DroneXControllerService.h 17.5 KB
Newer Older
pragash1's avatar
pragash1 committed
1
//    Copyright (C) 2017, ETH Zurich, D-ITET, Paul Beuchat
2
3
//
//    This file is part of D-FaLL-System.
pragash1's avatar
pragash1 committed
4
//
5
6
7
8
//    D-FaLL-System is free software: you can redistribute it and/or modify
//    it under the terms of the GNU General Public License as published by
//    the Free Software Foundation, either version 3 of the License, or
//    (at your option) any later version.
pragash1's avatar
pragash1 committed
9
//
10
11
12
13
//    D-FaLL-System is distributed in the hope that it will be useful,
//    but WITHOUT ANY WARRANTY; without even the implied warranty of
//    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
//    GNU General Public License for more details.
pragash1's avatar
pragash1 committed
14
//
15
16
//    You should have received a copy of the GNU General Public License
//    along with D-FaLL-System.  If not, see <http://www.gnu.org/licenses/>.
pragash1's avatar
pragash1 committed
17
//
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
//
//    ----------------------------------------------------------------------------------
//    DDDD        FFFFF        L     L           SSSS  Y   Y   SSSS  TTTTT  EEEEE  M   M
//    D   D       F      aaa   L     L          S       Y Y   S        T    E      MM MM
//    D   D  ---  FFFF  a   a  L     L     ---   SSS     Y     SSS     T    EEE    M M M
//    D   D       F     a  aa  L     L              S    Y        S    T    E      M   M
//    DDDD        F      aa a  LLLL  LLLL       SSSS     Y    SSSS     T    EEEEE  M   M
//
//
//    DESCRIPTION:
//    Place for students to implement their controller
//
//    ----------------------------------------------------------------------------------





//    ----------------------------------------------------------------------------------
//    III  N   N   CCCC  L      U   U  DDDD   EEEEE   SSSS
//     I   NN  N  C      L      U   U  D   D  E      S
//     I   N N N  C      L      U   U  D   D  EEE     SSS
//     I   N  NN  C      L      U   U  D   D  E          S
//    III  N   N   CCCC  LLLLL   UUU   DDDD   EEEEE  SSSS
//    ----------------------------------------------------------------------------------

// These various headers need to be included so that this controller service can be
// connected with the D-FaLL system.

//some useful libraries
#include <math.h>
#include <stdlib.h>
#include "ros/ros.h"
#include <ros/package.h>

//the generated structs from the msg-files have to be included
#include "d_fall_pps/ViconData.h"
#include "d_fall_pps/Setpoint.h"
#include "d_fall_pps/ControlCommand.h"
#include "d_fall_pps/Controller.h"
#include "d_fall_pps/DebugMsg.h"
#include "d_fall_pps/CustomButton.h"

// Include the Parameter Service shared definitions
#include "nodes/ParameterServiceDefinitions.h"

#include <std_msgs/Int32.h>
pragash1's avatar
pragash1 committed
65
#include <std_msgs/Float32.h>
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83





//    ----------------------------------------------------------------------------------
//    DDDD   EEEEE  FFFFF  III  N   N  EEEEE   SSSS
//    D   D  E      F       I   NN  N  E      S
//    D   D  EEE    FFF     I   N N N  EEE     SSS
//    D   D  E      F       I   N  NN  E          S
//    DDDD   EEEEE  F      III  N   N  EEEEE  SSSS
//    ----------------------------------------------------------------------------------

// These constants are defined to make the code more readable and adaptable.

// Universal constants
#define PI 3.1415926535

pragash1's avatar
pragash1 committed
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
#define RAD2DEG 180.0/PI
#define DEG2RAD PI/180.0



// FOR WHICH BUTTON WAS PRESSED IN THE DRONEX CONTOLLER
#define DRONEX_BUTTON_GOTOSTART     1
#define DRONEX_BUTTON_CONNECT       2
#define DRONEX_BUTTON_PICKUP        3
#define DRONEX_BUTTON_GOTOEND       4
#define DRONEX_BUTTON_PUTDOWN       5
#define DRONEX_BUTTON_SQUAT         6
#define DRONEX_BUTTON_DISCONNECT    7
#define DRONEX_TAKE_OFF             8
#define DRONEX_LAND                 9
pragash1's avatar
pragash1 committed
99
#define DRONEX_ABORT                10
pragash1's avatar
pragash1 committed
100
101
102
103
104
105

