 right_low=True):
270 """Kalman filter values of a drivetrain.
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]271
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]272 Args:
273 drivetrain_params: DrivetrainParams, class of values defining the drivetrain.
274 name: string, Name of this drivetrain.
275 left_low: bool, Whether the left is in high gear.
276 right_low: bool, Whether the right is in high gear.
277 """
278 super(KFDrivetrain, self).__init__(drivetrain_params, name, left_low,
279 right_low)
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]280
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]281 self.unaugmented_A_continuous = self.A_continuous
282 self.unaugmented_B_continuous = self.B_continuous
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]283
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]284 # The practical voltage applied to the wheels is
285 # V_left = U_left + left_voltage_error
286 #
287 # The states are
288 # [left position, left velocity, right position, right velocity,
289 # left voltage error, right voltage error, angular_error]
290 #
291 # The left and right positions are filtered encoder positions and are not
292 # adjusted for heading error.
293 # The turn velocity as computed by the left and right velocities is
294 # adjusted by the gyro velocity.
295 # The angular_error is the angular velocity error between the wheel speed
296 # and the gyro speed.
297 self.A_continuous = numpy.matrix(numpy.zeros((7, 7)))
298 self.B_continuous = numpy.matrix(numpy.zeros((7, 2)))
299 self.A_continuous[0:4, 0:4] = self.unaugmented_A_continuous
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]300
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]301 if self.force:
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]302 self.A_continuous[0:4, 4:6] = numpy.matrix([[0.0, 0.0],
303 [self.mspl, self.msnl],
304 [0.0, 0.0],
305 [self.msnr, self.mspr]])
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]306 q_voltage = drivetrain_params.kf_q_voltage * self.mpl
307 else:
308 self.A_continuous[0:4, 4:6] = self.unaugmented_B_continuous
309 q_voltage = drivetrain_params.kf_q_voltage
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]310
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]311 self.B_continuous[0:4, 0:2] = self.unaugmented_B_continuous
312 self.A_continuous[0, 6] = 1
313 self.A_continuous[2, 6] = -1
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]314
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]315 self.A, self.B = self.ContinuousToDiscrete(self.A_continuous,
316 self.B_continuous, self.dt)
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]317
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]318 if self.has_imu:
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]319 self.C = numpy.matrix([[1, 0, 0, 0, 0, 0, 0], [0, 0, 1, 0, 0, 0, 0],
320 [
321 0, -0.5 / drivetrain_params.robot_radius,
322 0, 0.5 / drivetrain_params.robot_radius,
323 0, 0, 0
324 ], [0, 0, 0, 0, 0, 0, 0]])
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]325 gravity = 9.8
326 self.C[3, 0:6] = 0.5 * (
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]327 self.A_continuous[1, 0:6] + self.A_continuous[3, 0:6]) / gravity
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]328
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]329 self.D = numpy.matrix(
330 [[0, 0], [0, 0], [0, 0],
331 [
332 0.5 * (self.B_continuous[1, 0] + self.B_continuous[3, 0]) /
333 gravity,
334 0.5 * (self.B_continuous[1, 1] + self.B_continuous[3, 1]) /
335 gravity
336 ]])
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]337 else:
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]338 self.C = numpy.matrix([[1, 0, 0, 0, 0, 0, 0], [0, 0, 1, 0, 0, 0, 0],
339 [
340 0, -0.5 / drivetrain_params.robot_radius,
341 0, 0.5 / drivetrain_params.robot_radius,
342 0, 0, 0
343 ]])
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]344
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]345 self.D = numpy.matrix([[0, 0], [0, 0], [0, 0]])
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]346
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]347 q_pos = 0.05
348 q_vel = 1.00
349 q_encoder_uncertainty = 2.00
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]350
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]351 self.Q = numpy.matrix(
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]352 [[(q_pos**2.0), 0.0, 0.0, 0.0, 0.0, 0.0, 0.0],
353 [0.0, (q_vel**2.0), 0.0, 0.0, 0.0, 0.0, 0.0],
354 [0.0, 0.0, (q_pos**2.0), 0.0, 0.0, 0.0, 0.0],
355 [0.0, 0.0, 0.0, (q_vel**2.0), 0.0, 0.0, 0.0],
356 [0.0, 0.0, 0.0, 0.0, (q_voltage**2.0), 0.0, 0.0],
357 [0.0, 0.0, 0.0, 0.0, 0.0, (q_voltage**2.0), 0.0],
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]358 [0.0, 0.0, 0.0, 0.0, 0.0, 0.0, (q_encoder_uncertainty**2.0)]])
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]359
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]360 r_pos = 0.0001
361 r_gyro = 0.000001
362 if self.has_imu:
363 r_accelerometer = 7.0
364 self.R = numpy.matrix([[(r_pos**2.0), 0.0, 0.0, 0.0],
365 [0.0, (r_pos**2.0), 0.0, 0.0],
366 [0.0, 0.0, (r_gyro**2.0), 0.0],
367 [0.0, 0.0, 0.0, (r_accelerometer**2.0)]])
368 else:
369 self.R = numpy.matrix([[(r_pos**2.0), 0.0, 0.0],
370 [0.0, (r_pos**2.0), 0.0],
371 [0.0, 0.0, (r_gyro**2.0)]])
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]372
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]373 # Solving for kf gains.
