/* 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 #include #include #include #include // wheel rate control defaults #define AP_WHEEL_RATE_MAX_DEFAULT 12.0f // maximum wheel rotation rate in rad/sec (about 115rpm, 687deg/sec) #define AP_WHEEL_RATE_CONTROL_FF 8.00f #define AP_WHEEL_RATE_CONTROL_P 2.00f #define AP_WHEEL_RATE_CONTROL_I 2.00f #define AP_WHEEL_RATE_CONTROL_IMAX 1.00f #define AP_WHEEL_RATE_CONTROL_D 0.01f #define AP_WHEEL_RATE_CONTROL_FILT 0.00f #define AP_WHEEL_RATE_CONTROL_DT 0.02f #define AP_WHEEL_RATE_CONTROL_TIMEOUT_MS 200 class AP_WheelRateControl { public: AP_WheelRateControl(const AP_WheelEncoder &wheel_encoder_ref); // returns true if a wheel encoder and rate control PID are available for this instance bool enabled(uint8_t instance); // get throttle output in the range -100 to +100 given a desired rate expressed as a percentage of the rate_max (-100 to +100) // instance can be 0 or 1 float get_rate_controlled_throttle(uint8_t instance, float desired_rate_pct, float dt); // get rate maximum in radians/sec float get_rate_max_rads() const { return MAX(_rate_max, 0.0f); } // get pid objects for reporting AC_PID& get_pid(uint8_t instance); // set the PID notch sample rates void set_notch_sample_rate(float sample_rate); static const struct AP_Param::GroupInfo var_info[]; private: // parameters AP_Int8 _enabled; // top level enable/disable control AP_Float _rate_max; // wheel maximum rotation rate in rad/s AC_PID _rate_pid0{AP_WHEEL_RATE_CONTROL_P, AP_WHEEL_RATE_CONTROL_I, AP_WHEEL_RATE_CONTROL_D, AP_WHEEL_RATE_CONTROL_FF, AP_WHEEL_RATE_CONTROL_IMAX, AP_WHEEL_RATE_CONTROL_FILT, AP_WHEEL_RATE_CONTROL_FILT, AP_WHEEL_RATE_CONTROL_FILT, AP_WHEEL_RATE_CONTROL_DT}; AC_PID _rate_pid1{AP_WHEEL_RATE_CONTROL_P, AP_WHEEL_RATE_CONTROL_I, AP_WHEEL_RATE_CONTROL_D, AP_WHEEL_RATE_CONTROL_FF, AP_WHEEL_RATE_CONTROL_IMAX, AP_WHEEL_RATE_CONTROL_FILT, AP_WHEEL_RATE_CONTROL_FILT, AP_WHEEL_RATE_CONTROL_FILT, AP_WHEEL_RATE_CONTROL_DT}; // limit flags struct AP_MotorsUGV_limit { bool lower; // reached this instance's lower limit on last iteration bool upper; // reached this instance's upper limit on last iteration } _limit[2]; // internal variables const AP_WheelEncoder& _wheel_encoder; // pointer to accompanying wheel encoder uint32_t _last_update_ms; // system time of last call to get_rate_controlled_throttle };