#define DRONEX_BUTTON_1             11
#define DRONEX_BUTTON_2             12
#define DRONEX_BUTTON_3             13
#define DRONEX_BUTTON_4             14

pragash1's avatar
pragash1 committed
106
107
108
109
110
111
112
113
#define DRONEX_STATE_GROUND			        0
#define DRONEX_STATE_TAKING_OFF		      1
#define DRONEX_STATE_LAND_ON_GROUND		  2
#define DRONEX_STATE_APPROACH		        3
#define DRONEX_STATE_HOVER              4
#define DRONEX_STATE_LAND_ON_MOTHERSHIP 5
#define DRONEX_STATE_ON_MOTHERSHIP      6

114

pragash1's avatar
pragash1 committed
115

116
117
118
119
120
121
122
123
124
125
126
127
128
129
// These constants define the modes that can be used for controller the Crazyflie 2.0,
// the constants defined here need to be in agreement with those defined in the
// firmware running on the Crazyflie 2.0.
// The following is a short description about each mode:
// MOTOR_MODE    In this mode the Crazyflie will apply the requested 16-bit per motor
//               command directly to each of the motors
// RATE_MODE     In this mode the Crazyflie will apply the requested 16-bit per motor
//               command directly to each of the motors, and additionally request the
//               body frame roll, pitch, and yaw angular rates from the PID rate
//               controllers implemented in the Crazyflie 2.0 firmware.
// ANGE_MODE     In this mode the Crazyflie will apply the requested 16-bit per motor
//               command directly to each of the motors, and additionally request the
//               body frame roll, pitch, and yaw angles from the PID attitude
//               controllers implemented in the Crazyflie 2.0 firmware.
pragash1's avatar
pragash1 committed
130
131
132
133
134
135
136
137
#define CF_COMMAND_TYPE_MOTOR   6
#define CF_COMMAND_TYPE_RATE    7
#define CF_COMMAND_TYPE_ANGLE   8

// These constants define the method used for estimating the Inertial
// frame state.
// All methods are run at all times, this flag indicates which estimate
// is passed onto the controller.
138
139
// The following is a short description about each mode:
//
pragash1's avatar
pragash1 committed
140
141
142
143
144
145
146
147
148
149
150
// ESTIMATOR_METHOD_FINITE_DIFFERENCE
//       Takes the poisition and angles directly as measured,
//       and estimates the velocities as a finite different to the
//       previous measurement
//
// ESTIMATOR_METHOD_POINT_MASS_PER_DIMENSION
//       Uses a 2nd order random walk estimator independently for
//       each of (x,y,z,roll,pitch,yaw)
//
// ESTIMATOR_METHOD_QUADROTOR_MODEL_BASED
//       Uses the model of the quad-rotor and the previous inputs
151
//
pragash1's avatar
pragash1 committed
152
153
154
155
#define ESTIMATOR_METHOD_FINITE_DIFFERENCE          1
#define ESTIMATOR_METHOD_POINT_MASS_PER_DIMENSION   2   // (DEFAULT)
#define ESTIMATOR_METHOD_QUADROTOR_MODEL_BASED      3

156
157
158
159
160
// Flying states
#define STATE_MOTORS_OFF 1
#define STATE_TAKE_OFF   2
#define STATE_FLYING     3
#define STATE_LAND       4
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176

// Namespacing the package
using namespace d_fall_pps;





//    ----------------------------------------------------------------------------------
//    V   V    A    RRRR   III    A    BBBB   L      EEEEE   SSSS
//    V   V   A A   R   R   I    A A   B   B  L      E      S
//    V   V  A   A  RRRR    I   A   A  BBBB   L      EEE     SSS
//     V V   AAAAA  R  R    I   AAAAA  B   B  L      E          S
//      V    A   A  R   R  III  A   A  BBBB   LLLLL  EEEEE  SSSS
//    ----------------------------------------------------------------------------------

pragash1's avatar
pragash1 committed
177
178
179
// Current time
int m_time_ticks = 0;
float m_time_seconds;
180

pragash1's avatar
pragash1 committed
181
182
// > Mass of the Crazyflie quad-rotor, in [grams]
float m_mass_CF_grams;
183