374 self.KalmanGain, self.Q_steady = controls.kalman(
375 A=self.A, B=self.B, C=self.C, Q=self.Q, R=self.R)
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]376
James Kuszmaul4d752d52019-02-09 17:27:55 -0800[diff] [blame]377 # If we don't have an IMU, pad various matrices with zeros so that
378 # we can still have 4 measurement outputs.
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]379 if not self.has_imu:
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]380 self.KalmanGain = numpy.hstack((self.KalmanGain,
381 numpy.matrix(numpy.zeros((7, 1)))))
Austin Schuhecc92a02019-01-20 17:42:19 -0800[diff] [blame]382 self.C = numpy.vstack((self.C, numpy.matrix(numpy.zeros((1, 7)))))
383 self.D = numpy.vstack((self.D, numpy.matrix(numpy.zeros((1, 2)))))
James Kuszmaul4d752d52019-02-09 17:27:55 -0800[diff] [blame]384 Rtmp = numpy.zeros((4, 4))
385 Rtmp[0:3, 0:3] = self.R
386 self.R = Rtmp
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]387
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]388 self.L = self.A * self.KalmanGain
389
390 unaug_K = self.K
391
392 # Implement a nice closed loop controller for use by the closed loop
393 # controller.
394 self.K = numpy.matrix(numpy.zeros((self.B.shape[1], self.A.shape[0])))
395 self.K[0:2, 0:4] = unaug_K
396 if self.force:
397 self.K[0, 4] = 1.0 / self.mpl
398 self.K[1, 5] = 1.0 / self.mpr
399 else:
400 self.K[0, 4] = 1.0
401 self.K[1, 5] = 1.0
402
403 self.Qff = numpy.matrix(numpy.zeros((4, 4)))
404 qff_pos = 0.005
405 qff_vel = 1.00
406 self.Qff[0, 0] = 1.0 / qff_pos**2.0
407 self.Qff[1, 1] = 1.0 / qff_vel**2.0
408 self.Qff[2, 2] = 1.0 / qff_pos**2.0
409 self.Qff[3, 3] = 1.0 / qff_vel**2.0
410 self.Kff = numpy.matrix(numpy.zeros((2, 7)))
411 self.Kff[0:2, 0:4] = controls.TwoStateFeedForwards(
412 self.B[0:4, :], self.Qff)
413
414 self.InitializeState()
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]415
416
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]417def WriteDrivetrain(drivetrain_files,
418 kf_drivetrain_files,
419 year_namespace,
420 drivetrain_params,
421 scalar_type='double'):
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]422
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]423 # Write the generated constants out to a file.
