amiro-os / components / MotorControl.cpp @ ba75ee1d
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1 | 58fe0e0b | Thomas Schöpping | #include <ch.hpp> |
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2 | #include <hal.h> |
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3 | |||
4 | #include <qei.h> |
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5 | #include <chprintf.h> |
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6 | #include <amiro/MotorControl.h> |
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7 | #include <global.hpp> |
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8 | |||
9 | using namespace chibios_rt; |
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10 | using namespace amiro; |
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11 | using namespace types; |
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12 | using namespace constants; |
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13 | using namespace constants::DiWheelDrive; |
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14 | |||
15 | float MotorControl::wheelDiameterCorrectionFactor[2] = {1.0f, 1.0f}; |
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16 | float MotorControl::actualWheelBaseDistanceSI = wheelBaseDistanceSI;
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17 | extern Global global;
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18 | |||
19 | MotorControl::MotorControl(PWMDriver* pwm, MotorIncrements* mi, GPIO_TypeDef* port, int pad, fileSystemIo::FSIODiWheelDrive *memory)
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20 | : BaseStaticThread<512>(),
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21 | pwmDriver(pwm), |
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22 | motorIncrements(mi), |
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23 | powerEnablePort(port), |
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24 | powerEnablePad(pad), |
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25 | eventSource(), |
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26 | period(10),
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27 | memory(memory) { |
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28 | |||
29 | this->pwmConfig.frequency = 7200000; |
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30 | this->pwmConfig.period = 360; |
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31 | this->pwmConfig.callback = NULL; |
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32 | this->pwmConfig.channels[0].mode = PWM_OUTPUT_ACTIVE_HIGH; |
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33 | this->pwmConfig.channels[0].callback = NULL; |
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34 | this->pwmConfig.channels[1].mode = PWM_OUTPUT_ACTIVE_HIGH; |
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35 | this->pwmConfig.channels[1].callback = NULL; |
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36 | this->pwmConfig.channels[2].mode = PWM_OUTPUT_ACTIVE_HIGH; |
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37 | this->pwmConfig.channels[2].callback = NULL; |
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38 | this->pwmConfig.channels[3].mode = PWM_OUTPUT_ACTIVE_HIGH; |
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39 | this->pwmConfig.channels[3].callback = NULL; |
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40 | this->pwmConfig.cr2 = 0; |
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41 | |||
42 | this->increment[0] = 0; |
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43 | this->increment[1] = 0; |
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44 | |||
45 | this->errorSum[0] = 0; |
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46 | this->errorSum[1] = 0; |
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47 | |||
48 | this->errorSumDiff = 0; |
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49 | |||
50 | // Init the velocities
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51 | this->currentVelocity.x = 0; |
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52 | this->currentVelocity.y = 0; |
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53 | this->currentVelocity.z = 0; |
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54 | this->currentVelocity.w_x = 0; |
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55 | this->currentVelocity.w_y = 0; |
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56 | this->currentVelocity.w_z = 0; |
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57 | this->targetVelocity.x = 0; |
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58 | this->targetVelocity.w_z = 0; |
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59 | |||
60 | this->newTargetVelocities = false; |
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61 | this->lastVelocitiesV[0] = 0; |
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62 | this->lastVelocitiesV[1] = 0; |
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63 | this->lastVelocitiesV[2] = 0; |
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64 | this->lastVelocitiesV[3] = 0; |
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65 | this->lastVelocitiesV[4] = 0; |
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66 | this->lastVelocitiesV[5] = 0; |
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67 | |||
68 | this->newTargetVelocities = true; |
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69 | |||
70 | // calibration stuff;
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71 | for (int i =0; i<3; i++){ |
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72 | this->leftWValues[i] = i;
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73 | this->rightWValues[i] = i;
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74 | } |
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75 | |||
76 | } |
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77 | |||
78 | int MotorControl::getCurrentRPMLeft() {
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79 | return this->actualSpeed[LEFT_WHEEL]; |
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80 | } |
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81 | |||
82 | int MotorControl::getCurrentRPMRight() {