184
Setpoint dronexSetpoint;
pragash1's avatar
pragash1 committed
185
int flying_state = DRONEX_STATE_GROUND;
186

187

188
189
//describes the area of the crazyflie and other parameters
//CrazyflieContext context;
190

pragash1's avatar
pragash1 committed
191
192
// > Total mass of the Crazyflie plus whatever it is carrying, in [grams]
float m_mass_total_grams;
193

pragash1's avatar
pragash1 committed
194
195
196
197
198
199
200
201
202
203

// > The setpoints for (x,y,z) position and yaw angle, in that order
float m_setpoint[4] = {0.0,0.0,0.4,0.0};
float m_setpoint_for_controller[4] = {0.0,0.0,0.4,0.0};

// > Small adjustments to the x-y setpoint
float m_xAdjustment = 0.0f;
float m_yAdjustment = 0.0f;

// Boolean for whether to limit rate of change of the setpoint
204
bool m_shouldSmoothSetpointChanges = false;
pragash1's avatar
pragash1 committed
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258

// Max setpoint change per second
float m_max_setpoint_change_per_second_horizontal;
float m_max_setpoint_change_per_second_vertical;
float m_max_setpoint_change_per_second_yaw_degrees;
float m_max_setpoint_change_per_second_yaw_radians;


// Frequency at which the controller is running
float m_vicon_frequency;


// THE FOLLOWING PARAMETERS ARE USED
// FOR THE LOW-LEVEL CONTROLLER

// Frequency at which the controller is running
float control_frequency;

// > Coefficients of the 16-bit command to thrust conversion
std::vector<float> motorPoly(3);

// The LQR Controller parameters for "CONTROLLER_MODE_LQR_RATE"
std::vector<float> gainMatrixThrust_NineStateVector (9,0.0);
std::vector<float> gainMatrixRollRate               (9,0.0);
std::vector<float> gainMatrixPitchRate              (9,0.0);
std::vector<float> gainMatrixYawRate                (9,0.0);

// The 16-bit command limits
float cmd_sixteenbit_min;
float cmd_sixteenbit_max;


// VARIABLES FOR THE ESTIMATOR

// Frequency at which the controller is running
float estimator_frequency;

// > A flag for which estimator to use:
int estimator_method = ESTIMATOR_METHOD_FINITE_DIFFERENCE;
// > The current state interial estimate,
//   for use by the controller
float current_stateInertialEstimate[12];

// > The measurement of the Crazyflie at the "current" time step,
//   to avoid confusion
float current_xzy_rpy_measurement[6];

// > The measurement of the Crazyflie at the "previous" time step,
//   used for computing finite difference velocities
float previous_xzy_rpy_measurement[6];

// > The full 12 state estimate maintained by the finite
//   difference state estimator
float stateInterialEstimate_viaFiniteDifference[12];
259

pragash1's avatar
pragash1 committed
260
261
262
// > The full 12 state estimate maintained by the point mass
//   kalman filter state estimator
float stateInterialEstimate_viaPointMassKalmanFilter[12];
263

pragash1's avatar
pragash1 committed
264
265
266
267
268
269
270
271
272
273
274
275
276
// THE POINT MASS KALMAN FILTER (PMKF) GAINS AND ERROR EVOLUATION
// > For the (x,y,z) position
std::vector<float> PMKF_Ahat_row1_for_positions (2,0.0);
std::vector<float> PMKF_Ahat_row2_for_positions (2,0.0);
std::vector<float> PMKF_Kinf_for_positions      (2,0.0);
// > For the (roll,pitch,yaw) angles
std::vector<float> PMKF_Ahat_row1_for_angles    (2,0.0);
std::vector<float> PMKF_Ahat_row2_for_angles    (2,0.0);
std::vector<float> PMKF_Kinf_for_angles         (2,0.0);



// VARIABLES FOR THE NAMESPACES FOR THE PARAMETER SERVICES
277
278
279
280
281
// > For the paramter service of this agent
std::string namespace_to_own_agent_parameter_service;
// > For the parameter service of the coordinator
std::string namespace_to_coordinator_parameter_service;

pragash1's avatar
pragash1 committed
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304

// ROS PUBLISHER FOR SENDING OUT THE DEBUG MESSAGES
ros::Publisher debugPublisher;


// VARIABLES RELATING TO PERFORMING THE CONVERSION INTO BODY FRAME

// Boolean whether to execute the convert into body frame function
bool shouldPerformConvertIntoBodyFrame = false;