424 drivetrain_low_low = Drivetrain(
425 name="DrivetrainLowLow",
426 left_low=True,
427 right_low=True,
428 drivetrain_params=drivetrain_params)
429 drivetrain_low_high = Drivetrain(
430 name="DrivetrainLowHigh",
431 left_low=True,
432 right_low=False,
433 drivetrain_params=drivetrain_params)
434 drivetrain_high_low = Drivetrain(
435 name="DrivetrainHighLow",
436 left_low=False,
437 right_low=True,
438 drivetrain_params=drivetrain_params)
439 drivetrain_high_high = Drivetrain(
440 name="DrivetrainHighHigh",
441 left_low=False,
442 right_low=False,
443 drivetrain_params=drivetrain_params)
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]444
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]445 kf_drivetrain_low_low = KFDrivetrain(
446 name="KFDrivetrainLowLow",
447 left_low=True,
448 right_low=True,
449 drivetrain_params=drivetrain_params)
450 kf_drivetrain_low_high = KFDrivetrain(
451 name="KFDrivetrainLowHigh",
452 left_low=True,
453 right_low=False,
454 drivetrain_params=drivetrain_params)
455 kf_drivetrain_high_low = KFDrivetrain(
456 name="KFDrivetrainHighLow",
457 left_low=False,
458 right_low=True,
459 drivetrain_params=drivetrain_params)
460 kf_drivetrain_high_high = KFDrivetrain(
461 name="KFDrivetrainHighHigh",
462 left_low=False,
463 right_low=False,
464 drivetrain_params=drivetrain_params)
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]465
Austin Schuhbcce26a2018-03-26 23:41:24 -0700[diff] [blame]466 if isinstance(year_namespace, list):
Austin Schuhecc92a02019-01-20 17:42:19 -0800[diff] [blame]467 namespaces = year_namespace
Austin Schuhbcce26a2018-03-26 23:41:24 -0700[diff] [blame]468 else:
Austin Schuhecc92a02019-01-20 17:42:19 -0800[diff] [blame]469 namespaces = [year_namespace, 'control_loops', 'drivetrain']
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]470 dog_loop_writer = control_loop.ControlLoopWriter(
471 "Drivetrain", [
472 drivetrain_low_low, drivetrain_low_high, drivetrain_high_low,
473 drivetrain_high_high
474 ],
Austin Schuhbcce26a2018-03-26 23:41:24 -0700[diff] [blame]475 namespaces=namespaces,
476 scalar_type=scalar_type)
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]477 dog_loop_writer.AddConstant(
478 control_loop.Constant("kDt", "%f", drivetrain_low_low.dt))
479 dog_loop_writer.AddConstant(
480 control_loop.Constant("kStallTorque", "%f",
481 drivetrain_low_low.stall_torque))
482 dog_loop_writer.AddConstant(
483 control_loop.Constant("kStallCurrent", "%f",
484 drivetrain_low_low.stall_current))
485 dog_loop_writer.AddConstant(
486 control_loop.Constant("kFreeSpeed", "%f",
487 drivetrain_low_low.free_speed))
488 dog_loop_writer.AddConstant(
489 control_loop.Constant("kFreeCurrent", "%f",
490 drivetrain_low_low.free_current))
491 dog_loop_writer.AddConstant(
492 control_loop.Constant("kJ", "%f", drivetrain_low_low.J))
493 dog_loop_writer.AddConstant(
494 control_loop.Constant("kMass", "%f", drivetrain_low_low.mass))
495 dog_loop_writer.AddConstant(
496 control_loop.Constant("kRobotRadius", "%f",
497 drivetrain_low_low.robot_radius))
498 dog_loop_writer.AddConstant(
499 control_loop.Constant("kWheelRadius", "%f", drivetrain_low_low.r))
500 dog_loop_writer.AddConstant(
501 control_loop.Constant("kR", "%f", drivetrain_low_low.resistance))
502 dog_loop_writer.AddConstant(
503 control_loop.Constant("kV", "%f", drivetrain_low_low.Kv))
504 dog_loop_writer.AddConstant(
505 control_loop.Constant("kT", "%f", drivetrain_low_low.Kt))
506 dog_loop_writer.AddConstant(
507 control_loop.Constant("kLowGearRatio", "%f", drivetrain_low_low.G_low))
508 dog_loop_writer.AddConstant(
509 control_loop.Constant("kHighGearRatio", "%f",
510 drivetrain_high_high.G_high))
511 dog_loop_writer.AddConstant(
512 control_loop.Constant(
513 "kHighOutputRatio", "%f",
514 drivetrain_high_high.G_high * drivetrain_high_high.r))
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]515
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]516 dog_loop_writer.Write(drivetrain_files[0], drivetrain_files[1])
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]517
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]518 kf_loop_writer = control_loop.ControlLoopWriter(
519 "KFDrivetrain", [
520 kf_drivetrain_low_low, kf_drivetrain_low_high,
521 kf_drivetrain_high_low, kf_drivetrain_high_high
522 ],
Austin Schuhbcce26a2018-03-26 23:41:24 -0700[diff] [blame]523 namespaces=namespaces,
524 scalar_type=scalar_type)
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]525 kf_loop_writer.Write(kf_drivetrain_files[0], kf_drivetrain_files[1])
526
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]527
528def PlotDrivetrainMotions(drivetrain_params):
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]529 # Simulate the response of the system to a step input.
