This program is for an autonomous robot for the competition at the Hochschule Luzern. We are one of the 32 teams. <a href="http://cruisingcrepe.wordpress.com/">http://cruisingcrepe.wordpress.com/</a> The postition control is based on this Documentation: Control of Wheeled Mobile Robots: An Experimental Overview from Alessandro De Luca, Giuseppe Oriolo, Marilena Vendittelli. For more information see here: <a href="http://www.dis.uniroma1.it/~labrob/pub/papers/Ramsete01.pdf">http://www.dis.uniroma1.it/~labrob/pub/papers/Ramsete01.pdf</a>
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StateDefines/defines.h
- Committer:
- chrigelburri
- Date:
- 2013-03-08
- Revision:
- 4:3a97923ff2d4
- Parent:
- 3:92ba0254af87
- Child:
- 5:48a258f6335e
File content as of revision 4:3a97923ff2d4:
#ifndef _DEFINES_H_ #define _DEFINES_H_ #include "mbed.h" // Physical dimensions #define PI 3.141592654f // Physical dimensions π. // maxon motor #339282 EC 45 flat 30W and GEAR #define POLE_PAIRS 8u // Number of of pole pairs #define GEAR 1.0f // Gear on the motor #define PULSES_PER_STEP 6u // Pulses per step Hallsensor have 6 steps // Physical Dimension of the car #define WHEEL_RADIUS 0.043f // radius of the wheel, given in [m] #define WHEEL_DISTANCE 0.18f // Distance of the wheel, given in [m] // State Bits of the car #define STATE_STOP 1u // Bit0 = stop pressed #define STATE_UNDER 2u // Bit1 = Undervoltage battery #define STATE_LEFT 4u // Bit2 = left ESCON in error state #define STATE_RIGHT 8u // Bit3 = right ESCON in error state // ESCON Constands #define ESCON_SET_FACTOR 100.0f // Speed Factor how set in the ESCON #define ESCON_GET_FACTOR 100.0f // Speed Factor how get in the ESCON // Start Defintition #define START_X_OFFSET -0.8f // Sets the start X-point [m] #define START_Y_OFFSET 0.8f // Sets the start Y-point [m] // Maximum Aceeleration #define ACCELERATION 0.25f // maximum translational acceleration, given in [m/s2] #define THETA_ACCELERATION 1.0f // maximum rotational acceleration, given in [rad/s2] // position controller #define GAIN 0.30f // Main Gain #define K1 1.0f * GAIN #define K2 3.0f * GAIN #define K3 2.0f * GAIN #define MIN_DISTANCE_ERROR 0.03 // min. Distance to switch the position controller off. Because when Distance Error goes to zero the ATAN2 is not define, given in [m] // LiPo Batterie #define BAT_MULTIPLICATOR 21.633333333f // R2 / (R1 + R2) = 0.153 R2= 10k , R1 = 1.8k 1/0.153 = 6.555 ---> 3.3 * 6.555 = 21.6333333f #define BAT_MIN 17.5f // minium operate voltage [V] Battery Type: 1SP1P LG-18650 --> nominal voltage 3.6V --> 5 batterys ==> 5 * 3.5V = 17.5V // Frequenz for the Task #define PERIOD_COMPASS 0.050f // 20Hz Rate for Compass HMC6352 #define PERIOD_ROBOTCONTROL 0.001f // 1kHz Rate for Robot Control #define PERIOD_STATE 0.001f // 1kHz Rate for State Objekt #define PERIOD_ANDROID 0.1f // 10Hz Rate for State Objekt // Compass Maxima und Minima for the Filter #define SET_MAXIMAS_MINIMAS true // For Set the maximas und minimas when false the object search the maximas minimas by your own /*#define COMP_X_MAX 344.464996f // Maximum X-Range #define COMP_Y_MAX 238.751282f // Maximum Y-Range #define COMP_Z_MAX -266.899994f // Maximum Z-Range not used in this side #define COMP_X_MIN -90.412109f // Minimum X-Range #define COMP_Y_MIN -220.834808f // Minimum Y-Range #define COMP_Z_MIN -356.000000f // Minimun Z-Range not used in this side */ #define COMP_X_MAX 391.219910f // Maximum X-Range #define COMP_Y_MAX 382.915161f // Maximum Y-Range #define COMP_Z_MAX -237.855042f // Maximum Z-Range not used in this side #define COMP_X_MIN -169.952530f // Minimum X-Range #define COMP_Y_MIN -247.647675f // Minimum Y-Range #define COMP_Z_MIN -385.915009f // Minimun Z-Range not used in this side /** * struct state * structure containing system sensor data **/ typedef struct state { /** millis Time [ms]*/ int millis; /** Battery voltage [V] */ float voltageBattery; /** Number of pulses left */ int leftPulses; /** Number of pulses right */ int rightPulses; /** Velocity left [m/s] */ float leftVelocity; /** Velocity right [m/s] */ float rightVelocity; /** Velocity of the car [m/s] */ float velocity; /** Velocity rotation [°/s] */ float omega; /** X-Axis from co-ordinate [m] */ float xAxis; /** Y-Axis from co-ordinate [m] */ float yAxis; /** X-Axis Error [m] */ float xAxisError; /** X-Axis Error [m] */ float yAxisError; /** Angle Error [°] */ float angleError; /** Angle from Car [°] */ float angle; /** Setpoint X-Axis [m] */ float setxAxis; /** Setpoint Y-Axis [m] */ float setyAxis; /** Setpoint Angel [°] */ float setAngle; /** Right Distance Sensor [m] */ float rightDist; /** Compass Angle [°] */ float compassAngle; /** Compass X-Axis */ float compassxAxis; /** Compass Y-Axis */ float compassyAxis; /** State of the Car **/ int state; /** distance to Goal */ float rho; /** theta to goal */ float lamda; /** theta from the goal */ float delta; } state_t; #endif