/* This program 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. This program 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. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #pragma once #include "RangeFinder.h" #include "RangeFinder_Backend.h" #include /* * the size of the buffer sent over spi */ #define RNFD_BEBOP_NB_PULSES_MAX 32 /* * the size of the purge buffer sent over spi */ #define RNFD_BEBOP_NB_PULSES_PURGE 64 /* * default us frequency * 17 times by seconds */ #define RNFD_BEBOP_DEFAULT_FREQ 17 /* * default adc frequency */ #define RNFD_BEBOP_DEFAULT_ADC_FREQ 160000 /* * to filter data we make the average of (1 << this_value) datas */ #define RNFD_BEBOP_FILTER_POWER 2 /* * Speed of sound */ #define RNFD_BEBOP_SOUND_SPEED 340 /* above this altitude we should use mode 0 */ #define RNFD_BEBOP_TRANSITION_HIGH_TO_LOW 0.75 /* below this altitude we should use mode 1 */ #define RNFD_BEBOP_TRANSITION_LOW_TO_HIGH 1.5 /* count this times before switching mode */ #define RNFD_BEBOP_TRANSITION_COUNT 5 /* * the number of echoes we will keep at most */ #define RNFD_BEBOP_MAX_ECHOES 30 struct echo { int max_index; /* index in the capture buffer at which the maximum is reached */ int distance_index; /* index in the capture buffer at which the signal is for the first time above a fixed threshold below the maximum => this corresponds to the real distance that should be attributed to this echo */ }; /* * struct related to adc * data to receive and process adc datas */ struct adc_capture { struct iio_device *device; struct iio_buffer *buffer; unsigned int buffer_size; struct iio_channel *channel; unsigned int freq; /* Used in order to match two echoes of two ADC acquisitions */ unsigned short threshold_time_rejection; }; class AP_RangeFinder_Bebop : public AP_RangeFinder_Backend { public: AP_RangeFinder_Bebop(RangeFinder::RangeFinder_State &_state, AP_RangeFinder_Params &_params); ~AP_RangeFinder_Bebop(void); static bool detect(); void update(void) override; protected: MAV_DISTANCE_SENSOR _get_mav_distance_sensor_type() const override { return MAV_DISTANCE_SENSOR_LASER; } private: void _init(void); int _launch(void); int _capture(void); int _update_mode(float altitude); void _configure_gpio(int value); int _configure_wave(); void _reconfigure_wave(); int _configure_capture(); int _launch_purge(); void _loop(void); Linux::Thread *_thread; unsigned short get_threshold_at(int i_capture); int _apply_averaging_filter(void); int _search_local_maxima(void); int _search_maximum_with_max_amplitude(void); AP_HAL::OwnPtr _spi; AP_HAL::GPIO *_gpio; struct adc_capture _adc; struct iio_context *_iio; unsigned char _tx[2][RNFD_BEBOP_NB_PULSES_MAX]; unsigned char _purge[RNFD_BEBOP_NB_PULSES_PURGE]; unsigned char* _tx_buf; int _hysteresis_counter; const unsigned int threshold_echo_init = 1500; int _fd = -1; uint64_t _last_timestamp; int _mode; int _nb_echoes; int _freq; float _altitude; unsigned int *_filtered_capture; unsigned int _filtered_capture_size; struct echo _echoes[RNFD_BEBOP_MAX_ECHOES]; unsigned int _filter_average = 4; int16_t _last_max_distance_cm = 850; int16_t _last_min_distance_cm = 32; };