530 drivetrain = Drivetrain(
531 left_low=False, right_low=False, drivetrain_params=drivetrain_params)
532 simulated_left = []
533 simulated_right = []
534 for _ in xrange(100):
535 drivetrain.Update(numpy.matrix([[12.0], [12.0]]))
536 simulated_left.append(drivetrain.X[0, 0])
537 simulated_right.append(drivetrain.X[2, 0])
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]538
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]539 pylab.rc('lines', linewidth=4)
540 pylab.plot(range(100), simulated_left, label='left position')
541 pylab.plot(range(100), simulated_right, 'r--', label='right position')
542 pylab.suptitle('Acceleration Test\n12 Volt Step Input')
543 pylab.legend(loc='lower right')
544 pylab.show()
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]545
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]546 # Simulate forwards motion.
547 drivetrain = Drivetrain(
548 left_low=False, right_low=False, drivetrain_params=drivetrain_params)
549 close_loop_left = []
550 close_loop_right = []
551 left_power = []
552 right_power = []
553 R = numpy.matrix([[1.0], [0.0], [1.0], [0.0]])
554 for _ in xrange(300):
555 U = numpy.clip(drivetrain.K * (R - drivetrain.X_hat), drivetrain.U_min,
556 drivetrain.U_max)
557 drivetrain.UpdateObserver(U)
558 drivetrain.Update(U)
559 close_loop_left.append(drivetrain.X[0, 0])
560 close_loop_right.append(drivetrain.X[2, 0])
561 left_power.append(U[0, 0])
562 right_power.append(U[1, 0])
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]563
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]564 pylab.plot(range(300), close_loop_left, label='left position')
565 pylab.plot(range(300), close_loop_right, 'm--', label='right position')
566 pylab.plot(range(300), left_power, label='left power')
567 pylab.plot(range(300), right_power, '--', label='right power')
568 pylab.suptitle('Linear Move\nLeft and Right Position going to 1')
569 pylab.legend()
570 pylab.show()
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]571
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]572 # Try turning in place
573 drivetrain = Drivetrain(drivetrain_params=drivetrain_params)
574 close_loop_left = []
575 close_loop_right = []
576 R = numpy.matrix([[-1.0], [0.0], [1.0], [0.0]])
577 for _ in xrange(200):
578 U = numpy.clip(drivetrain.K * (R - drivetrain.X_hat), drivetrain.U_min,
579 drivetrain.U_max)
580 drivetrain.UpdateObserver(U)
581 drivetrain.Update(U)
582 close_loop_left.append(drivetrain.X[0, 0])
583 close_loop_right.append(drivetrain.X[2, 0])
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]584
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]585 pylab.plot(range(200), close_loop_left, label='left position')
586 pylab.plot(range(200), close_loop_right, label='right position')
587 pylab.suptitle(
Tyler Chatow6738c362019-02-16 14:12:30 -0800[diff] [blame]588 'Angular Move\nLeft position going to -1 and right position going to 1')
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]589 pylab.legend(loc='center right')
590 pylab.show()
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]591
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]592 # Try turning just one side.
593 drivetrain = Drivetrain(drivetrain_params=drivetrain_params)
594 close_loop_left = []
595 close_loop_right = []
596 R = numpy.matrix([[0.0], [0.0], [1.0], [0.0]])
597 for _ in xrange(300):
598 U = numpy.clip(drivetrain.K * (R - drivetrain.X_hat), drivetrain.U_min,
599 drivetrain.U_max)
600 drivetrain.UpdateObserver(U)
601 drivetrain.Update(U)
602 close_loop_left.append(drivetrain.X[0, 0])
603 close_loop_right.append(drivetrain.X[2, 0])
Campbell Crowley33e0e3d2017-12-27 17:55:40 -0800[diff] [blame]604
Diana Burgessd0180f12018-03-21 21:24:17 -0700[diff] [blame]605 pylab.plot(range(300), close_loop_left, label='left position')
606 pylab.plot(range(300), close_loop_right, label='right position')
607 pylab.suptitle(
608 'Pivot\nLeft position not changing and right position going to 1')
609 pylab.legend(loc='center right')
610 pylab.show()