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83 | return this->actualSpeed[RIGHT_WHEEL]; |
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84 | } |
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85 | |||
86 | kinematic MotorControl::getCurrentVelocity() { |
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87 | return this->currentVelocity; |
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88 | } |
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89 | |||
90 | msg_t MotorControl::setWheelDiameterCorrectionFactor(float Ed /* = 1.0f */, bool_t storeEdToMemory /* = false */) { |
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91 | // cl (Eq. 17a)
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92 | MotorControl::wheelDiameterCorrectionFactor[LEFT_WHEEL] = 2.0f / (Ed + 1.0f); |
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93 | // cl (Eq. 17a)
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94 | MotorControl::wheelDiameterCorrectionFactor[RIGHT_WHEEL] = 2.0f / ((1.0f / Ed) + 1.0f); |
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95 | // Store Ed to memory
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96 | if (storeEdToMemory)
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97 | return memory->setEd(Ed);
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98 | else
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99 | return RDY_OK;
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100 | } |
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101 | |||
102 | msg_t MotorControl::setActualWheelBaseDistance(float Eb /* = 1.0f */, bool_t storeEbToMemory /* = false */) { |
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103 | // bActual (Eq. 4)
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104 | MotorControl::actualWheelBaseDistanceSI = wheelBaseDistanceSI * Eb; |
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105 | // Store Eb to memory
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106 | if (storeEbToMemory)
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107 | return memory->setEb(Eb);
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108 | else
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109 | return RDY_OK;
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110 | } |
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111 | |||
112 | EvtSource* MotorControl::getEventSource() { |
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113 | return &this->eventSource; |
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114 | } |
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115 | |||
116 | void MotorControl::setTargetRPM(int32_t targetURpmLeft, int32_t targetURpmRight) {
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117 | // Velocity in µm/s in x direction
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118 | int32_t targetVelocityX = (wheelCircumferenceSI * (targetURpmLeft + targetURpmRight)) / secondsPerMinute / 2.0f; |
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119 | // Angular velocity around z in µrad/s
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120 | int32_t targetVelocityWz = (wheelCircumferenceSI * (targetURpmRight - targetURpmLeft)) / secondsPerMinute / MotorControl::actualWheelBaseDistanceSI; |
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121 | chSysLock(); |
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122 | this->targetVelocity.x = targetVelocityX;
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123 | this->targetVelocity.w_z = targetVelocityWz;
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124 | this->newTargetVelocities = true; |
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125 | chSysUnlock(); |
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126 | } |
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127 | |||
128 | void MotorControl::setTargetSpeed(const kinematic &targetVelocity) { |
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129 | chSysLock(); |
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130 | this->targetVelocity.x = targetVelocity.x;
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131 | this->targetVelocity.w_z = targetVelocity.w_z;
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132 | this->newTargetVelocities = true; |
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133 | chSysUnlock(); |
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134 | } |
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135 | |||
136 | msg_t MotorControl::main(void) {
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137 | systime_t time = System::getTime(); |
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138 | this->setName("MotorControl"); |
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139 | |||
140 | // load controller parameters from memory
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141 | this->memory->getWheelFactor(&this->motorCalibrationFactor); |
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142 | this->memory->getpGain(&this->pGain); |
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143 | this->memory->getiGain(&this->iGain); |
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144 | this->memory->getdGain(&this->dGain); |
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145 | this->memory->getEb(&this->Eb); |
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146 | this->memory->getEd(&this->Ed); |
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147 | |||
148 | pwmStart(this->pwmDriver, &this->pwmConfig); |
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149 | |||
150 | palSetPad(this->powerEnablePort, this->powerEnablePad); |
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151 | |||
152 | while (!this->shouldTerminate()) { |
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153 | time += MS2ST(this->period);
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154 | |||
155 | // Get the increments from the QEI
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156 | MotorControl::updateIncrements(this->motorIncrements, this->increment, this->incrementDifference); |
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157 | |||
158 | // Get the actual speed from the gathered increments
