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/*********************************************************************************/
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/* Attitude sense system (processing of gyro, accelerometer and altimeter data)  */
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/*********************************************************************************/
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#ifndef _ATTITUDE_H
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#define _ATTITUDE_H
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#include <inttypes.h>
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#include "analog.h"
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// For debugging only.
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#include "uart0.h"
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/*
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 * If you have no acc. sensor or do not want to use it, remove this define. This will cause the
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 * acc. sensor to be ignored at attitude calibration.
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 */
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#define ATTITUDE_USE_ACC_SENSORS yes
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/*
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 * Default hysteresis to use for the -180 degree to 180 degree wrap.
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 */
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#define PITCHOVER_HYSTERESIS 0L
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#define ROLLOVER_HYSTERESIS 0L
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/*
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 * The frequency at which numerical integration takes place. 488 in original code.
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 */
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#define INTEGRATION_FREQUENCY 488
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/*
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 * Gyro readings are divided by this before being used in attitude control. This will scale them
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 * to match the scale of the stick control etc. variables. This is just a rough non-precision
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 * scaling - the below definitions make precise conversion factors.
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 * Will be about 4 for InvenSense, 8 for FC1.3 and 8 for ADXRS610.
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 * The number 1250 is derived from the original code: It has about 225000 = 1250 * 180 for 180 degrees.
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 */
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#define HIRES_GYRO_INTEGRATION_FACTOR (int)((GYRO_RATE_FACTOR_PITCHROLL * INTEGRATION_FREQUENCY * GYRO_PITCHROLL_CORRECTION) / 1250)
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/*
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 * Constant for deriving an attitude angle from acceleration measurement.
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 *
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 * The value is derived from the datasheet of the ACC sensor where 5g are scaled to VRef.
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 * 1g is (3V * 1024) / (5 * 3V) = 205 counts. The ADC ISR sums 2 acc. samples to each
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 * [pitch/roll]AxisAcc and thus reads about acc = 410 counts / g.
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 * We approximate a small pitch/roll angle v by assuming that the copter does not accelerate:
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 * In this explanation it is assumed that the ADC values are 0 based, and gravity is included.
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 * The sine of v is the far side / the hypothenusis:
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 * sin v = acc / sqrt(acc^2 + acc_z^2)
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 * Using that v is a small angle, and the near side is about equal to the the hypothenusis:
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 * sin v ~= acc / acc_z
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 * Assuming that the helicopter is hovering at small pitch and roll angles, acc_z is about 410,
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 * and sin v ~= v (small angles, in radians):
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 * sin v ~= acc / 410
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 * v / 57.3 ~= acc / 410
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 * v ~= acc * 57.3 / 410
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 * acc / v ~= 410 / 57.3 ~= 7, that is: There are about 7 counts per degree.
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 *
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 * Summary: DEG_ACC_FACTOR = (2 * 1024 * [sensitivity of acc. meter in V/g]) / (3V * 57.3)
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 */
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#define DEG_ACC_FACTOR 7
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/*
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 * Growth of the integral per degree:
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 * The hiResXXXX value per deg / s * INTEGRATION_FREQUENCY samples / sec * correction / a number divided by
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 * HIRES_GYRO_INTEGRATION_FACTOR (why???) before integration.
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 * The value of this expression should be about 1250 (by setting HIRES_GYRO_INTEGRATION_FACTOR to something suitable).
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 */
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#define GYRO_DEG_FACTOR_PITCHROLL (int)(GYRO_RATE_FACTOR_PITCHROLL * INTEGRATION_FREQUENCY * GYRO_PITCHROLL_CORRECTION / HIRES_GYRO_INTEGRATION_FACTOR)
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#define GYRO_DEG_FACTOR_YAW (int)(GYRO_RATE_FACTOR_YAW * INTEGRATION_FREQUENCY * GYRO_YAW_CORRECTION)
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/*
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 * This is ([gyro integral value] / degree) / (degree / acc. sensor value) = gyro integral value / acc.sensor value
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 * = the factor an acc. sensor should be multiplied by to get the gyro integral
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 * value for the same (small) angle.
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 * The value is about 200.
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 */
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#define GYRO_ACC_FACTOR ((GYRO_DEG_FACTOR_PITCHROLL) / (DEG_ACC_FACTOR))
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/*
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 * Rotation rates
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 */
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extern int16_t rate_PID[2], rate_ATT[2], yawRate;
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extern int16_t differential[2];
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/*
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 * Attitudes calculated by numerical integration of gyro rates
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 */
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extern int32_t angle[2], yawAngleDiff;
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// extern volatile int32_t ReadingIntegralTop; // calculated in analog.c
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/*
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 * Compass navigation
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 */
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extern int16_t compassHeading;
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extern int16_t compassCourse;
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// extern int16_t compassOffCourse;
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extern uint8_t compassCalState;
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extern int32_t yawGyroHeading;
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extern int16_t yawGyroHeadingInDeg;
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extern uint8_t updateCompassCourse;
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extern uint16_t ignoreCompassTimer;
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void updateCompass(void);
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/*
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 * Dynamic gyro offsets. These are signed values that are subtracted from the gyro measurements,
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 * to help cancelling out drift and vibration noise effects. The dynamic offsets themselves
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 * can be updated in flight by different ways, for example:
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 * - Just taking them from parameters, so the pilot can trim manually in a PC or mobile tool
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 * - Summing up how much acc. meter correction was done to the gyro integrals over the last n
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 *   integration, and then adding the sum / n to the dynamic offset
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 * - Detect which way the pilot pulls the stick to keep the copter steady, and correct by that
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 * - Invent your own...
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 */
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extern int16_t dynamicOffset[2], dynamicOffsetYaw;
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/*
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 * For NaviCtrl use.
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 */
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extern int16_t averageAcc[2], averageAccCount;
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/*
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 * Re-init flight attitude, setting all angles to 0 (or to whatever can be derived from acc. sensor).
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 * To be called when the pilot commands gyro calibration (eg. by moving the left stick up-left or up-right).
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 */
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void attitude_setNeutral(void);
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/*
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 * Experiment.
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 */
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// void attitude_startDynamicCalibration(void);
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// void attitude_continueDynamicCalibration(void);
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int32_t getAngleEstimateFromAcc(uint8_t axis);
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/*
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 * Main routine, called from the flight loop.
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 */
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void calculateFlightAttitude(void);
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#endif //_ATTITUDE_H