amiro-os / devices / DiWheelDrive / linefollow.hpp @ eef47799
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| 1 | 726fdc72 | galberding | #ifndef AMIRO_LINEFOLLOWING_H
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| 2 | #define AMIRO_LINEFOLLOWING_H
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| 3 | |||
| 4 | #include <ch.hpp> |
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| 5 | #include "global.hpp" |
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| 6 | #include <amiroosconf.h> |
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| 7 | |||
| 8 | #define RAND_TRESH 16000 |
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| 9 | |||
| 10 | namespace amiro {
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| 11 | |||
| 12 | enum LineFollowStrategy{
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| 13 | d314ad6f | galberding | EDGE_LEFT, // driving on the left edge of a black line
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| 14 | TRANSITION_L_R, // Transition from left to right edge
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| 15 | TRANSITION_R_L, // transition from right to left edge
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| 16 | EDGE_RIGHT, // driving on the right edge of a black line
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| 17 | 726fdc72 | galberding | REVERSE, |
| 18 | d314ad6f | galberding | MIDDLE, // not working, use FUZZY instead
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| 19 | 726fdc72 | galberding | FUZZY, |
| 20 | NONE |
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| 21 | }; |
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| 22 | |||
| 23 | enum colorMember : uint8_t {
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| 24 | BLACK=0,
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| 25 | GREY=1,
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| 26 | WHITE=2
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| 27 | }; |
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| 28 | |||
| 29 | class LineFollow |
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| 30 | {
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| 31 | public:
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| 32 | |||
| 33 | int biggestDiff = 0; |
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| 34 | Global *global; |
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| 35 | LineFollow(Global *global); |
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| 36 | LineFollow(Global *global, LineFollowStrategy strategy); |
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| 37 | d314ad6f | galberding | /**
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| 38 | * Entry method which should be called to follow a line.
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| 39 | *
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| 40 | * @param rpmSpeed speed that will be determained
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| 41 | * @return white flag, 1 if white is detected
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| 42 | */
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| 43 | 726fdc72 | galberding | int followLine(int (&rpmSpeed)[2]); |
| 44 | d314ad6f | galberding | |
| 45 | /**
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| 46 | * Setter for LineFollowStrategy which triggers transition behavior.
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| 47 | *
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| 48 | * To prevent random turns while changeing the strategy a transition state is set.
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| 49 | * In case the strategy needs to be switched immediately use promptStrategyChange().
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| 50 | *
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| 51 | * @param strategy
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| 52 | */
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| 53 | 726fdc72 | galberding | void setStrategy(LineFollowStrategy strategy);
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| 54 | void promptStrategyChange(LineFollowStrategy strategy);
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| 55 | LineFollowStrategy getStrategy(); |
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| 56 | void setGains(float Kp, float Ki, float Kd); |
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| 57 | |||
| 58 | |||
| 59 | const int rpmTurnLeft[2] = {-10, 10}; |
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| 60 | const int rpmTurnRight[2] = {rpmTurnLeft[1],rpmTurnLeft[0]}; |
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| 61 | const int rpmHalt[2] = {0, 0}; |
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| 62 | // Definition of the fuzzyfication function
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| 63 | // | Membership
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| 64 | // 1|_B__ G __W__
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| 65 | // | \ /\ /
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| 66 | // | \/ \/
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| 67 | // |_____/\__/\______ Sensor values
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| 68 | // SEE MATLAB SCRIPT "fuzzyRule.m" for adjusting the values
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| 69 | // All values are "raw sensor values"
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| 70 | /* Use these values for white ground surface (e.g. paper) */
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| 71 | |||
| 72 | const int blackStartFalling = 0x1000; // Where the black curve starts falling |
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| 73 | const int blackOff = 0x1800; // Where no more black is detected |
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| 74 | const int whiteStartRising = 0x2800; // Where the white curve starts rising |
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| 75 | const int whiteOn = 0x6000; // Where the white curve has reached the maximum value |
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| 76 | const int greyMax = (whiteOn + blackStartFalling) / 2; // Where grey has its maximum |
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| 77 | const int greyStartRising = blackStartFalling; // Where grey starts rising |
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| 78 | const int greyOff = whiteOn; // Where grey is completely off again |
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| 79 | |||
| 80 | d314ad6f | galberding | private:
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| 81 | /**
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| 82 | * Calculate the error from front sensors.
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| 83 | */
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| 84 | int getError();
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| 85 | |||
| 86 | /**
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| 87 | * Error calculation while changing from one EDGE_* strategy to another.
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| 88 | * This prevents the AMiRo from random turns while switching strategies.
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| 89 | *
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| 90 | * @param FL value of left front sensor
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| 91 | * @param FR value of right front sensor
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| 92 | * @param targetL left threshold
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| 93 | * @param targetR right threshold
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| 94 | */
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| 95 | int transitionError(int FL, int FR, int targetL, int targetR); |
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| 96 | |||
| 97 | /**
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| 98 | * Use the error according to the strategy to calculate the correction speed.
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| 99 | * Currently only the P part of the PID controller is used to calculate the
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| 100 | * correction speed.
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| 101 | */
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| 102 | int getPidCorrectionSpeed();
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| 103 | |||
| 104 | // Fuzzy line following methods--------------
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| 105 | void lineFollowing(int (&proximity)[4], int (&rpmFuzzyCtrl)[2]); |
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| 106 | Color memberToLed(colorMember member); |
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| 107 | void defuzzyfication(colorMember (&member)[4], int (&rpmFuzzyCtrl)[2]); |
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| 108 | colorMember getMember(float (&fuzzyValue)[3]); |
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| 109 | void fuzzyfication(int sensorValue, float (&fuzziedValue)[3]); |
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| 110 | void copyRpmSpeed(const int (&source)[2], int (&target)[2]); |
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| 111 | int vcnl4020AmbientLight[4] = {0}; |
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| 112 | int vcnl4020Proximity[4] = {0}; |
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| 113 | // -----------------------------------------
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| 114 | LineFollowStrategy strategy = LineFollowStrategy::EDGE_RIGHT; |
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| 115 | char whiteFlag = 0; |
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| 116 | int trans = 0; |
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| 117 | |||
| 118 | // PID controller components ---------------
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| 119 | c9fa414d | galberding | int32_t K_p = 1400;
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| 120 | float K_i = 0.06; |
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| 121 | float K_d = 0.2; |
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| 122 | int32_t accumHist = 0;
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| 123 | d314ad6f | galberding | float oldError = 0; |
| 124 | // ----------------------------------------
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| 125 | 726fdc72 | galberding | }; |
| 126 | |||
| 127 | |||
| 128 | |||
| 129 | } // end of namespace amiro
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| 130 | |||
| 131 | #endif // AMIRO_LINEFOLLOWING_H |