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159 | MotorControl::updateSpeed(this->incrementDifference, this->actualSpeed, this->period); |
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160 | |||
161 | // Calculate velocities
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162 | this->calcVelocity();
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163 | |||
164 | // updates past velocities for the derivate part of the controller
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165 | updateDerivativeLastVelocities(); |
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166 | |||
167 | controllerAndCalibrationLogic(); |
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168 | |||
169 | // Write the calculated duty cycle to the pwm driver
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170 | this->writePulseWidthModulation();
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171 | |||
172 | chThdSleepUntil(time); |
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173 | |||
174 | delay ++; |
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175 | if (delay > 50){ |
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176 | delay = 0;
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177 | } |
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178 | |||
179 | } |
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180 | |||
181 | // Reset the PWM befor shutdown
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182 | this->pwmPercentage[LEFT_WHEEL] = 0; |
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183 | this->pwmPercentage[RIGHT_WHEEL] = 0; |
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184 | this->writePulseWidthModulation();
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185 | |||
186 | return true; |
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187 | } |
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188 | |||
189 | void MotorControl::controllerAndCalibrationLogic(){
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190 | if (!isCalibrating){
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191 | this->PIDController();
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192 | startedZieglerCalibration = true;
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193 | startedWheelCalibration = true;
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194 | } else {
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195 | if (motorCalibration){
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196 | if (startedWheelCalibration){
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197 | wheelCalibrationTime = System::getTime(); |
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198 | startedWheelCalibration = false;
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199 | } |
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200 | calibrate(); |
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201 | } else {
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202 | this->PIDController();
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203 | this->calibrateZiegler();
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204 | this->updatePastVelocities();
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205 | |||
206 | if (startedZieglerCalibration){
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207 | zieglerCalibrationTime = System::getTime(); |
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208 | startedZieglerCalibration = false;
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209 | } |
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210 | } |
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211 | } |
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212 | } |
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213 | |||
214 | void MotorControl::calibrate() {
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215 | |||
216 | this->pwmPercentage[LEFT_WHEEL] = 3000; |
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217 | this->pwmPercentage[RIGHT_WHEEL] = 3000; |
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218 | |||
219 | this->rightWValues[0] = this->rightWValues[1]; |
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220 | this->rightWValues[1] = this->rightWValues[2]; |
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221 | this->rightWValues[2] = getRightWheelSpeed(); |
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222 | |||
223 | this->leftWValues[0] = this->leftWValues[1]; |
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224 | this->leftWValues[1] = this->leftWValues[2]; |
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225 | this->leftWValues[2] = getLeftWheelSpeed(); |
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226 | |||
227 | |||
228 | if (this->rightWValues[0] == this->rightWValues[1] && |
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229 | this->rightWValues[1] == this->rightWValues[2] && |
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230 | this->leftWValues[0] == this->leftWValues[1] && |
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231 | this->leftWValues[1] == this->leftWValues[2] && |
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232 | System::getTime() - this->wheelCalibrationTime > 1500) { |
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233 | this->motorCalibrationFactor = (float)this->rightWValues[0]/(float)this->leftWValues[0]; |
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234 | |||
235 | f8cf404d | Thomas Schöpping | chprintf((BaseSequentialStream*) &global.sercanmux1, "motorCalibrationFactor = %f \n" ,this->motorCalibrationFactor); |
236 | chprintf((BaseSequentialStream*) &global.sercanmux1, "rw = %i \n" ,this->rightWValues[0]); |
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237 | chprintf((BaseSequentialStream*) &global.sercanmux1, "lw = %i \n" ,this->leftWValues[0]); |
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238 | 58fe0e0b | Thomas Schöpping | |
239 | this->pwmPercentage[LEFT_WHEEL] = 0; |
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240 | this->pwmPercentage[RIGHT_WHEEL] = 0; |
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241 | this->motorCalibration = false; |
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242 | this->memory->setwheelfactor(motorCalibrationFactor);
