/* 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 . */ /* simulate a payload slung from a line under a vehicle */ #pragma once #include "SIM_config.h" #if AP_SIM_SLUNGPAYLOAD_ENABLED #include #include #include #include namespace SITL { // SlungPayloadSim handles interaction with main vehicle class SlungPayloadSim { public: friend class SlungPayload; // constructor SlungPayloadSim(); // update the SlungPayloadSim's state using thevehicle's earth-frame position, velocity and acceleration void update(const Vector3p& veh_pos, const Vector3f& veh_vel_ef, const Vector3f& veh_accel_ef); // get earth-frame forces on the vehicle from slung payload // returns true on success and fills in forces_ef argument, false on failure bool get_forces_on_vehicle(Vector3f& forces_ef) const; // parameter table static const struct AP_Param::GroupInfo var_info[]; private: // parameters AP_Int8 enable; // enable parameter AP_Float weight_kg; // payload weight in kg AP_Float line_length; // line length in meters AP_Int8 sys_id; // mavlink system id for reporting to GCS AP_Float drag_coef; // drag coefficient (spheres=0.5, cubes=1.05, barrels=0.8~1.2) // send MAVLink messages to GCS void send_report(); // write onboard log void write_log(); // get payload location // returns true on success and fills in payload_loc argument, false on failure bool get_payload_location(Location& payload_loc) const; // update the slung payload's position, velocity, acceleration // vehicle position, velocity and acceleration should be in earth-frame NED frame void update_payload(const Vector3p& veh_pos, const Vector3f& veh_vel_ef, const Vector3f& veh_accel_ef, float dt); // returns true if the two vectors point in the same direction, false if perpendicular or opposite bool vectors_same_direction(const Vector3f& v1, const Vector3f& v2) const; // socket connection variables const char *target_address = "127.0.0.1"; const uint16_t target_port = 5763; SocketAPM_native mav_socket { false }; bool initialised; // true if this class has been initialised uint32_t last_update_us; // system time of last update // mavlink reporting variables const float reporting_period_ms = 200; // reporting period in ms uint32_t last_report_ms; // system time of last MAVLink report sent to GCS uint32_t last_heartbeat_ms; // system time of last MAVLink heartbeat sent to GCS bool mavlink_connected; // true if a mavlink connection has been established mavlink_status_t mav_status; // reported mavlink status // payload variables bool landed = true; // true if the payload is on the ground float tension_ratio; // 0 if line is loose, 1 if completely taut Vector3p payload_to_veh;// distance vector (in meters in NED frame) from payload to vehicle (used for reporting purposes) Vector3p position_NED; // payload's position (as an offset from EKF origin? offset from vehicle?) in meters Vector3f velocity_NED; // payload velocity Vector3f accel_NED; // payload's acceleration Vector3f veh_forces_ef; // earth-frame forces on the vehicle caused by the payload }; } // namespace SITL #endif // AP_SIM_SLUNGPAYLOAD_ENABLED