amiro-os / include / amiro / MotorControl.h @ d2230e6e
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#ifndef AMIRO_MOTOR_CONTROL_H_
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#define AMIRO_MOTOR_CONTROL_H_
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#include <amiro/MotorIncrements.h> |
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#include <amiro/Constants.h> |
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#include <Types.h> |
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#include <amiro/FileSystemInputOutput/FSIODiWheelDrive.hpp> |
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namespace amiro { |
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struct motorGains
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{ |
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int pGain = 0; |
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float iGain = 0.0; |
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float dGain = 0.0; |
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}; |
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class MotorControl : public chibios_rt::BaseStaticThread<512> {
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public:
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/**
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* Constructor
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*
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* @param pwm pulse width modulation driver (pwmd)
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* Can be any free PWMDx in 'ChibiOS-RT/os/hal/platforms/STM32/TIMv1/pwm_lld.h'
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* @param mi object for retrieving the motor increments of the qei
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* @param port GPIO port for motor control (should be the macro 'GPIOB')
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* @param pad GPIO command for motor control (should be the macro 'GPIOB_POWER_EN' for enable)
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* @param memory Memory interface to load/store parameters
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*/
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MotorControl(PWMDriver* pwm, MotorIncrements* mi, GPIO_TypeDef* port, int pad, fileSystemIo::FSIODiWheelDrive *memory);
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/**
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* Get the current speed of the left wheel in rounds/min
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*
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* @return speed of left wheel in rounds/min
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*/
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int getCurrentRPMLeft();
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/**
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* Get the current speed of the right wheel in rounds/min
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*
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* @return speed of right wheel in rounds/min
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*/
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int getCurrentRPMRight();
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chibios_rt::EvtSource* getEventSource(); |
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/**
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* Sets the target velocity
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*
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* @param targetVelocity Kartesian kinematic vector
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*/
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void setTargetSpeed(const types::kinematic &targetVelocity); |
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/**
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* Sets the target velocity in µ rounds per minute for every wheel
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*
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* @param targetURpmLeft Rounds per minute in µ1/min of the left wheel
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* @param targetURpmLeft Rounds per minute in µ1/min of the right wheel
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*/
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void setTargetRPM(int32_t targetURpmLeft, int32_t targetURpmRight);
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/**
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* Get the current velocitiy as a kinematic struct
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*
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* @return Current velocity
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*/
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types::kinematic getCurrentVelocity(); |
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/**
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* Sets the correction factor for the wheel diameter.
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* The factor Ed is the ratio of the wheel diameters
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* <Ed = wheelDiameterRight / wheelDiameterLeft> as
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* introduced in eq. 3 by J. Borenstein (Correction of
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* Systematic Odometry Errors in Mobile Robots). This
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* function calculates then the correction factors for every
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* wheel by eq. 17a and 17b.
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*
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* @param Ed Wheel diameter ratio
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* @param storeEbToMemory Do override Ed in the memory with the given value
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* @return Return value of the memory interface
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*/
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msg_t setWheelDiameterCorrectionFactor(float Ed = 1.0f, bool_t storeEdToMemory = false); |
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/**
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* Sets the correction factor for the wheel base width.
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* The factor Eb is the ratio of the actual and nominal
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* base width <Eb = bActual / bNominal> as introduced
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* in eq. 3 by J. Borenstein (Correction of
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* Systematic Odometry Errors in Mobile Robots). This
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* function calculates then the actual base width of the
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* robot using eq. 4.
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*
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* @param Eb Base width ratio
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* @param storeEbToMemory Do override Eb in the memory with the given value
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* @return Return value of the memory interface
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*/
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msg_t setActualWheelBaseDistance(float Eb = 1.0f, bool_t storeEbToMemory = false); |
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/**
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* Calculate the current increments of both wheels and
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* update oldIncrement and incrementsDifference,
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* which is the corrected difference between the current increments
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* and the old ones.
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* The corrected difference is the original difference between the old
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* increments and new increments, multiplied with the wheelDiameterCorrectionFactor.
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* The incremennt source is given by motorIncrements.
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*
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* @param motorIncrements Increment source
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* @param oldIncrement Old increments, which are updated
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* @param incrementDifference Corrected difference between old and current increments
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* @return Return value of the memory interface
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*/
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static void updateIncrements(MotorIncrements* motorIncrements, int32_t (&oldIncrement)[2], float (&incrementDifference)[2]); |
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/**
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* Calculate the current speed of both wheels and
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* updates actualSpeed.