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243 | } |
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244 | } |
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245 | |||
246 | void MotorControl::calibrateZiegler() {
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247 | |||
248 | this->iGain =0; |
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249 | this->dGain = 0; |
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250 | int nsc = this->getNumberofSignChanges(); |
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251 | |||
252 | if (System::getTime() - this->zieglerCalibrationTime > 1000){ |
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253 | this->zieglerCalibrationTime = System::getTime() ;
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254 | this->ziegler2 =true; |
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255 | } |
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256 | |||
257 | if (ziegler && ziegler2){
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258 | this->targetVelocity.x = 200000 * ((zieglerHelp%2 == 0) ? 1 : -1); |
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259 | this->pGain = 1000 + 100 * zieglerHelp; |
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260 | f8cf404d | Thomas Schöpping | chprintf((BaseSequentialStream*) &global.sercanmux1, "pgain = %i \n" , this->pGain); |
261 | 58fe0e0b | Thomas Schöpping | zieglerHelp++; |
262 | ziegler = false;
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263 | ziegler2 = false;
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264 | } |
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265 | |||
266 | if (!ziegler && ziegler2){
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267 | this->targetVelocity.x = 0; |
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268 | ziegler2= false;
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269 | ziegler = true;
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270 | } |
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271 | |||
272 | if (zieglerHelp > 20){ |
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273 | this->isCalibrating = false; |
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274 | this->targetVelocity.x = 0; |
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275 | this->iGain = 0.08; |
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276 | this->pGain = 1000; |
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277 | } |
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278 | |||
279 | |||
280 | if ( nsc > 8){ |
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281 | zieglerHelp2++; |
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282 | if (zieglerHelp2 > 20){ |
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283 | this->zieglerPeriod = numberOfLastVelocitiesV * this->period / nsc; |
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284 | f8cf404d | Thomas Schöpping | chprintf((BaseSequentialStream*) &global.sercanmux1, "zieglerPeriod = %f \n" ,this->zieglerPeriod); |
285 | 58fe0e0b | Thomas Schöpping | |
286 | this->targetVelocity.x = 0; |
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287 | this->pGain = (int) (this->pGain* 0.6); |
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288 | this->iGain = (float) ((1/(0.5*(this->zieglerPeriod/1000))/this->pGain)); |
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289 | this->dGain = (float) ((1/(0.125*(this->zieglerPeriod/1000))/this->pGain)); |
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290 | this->memory->setpGain(this->pGain); |
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291 | this->memory->setiGain(this->iGain); |
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292 | this->memory->setdGain(this->dGain); |
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293 | f8cf404d | Thomas Schöpping | chprintf((BaseSequentialStream*) &global.sercanmux1, "pgain = %i \n" ,this->pGain); |
294 | chprintf((BaseSequentialStream*) &global.sercanmux1, "igain = %f \n" ,this->iGain); |
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295 | chprintf((BaseSequentialStream*) &global.sercanmux1, "dgain = %f \n" ,this->dGain); |
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296 | 58fe0e0b | Thomas Schöpping | |
297 | this->motorCalibration = true; |
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298 | ziegler = true;
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299 | ziegler2 = true;
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300 | this->isCalibrating = false; |
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301 | zieglerHelp = 0;
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302 | zieglerCalibrationTime = 0;
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303 | zieglerHelp2 = 0;
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304 | |||
305 | for (int i = 0; i< numberOfLastVelocitiesV ; i ++){ |
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306 | lastVelocitiesVBig[i] = 0;
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307 | } |
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308 | } |
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309 | } |
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310 | |||
311 | } |
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312 | |||
313 | void MotorControl::PIDController(){
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314 | |||
315 | //pgain #####################################
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316 | chSysLock(); |
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317 | 29943713 | galberding | |
318 | int diffv = motorEnable ? this->targetVelocity.x - this->currentVelocity.x : 0; |
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319 | int diffw = motorEnable ? this->targetVelocity.w_z - this->currentVelocity.w_z: 0; |
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320 | 58fe0e0b | Thomas Schöpping | chSysUnlock(); |
321 | |||
322 | //igain ####################################
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323 | this->accumulatedErrorV += diffv;
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324 | this->accumulatedErrorW += diffw;