// VARIABLES RELATING TO THE PUBLISHING OF A DEBUG MESSAGE

// Boolean indiciating whether the "Debug Message" of this agent should be published or not
bool shouldPublishDebugMessage = false;

// Boolean indiciating whether the debugging ROS_INFO_STREAM should be displayed or not
bool shouldDisplayDebugInfo = false;


// VARIABLES RELATING TO PUBLISHING CURRENT POSITION AND FOLLOWING ANOTHER AGENT'S
// POSITION

305
306
307
// The ID of this agent, i.e., the ID of this compute
int my_agentID = 0;

pragash1's avatar
pragash1 committed
308
309
310
311
312
313
314
315
316
317
318
// Boolean indicating whether the (x,y,z,yaw) of this agent should be published or not
// > The default behaviour is: do not publish,
// > This varaible is changed based on parameters loaded from the YAML file
bool shouldPublishCurrent_xyz_yaw = false;


// ROS Publisher for my current (x,y,z,yaw) position
ros::Publisher my_current_xyz_yaw_publisher;

// ROS Publisher for the current setpoint
ros::Publisher dronexSetpointToGUIPublisher;
319
320
// publisher for flying state
ros::Publisher flyingStatePublisher;
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359

// RELEVANT NOTES ABOUT THE VARIABLES DECLARE HERE:
// The "CrazyflieData" type used for the "request" variable is a
// structure as defined in the file "CrazyflieData.msg" which has the following
// properties:
//     string crazyflieName              The name given to the Crazyflie in the Vicon software
//     float64 x                         The x position of the Crazyflie [metres]
//     float64 y                         The y position of the Crazyflie [metres]
//     float64 z                         The z position of the Crazyflie [metres]
//     float64 roll                      The roll component of the intrinsic Euler angles [radians]
//     float64 pitch                     The pitch component of the intrinsic Euler angles [radians]
//     float64 yaw                       The yaw component of the intrinsic Euler angles [radians]
//     float64 acquiringTime #delta t    The time elapsed since the previous "CrazyflieData" was received [seconds]
//     bool occluded                     A boolean indicted whether the Crazyflie for visible at the time of this measurement





//    ----------------------------------------------------------------------------------
//    FFFFF  U   U  N   N   CCCC  TTTTT  III   OOO   N   N
//    F      U   U  NN  N  C        T     I   O   O  NN  N
//    FFF    U   U  N N N  C        T     I   O   O  N N N
//    F      U   U  N  NN  C        T     I   O   O  N  NN
//    F       UUU   N   N   CCCC    T    III   OOO   N   N
//
//    PPPP   RRRR    OOO   TTTTT   OOO   TTTTT  Y   Y  PPPP   EEEEE   SSSS
//    P   P  R   R  O   O    T    O   O    T     Y Y   P   P  E      S
//    PPPP   RRRR   O   O    T    O   O    T      Y    PPPP   EEE     SSS
//    P      R  R   O   O    T    O   O    T      Y    P      E          S
//    P      R   R   OOO     T     OOO     T      Y    P      EEEEE  SSSS
//    ----------------------------------------------------------------------------------

// These function prototypes are not strictly required for this code to complile, but
// adding the function prototypes here means the the functions can be written below in
// any order. If the function prototypes are not included then the function need to
// written below in an order that ensure each function is implemented before it is
// called from another function, hence why the "main" function is at the bottom.

pragash1's avatar
pragash1 committed
360
361
362
363
364
365

// ADDED FOR THE DRONEX
void perControlCycleOperations();

// CALLBACK FROM ROS MESSAGES RECEIVED
void buttonPressedCallback(const std_msgs::Int32& msg);
mastefan's avatar
mastefan committed
366
void dronexCoordinateCallback(const ViconData& viconData);
367
368
//void coordinatesToLocal(CrazyflieData& cf);

pragash1's avatar
pragash1 committed
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385