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*
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* @param incrementDifference Difference between old and current increments
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* @param actualSpeed Actual speed of both wheels
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* @param Update period
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*/
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static void updateSpeed(const float (&incrementDifference)[2], int32_t (&actualSpeed)[2], const uint32_t period); |
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/**
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* Calculate the current driven distance of both wheels and
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* updates actualDistance.
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*
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* @param incrementDifference Difference between old and current increments
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* @param actualDistance Actual distance driven
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*/
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static void updateDistance(const float (&incrementDifference)[2], float (&actualDistance)[2]); |
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/**
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* Prints Control Gains
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*/
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void printGains();
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/**
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* @brief Resets control gains.
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*/
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void resetGains();
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void setMotorEnable(bool enable); |
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bool getMotorEnable();
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protected:
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virtual msg_t main(void);
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private:
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/**
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* Calculate the velocitiy in the robot frame
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* and saves it to this->currentVelocity
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*/
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void calcVelocity();
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/**
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* PID Controller that works directly on the forward velocity v of the robots center and its
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* angular velocity w around its z axis. The methods setLeftWheelSpeed() and setRightWheelSpeed()
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* are used to set the final pwm values.
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*/
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void PIDController();
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/**
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* Deletes the oldest entry in lastVelocitiesV[] and lastVelocitiesW[], pushes the other values up and saves the currentVelocity.x(w_z) in the last entry.
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*/
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void updateDerivativeLastVelocities();
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////////////////////////////////////////////////
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/////////////////Calibration////////////////////
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////////////////////////////////////////////////
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/**
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* Finds a prefactor for the stronger motor to match its power level to the weaker motor.
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*/
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void calibrate();
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/**
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* Finds the P, I and D gains for the PID Controller using the Nichols-Ziegler Method.
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*/
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void calibrateZiegler();
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/**
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* Counts the number of sign changes from the last 30 velocities.
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*/
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int getNumberofSignChanges();
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/**
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* Update the past lastVelocitiesV array.
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*/
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void updatePastVelocities();
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/**
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* Sets wheel speed according to the output of the PID Controller
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*/
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void setLeftWheelSpeed(int diffv, int diffw); |
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/**
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* Sets wheel speed according to the output of the PID Controller
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*/
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void setRightWheelSpeed(int diffv, int diffw); |
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int getLeftWheelSpeed();
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int getRightWheelSpeed();
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/**
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* Write the duty cicle from this->pwmPercentage
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* to the PWM driver
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*/
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void writePulseWidthModulation();
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/**
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* Control logic to save space in main loop
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*/
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void controllerAndCalibrationLogic();
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PWMDriver* pwmDriver; |
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PWMConfig pwmConfig; |
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MotorIncrements* motorIncrements; |
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GPIO_TypeDef *powerEnablePort; |
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const int powerEnablePad; |
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chibios_rt::EvtSource eventSource; |
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//const uint32_t period;
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uint32_t period; |
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fileSystemIo::FSIODiWheelDrive *memory; |
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int32_t actualSpeed[2];
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float actualDistance[2]; |
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float errorSum[2]; |
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int32_t increment[2];
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float incrementDifference[2]; |
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int pwmPercentage[2]; |
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types::kinematic targetVelocity; |
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types::kinematic currentVelocity; |
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types::kinematic lastVelocity; |
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float errorSumDiff;
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bool newTargetVelocities;
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int delay = 0; |
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float Ed;
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float Eb;
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int pGain = 1000; |
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float iGain = 0.08; |
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int antiWindupV = 7100000; |
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int antiWindupW = 200000000; |
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int accumulatedErrorV =0; // accumulated velocity error |
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int accumulatedErrorW =0; // accumulated omega error |
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float dGain =0.01; |
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int lastVelocitiesV[6]; |
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int lastVelocitiesW[6]; |
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//motor calibration variables
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int numberOfLastVelocitiesV = 30; |
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int lastVelocitiesVBig[30]; |
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int rightWValues[3]; |
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int leftWValues[3]; |
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float motorCalibrationFactor =1.0; |
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//ziegler calibration variables
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int zieglerHelp= 1; |
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int zieglerHelp2 = 0; |
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bool ziegler= true; |
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bool ziegler2 = true; |
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float zieglerPeriod;
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int zieglerCalibrationTime = 0; |
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int wheelCalibrationTime = 0; |
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bool startedZieglerCalibration = false; |
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bool startedWheelCalibration = false; |
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bool motorCalibration = true; |
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bool motorEnable = true; |
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public:
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bool isCalibrating = false; |
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static float wheelDiameterCorrectionFactor[2]; |
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static float actualWheelBaseDistanceSI; |
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}; |
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} |
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#endif /* AMIRO_MOTOR_CONTROL_H_ */ |