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325 | |||
326 | if (this->accumulatedErrorV > this->antiWindupV) |
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327 | this->accumulatedErrorV = this->antiWindupV; |
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328 | else if (this->accumulatedErrorV < -this->antiWindupV) |
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329 | this->accumulatedErrorV = -this->antiWindupV; |
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330 | |||
331 | if (this->accumulatedErrorW > this->antiWindupW) |
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332 | this->accumulatedErrorW = this->antiWindupW; |
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333 | else if (this->accumulatedErrorW < -this->antiWindupW) |
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334 | this->accumulatedErrorW = -this->antiWindupW; |
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335 | |||
336 | diffv += (int) (this->accumulatedErrorV*this->iGain); |
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337 | diffw += (int) (this->accumulatedErrorW*this->iGain); |
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338 | |||
339 | //dgain ###################################
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340 | int derivativeV;
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341 | int derivativeW;
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342 | int tmp1;
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343 | int tmp2;
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344 | |||
345 | tmp1 = static_cast<int32_t>((lastVelocitiesV[0]+lastVelocitiesV[1]+lastVelocitiesV[2])/3); |
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346 | tmp2 = static_cast<int32_t>((lastVelocitiesV[3]+lastVelocitiesV[4]+lastVelocitiesV[5])/3); |
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347 | derivativeV = static_cast<int32_t> ((tmp2-tmp1)/(int)(this->period)); |
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348 | tmp1 = static_cast<int32_t>((lastVelocitiesW[0]+lastVelocitiesW[1]+lastVelocitiesW[2])/3); |
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349 | tmp2 = static_cast<int32_t>((lastVelocitiesW[3]+lastVelocitiesW[4]+lastVelocitiesW[5])/3); |
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350 | derivativeW = static_cast<int32_t> ((tmp2-tmp1)/(int)(this->period)); |
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351 | |||
352 | |||
353 | diffv += (int) (dGain*derivativeV);
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354 | diffw += (int) (dGain*derivativeW);
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355 | |||
356 | setLeftWheelSpeed(diffv,diffw); |
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357 | setRightWheelSpeed(diffv, diffw); |
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358 | } |
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359 | |||
360 | |||
361 | |||
362 | void MotorControl::setLeftWheelSpeed(int diffv, int diffw){ |
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363 | this->pwmPercentage[LEFT_WHEEL] = (int) (this->pGain*2*(diffv-0.5*diffw*wheelBaseDistanceSI*this->Eb)/(wheelDiameter*this->wheelDiameterCorrectionFactor[LEFT_WHEEL])); |
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364 | |||
365 | } |
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366 | |||
367 | void MotorControl::setRightWheelSpeed(int diffv, int diffw){ |
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368 | this->pwmPercentage[RIGHT_WHEEL] = (int) (motorCalibrationFactor*this->pGain*2*(diffv+0.5*diffw*wheelBaseDistanceSI*this->Eb)/(wheelDiameter*this->wheelDiameterCorrectionFactor[RIGHT_WHEEL])); |
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369 | } |
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370 | |||
371 | |||
372 | // speed in um
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373 | int MotorControl::getRightWheelSpeed(){
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374 | int omega = 2*M_PI*this->actualSpeed[RIGHT_WHEEL]/60; // syslock noetig ? todo |
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375 | return omega * wheelDiameter*this->wheelDiameterCorrectionFactor[RIGHT_WHEEL]; |
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376 | } |
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377 | // speed in um
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378 | int MotorControl::getLeftWheelSpeed(){
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379 | int omega = 2*M_PI*this->actualSpeed[LEFT_WHEEL]/60; |
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380 | return omega * wheelDiameter*this->wheelDiameterCorrectionFactor[LEFT_WHEEL]; |
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381 | } |
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382 | |||
383 | |||
384 | void MotorControl::updatePastVelocities(){
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385 | for (int i=0; i<numberOfLastVelocitiesV-1;i++){ |
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386 | lastVelocitiesVBig[i] = lastVelocitiesVBig[i+1];
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387 | } |
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388 | |||
389 | lastVelocitiesVBig[numberOfLastVelocitiesV-1] = this->currentVelocity.x; |
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390 | |||
391 | } |
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392 | |||
393 | |||
394 | void MotorControl::updateDerivativeLastVelocities(){
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395 | for (int i=0; i<5;i++){ |
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396 | lastVelocitiesV[i] = lastVelocitiesV[i+1];
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397 | lastVelocitiesW[i] = lastVelocitiesW[i+1];
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398 | } |
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399 | |||
400 | |||
401 | lastVelocitiesV[5] = this->currentVelocity.x; |
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402 | lastVelocitiesW[5] = this->currentVelocity.w_z; |
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403 | |||
404 | |||
405 | } |
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406 | |||
407 | int MotorControl::getNumberofSignChanges(){