// SEPARATE CALLBACK FUNCTIONS FOR EACH BUTTON
void buttonPressed_gotoStart();
void buttonPressed_connect();
void buttonPressed_pickup();
void buttonPressed_gotoEnd();
void buttonPressed_putdown();
void buttonPressed_squat();
void buttonPressed_disconnect();

void buttonPressed_1();
void buttonPressed_2();
void buttonPressed_3();
void buttonPressed_4();

void buttonPressed_take_off();
void buttonPressed_land();
pragash1's avatar
pragash1 committed
386
void buttonPressed_abort();
pragash1's avatar
pragash1 committed
387
388
389



pragash1's avatar
pragash1 committed
390
void motorsOFF(Controller::Response &response);
pragash1's avatar
pragash1 committed
391

392
// CONTROLLER COMPUTATIONS
pragash1's avatar
pragash1 committed
393
// > The function that is called to "start" all estimation and control computations
394
395
bool calculateControlOutput(Controller::Request &request, Controller::Response &response);

pragash1's avatar
pragash1 committed
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
// > The various functions that implement an LQR controller
void calculateControlOutput_viaLQR(                     float stateErrorBody[12], Controller::Request &request, Controller::Response &response);
void calculateControlOutput_viaLQRforMotors(            float stateErrorBody[12], Controller::Request &request, Controller::Response &response);
void calculateControlOutput_viaLQRforActuators(         float stateErrorBody[12], Controller::Request &request, Controller::Response &response);
void calculateControlOutput_viaLQRforRates(             float stateErrorBody[12], Controller::Request &request, Controller::Response &response);
void calculateControlOutput_viaLQRforAngles(            float stateErrorBody[12], Controller::Request &request, Controller::Response &response);
void calculateControlOutput_viaLQRforAnglesRatesNested( float stateErrorBody[12], Controller::Request &request, Controller::Response &response);
void calculateControlOutput_viaAngleResponseTest(       float stateErrorBody[12], Controller::Request &request, Controller::Response &response);

// ESTIMATOR COMPUTATIONS
void performEstimatorUpdate_forStateInterial(Controller::Request &request);
void performEstimatorUpdate_forStateInterial_viaFiniteDifference();
void performEstimatorUpdate_forStateInterial_viaPointMassKalmanFilter();


// PUBLISHING OF THE DEBUG MESSAGE
void construct_and_publish_debug_message(Controller::Request &request, Controller::Response &response);


// TRANSFORMATION FROM INTERIAL ESTIMATE TO BODY FRAME ERROR
void convert_stateInertial_to_bodyFrameError(float stateInertial[12], float setpoint[4], float (&bodyFrameError)[12]);

418
// TRANSFORMATION OF THE (x,y) INERTIAL FRAME ERROR INTO AN (x,y) BODY FRAME ERROR
pragash1's avatar
pragash1 committed
419
void convertIntoBodyFrame(float stateInertial[12], float (&stateBody)[12], float yaw_measured);
420
421
422
423
424
425

// CONVERSION FROM THRUST IN NEWTONS TO 16-BIT COMMAND
float computeMotorPolyBackward(float thrust);

// SETPOINT CHANGE CALLBACK
void setpointCallback(const Setpoint& newSetpoint);
pragash1's avatar
pragash1 committed
426
427
428
void xyz_yaw_to_follow_callback(const Setpoint& newSetpoint);

void publishCurrentSetpoint();
429
430

// CUSTOM COMMAND RECEIVED CALLBACK
pragash1's avatar
pragash1 committed
431
432
433
434
//void customCommandReceivedCallback(const CustomButton& commandReceived);

// PUBLISH THE CURRENT X,Y,Z, AND YAW
void publish_current_xyz_yaw(float x, float y, float z, float yaw);
435
436
437

// LOAD PARAMETERS
float getParameterFloat(ros::NodeHandle& nodeHandle, std::string name);
pragash1's avatar
pragash1 committed
438
439
440
441
442
void  getParameterFloatVector(ros::NodeHandle& nodeHandle, std::string name, std::vector<float>& val, int length);
int   getParameterInt(ros::NodeHandle& nodeHandle, std::string name);
void  getParameterIntVectorWithKnownLength(ros::NodeHandle& nodeHandle, std::string name, std::vector<int>& val, int length);
int   getParameterIntVectorWithUnknownLength(ros::NodeHandle& nodeHandle, std::string name, std::vector<int>& val);
bool  getParameterBool(ros::NodeHandle& nodeHandle, std::string name);
443
444
445
446

void yamlReadyForFetchCallback(const std_msgs::Int32& msg);
void fetchYamlParameters(ros::NodeHandle& nodeHandle);
void processFetchedParameters();