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408 | int nsc= 0; |
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409 | bool ispositive = true; |
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410 | bool tmpbool = true; |
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411 | if (lastVelocitiesVBig[0] < 0){ |
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412 | ispositive =false;
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413 | tmpbool =false;
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414 | } |
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415 | for (int i=0; i<numberOfLastVelocitiesV-1; i++){ |
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416 | if (lastVelocitiesVBig[i] < 0){ |
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417 | ispositive= false;
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418 | } else {
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419 | ispositive = true;
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420 | } |
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421 | if (ispositive != tmpbool){
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422 | nsc++; |
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423 | tmpbool = ispositive; |
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424 | } |
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425 | |||
426 | } |
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427 | |||
428 | return nsc;
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429 | } |
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430 | |||
431 | void MotorControl::printGains(){
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432 | f8cf404d | Thomas Schöpping | chprintf((BaseSequentialStream*)&global.sercanmux1, "motorCalibrationFactor %f\n", this->motorCalibrationFactor ); |
433 | chprintf((BaseSequentialStream*)&global.sercanmux1, "pGain %i\n", this->pGain ); |
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434 | chprintf((BaseSequentialStream*)&global.sercanmux1, "iGain %f\n", this->iGain ); |
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435 | chprintf((BaseSequentialStream*)&global.sercanmux1, "dGain %f\n", this->dGain ); |
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436 | 58fe0e0b | Thomas Schöpping | } |
437 | |||
438 | ff7ad65b | Thomas Schöpping | void MotorControl::resetGains()
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439 | { |
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440 | // reset factors
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441 | chSysLock(); |
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442 | this->motorCalibrationFactor = 1.0f; |
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443 | this->pGain = 1000; |
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444 | this->iGain = 0.08f; |
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445 | this->dGain = 0.01f; |
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446 | chSysUnlock(); |
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447 | |||
448 | // write reset factors to memory
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449 | this->memory->setwheelfactor(this->motorCalibrationFactor); |
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450 | this->memory->setpGain(this->pGain); |
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451 | this->memory->setiGain(this->iGain); |
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452 | this->memory->setdGain(this->dGain); |
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453 | |||
454 | return;
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455 | } |
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456 | |||
457 | 58fe0e0b | Thomas Schöpping | |
458 | |||
459 | void MotorControl::calcVelocity() {
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460 | // Velocity in µm/s in x direction
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461 | currentVelocity.x = (1.0f*wheelCircumference * (this->actualSpeed[LEFT_WHEEL] + this->actualSpeed[RIGHT_WHEEL])) / secondsPerMinute / 2.0f; |
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462 | // Angular velocity around z in µrad/s
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463 | currentVelocity.w_z = (1.0f*wheelCircumference * (this->actualSpeed[RIGHT_WHEEL] - this->actualSpeed[LEFT_WHEEL])) / (1.0f*secondsPerMinute) / (wheelBaseDistanceSI*this->Eb); |
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464 | |||
465 | } |
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466 | |||
467 | |||
468 | |||
469 | void MotorControl::updateIncrements(MotorIncrements* motorIncrements, int32_t (&oldIncrement)[2], float (&incrementDifference)[2]) { |
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470 | int32_t currentIncrement[2];
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471 | |||
472 | chSysLock(); |
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473 | for (uint8_t idxWheel = 0; idxWheel < 2; idxWheel++) { |
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474 | currentIncrement[idxWheel] = motorIncrements->qeiGetPosition(idxWheel); |
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475 | } |
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476 | chSysUnlock(); |
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477 | |||
478 | // Calculate the difference between the last and
|
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479 | // actual increments and therefor the actual speed or distance
|
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480 | for (uint8_t idxWheel = 0; idxWheel < 2; idxWheel++) { |
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481 | |||
482 | // Get the difference
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483 | int32_t tmpIncrementDifference = oldIncrement[idxWheel] - currentIncrement[idxWheel]; |
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484 | |||
485 | // Handle overflow of increments
|
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486 | int range = motorIncrements->getQeiConfigRange();
|
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487 | if (tmpIncrementDifference > (range >> 1)) |
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488 | tmpIncrementDifference -= motorIncrements->getQeiConfigRange(); |
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489 | else if (tmpIncrementDifference < -(range >> 1)) |
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490 | tmpIncrementDifference += motorIncrements->getQeiConfigRange(); |
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491 | |||
492 | // Correct the difference
|
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493 | incrementDifference[idxWheel] = static_cast<float>(tmpIncrementDifference) * MotorControl::wheelDiameterCorrectionFactor[idxWheel]; |
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494 | |||
495 | // Save the actual increments
|
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496 | oldIncrement[idxWheel] = currentIncrement[idxWheel]; |
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497 | } |
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498 | } |
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499 | |||
500 | void MotorControl::updateSpeed(const float (&incrementDifference)[2], int32_t (&actualSpeed)[2], const uint32_t period) { |
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501 | const int32_t updatesPerMinute = 60 * 1000 / period; |
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502 | |||
503 | for (uint8_t idxWheel = 0; idxWheel < 2; idxWheel++) { |
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504 | // Save the actual speed
|
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505 | actualSpeed[idxWheel] = static_cast<int32_t>(static_cast<float>(updatesPerMinute * incrementDifference[idxWheel])) / incrementsPerRevolution; |
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506 | } |
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507 | } |
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508 | |||
509 | void MotorControl::updateDistance(const float (&incrementDifference)[2], float (&actualDistance)[2]) { |
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510 | |||
511 | for (uint8_t idxWheel = 0; idxWheel < 2; idxWheel++) { |
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512 | // Calc. the distance per wheel in meter
|
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513 | actualDistance[idxWheel] = wheelCircumferenceSI * incrementDifference[idxWheel] / static_cast<float>(incrementsPerRevolution); |
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514 | } |
||
515 | } |
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516 | |||
517 | void MotorControl::writePulseWidthModulation() {
|
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518 | for (int idxWheel = 0; idxWheel < 2; idxWheel++) { |
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519 | int percentage = this->pwmPercentage[idxWheel]; |
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520 | unsigned int widths[2]; |
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521 | |||
522 | // 10000 is the max. duty cicle
|
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523 | if (percentage > 10000) { |
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524 | percentage = 10000;
|
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525 | } else if (percentage < -10000) { |
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526 | percentage = -10000;
|
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527 | } |
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528 | |||
529 | if (percentage < 0) { |
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530 | widths[0] = 0; |
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531 | widths[1] = PWM_PERCENTAGE_TO_WIDTH(this->pwmDriver, -percentage); |
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532 | } else {
|
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533 | widths[0] = PWM_PERCENTAGE_TO_WIDTH(this->pwmDriver, percentage); |
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534 | widths[1] = 0; |
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535 | } |
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536 | |||
537 | for (int idxPWM = 0; idxPWM < 2; idxPWM++) |
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538 | 29943713 | galberding | pwmEnableChannel(this->pwmDriver, (idxWheel * 2) + idxPWM,widths[idxPWM]); |
539 | 58fe0e0b | Thomas Schöpping | } |
540 | } |
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541 | 753ccd04 | galberding | |
542 | |||
543 | void MotorControl::setGains(motorGains *motorConfig){
|
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544 | chSysLock(); |
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545 | this->pGain = motorConfig->pGain;
|
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546 | this->iGain = motorConfig->iGain;
|
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547 | this->dGain = motorConfig->dGain;
|
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548 | chSysUnlock(); |
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549 | } |
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550 | |||
551 | void MotorControl::getGains(motorGains *motorConfig){
|
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552 | motorGains gains; |
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553 | motorConfig->pGain = this->pGain;
|
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554 | motorConfig->iGain = this->iGain;
|
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555 | motorConfig->dGain = this->dGain;
|
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556 | } |
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557 | |||
558 | void MotorControl::setMotorEnable(bool enable){ |
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559 | this->motorEnable = enable;
|
||
560 | } |
||
561 | |||
562 | bool MotorControl::getMotorEnable(){
|
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563 | 29943713 | galberding | |
564 | 753ccd04 | galberding | return this->motorEnable; |
565 | } |
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566 | |||
567 | void MotorControl::toggleMotorEnable(){
|
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568 | 29943713 | galberding | this->accumulatedErrorV = 0; |
569 | this->accumulatedErrorW = 0; |
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570 | 753ccd04 | galberding | this->motorEnable = !this->motorEnable; |
571 | } |