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- #include <Arduino.h>
9 I* m, Y+ y/ I0 b- { - #include <MeAuriga.h> ~: y5 e' V5 w. s
- #include "MeLineFollowerArray.h"
7 |. V! w; f1 Y) V - & ~: R+ d- z0 Q
- MeEncoderOnBoard Encoder_1(SLOT1);
* }, s8 K; u) I; t9 a7 W - MeEncoderOnBoard Encoder_2(SLOT2);+ J- h0 E0 D2 G
- MeLightSensor lightsensor_1(12);4 l1 Y4 l8 d# u* A: u5 S
- MeLightSensor lightsensor_2(11);; y" }* E9 u8 z0 q$ _+ f# [0 G8 H
- MeBuzzer buzzer;
0 }- ^& c D# L+ w - MeLineFollowerArray linefollower(PORT_6);6 P1 H, }7 M+ ^5 b8 q+ U* r
- 6 r f" A, P! k, n, g2 ?
- #define Error1 1
! r1 J8 \: G+ _* p+ z - #define Error2 2
9 H4 _5 j% q; B5 F* e! F - #define Error3 3
+ |3 c* M4 _3 d - . s* Q8 p, H/ \" f5 m; M
- #define Kp 15
8 A+ b# ?% z3 y5 C6 a* @& M/ a' [ - #define Ki 0.15 |$ w' s- A. r6 i* F9 H' O
- #define Kd 0.03" x3 j- _) e% w$ n6 i' {, m$ F, F% B4 {
- ! T, l0 p- `& V$ @
- uint8_t sData;
4 p( a3 T! g" a1 A+ M! {3 T9 w - uint8_t D1;! s/ X( D8 E" r
- uint8_t D2;
# K: }$ e: ^+ }; i. }. t - uint8_t D3;% `: J: c5 v5 X2 f7 G' J6 s
- uint8_t D4;& Z+ z, Z9 B+ C& @' _
- uint8_t D5;) o. n1 g4 z* M5 s% Q
- uint8_t D6;
$ V8 z5 t* |/ F4 N3 f a - W/ h# j" T( }! V9 y( P5 W9 z7 v$ u
- float previous_error = 0;+ c1 k) p% D2 w' i) H, u
- float integral = 0;+ t y( y6 H# m3 Q2 v7 y+ j; N' t
- float derivative = 0;
' A. d t0 X0 Y: }6 h4 v* ~ u - int Speed = 160;
3 l1 v3 g2 u4 d$ E - float output;, I6 ^2 S5 h2 D/ j. X; A& h" |
2 e" b$ Q0 W% Y- byte Left;
8 J3 K& b1 T- d; o0 D3 a5 ^ - + \/ x+ t& U' ?$ m( d9 p
- void setup()
% k! B" `% e2 O - {4 ?. a9 ]% P6 |# Z
- //Set PWM 8KHz
6 L! O. R( o0 X& a - TCCR1A = _BV(WGM10);
7 N. S1 [8 @. q% {' v% c - TCCR1B = _BV(CS11) | _BV(WGM12);5 d& N f; }) Y3 [" a
- TCCR2A = _BV(WGM21) | _BV(WGM20);
6 y( ?# r3 f4 p# ?3 f2 o - TCCR2B = _BV(CS21); n% h' B& v5 w% q2 X0 h2 Y& e
- Serial.begin(9600);- ~' R1 S/ G: }; e# \$ V% D5 N' u
- buzzer.setpin(45);
5 Z' N9 {' O+ Q' U: ] - }
6 E9 i& p! G( C7 t- r3 m* `8 V - ( }" N6 |4 D4 [ W
- void loop()
0 B* {" c$ [4 F. R4 W- Q+ k - {& g6 L" u/ y6 o! j) S& k$ O: G
- while(!((lightsensor_1.read()) < (10)));
, P' j% F# A% w - buzzer.tone(1047, 500);( [0 R/ _* y7 a* a: W4 U
- delay(500);
& n) @+ H9 T8 u& g$ U - do
! g1 Q7 Z# V. {# U - {& k! V% g8 M4 H' e
- int Err = getErr();
5 y4 e. m+ \+ R8 e4 e" q+ G' ` - if(D1 == 1)
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- Left = 1;
7 U+ _5 ]. x- n7 x6 s; _ - }/ N. P; e* i! y0 k4 j% E
- if(D6 == 1)
' E/ V& G U1 M# z - {
/ v+ d7 o# q& s. i9 [3 W* M - Left = 0;% j, j( E( @/ t5 {$ [
- }
+ L8 e; t, a4 G1 I7 o& Z4 x* a - if(Err == 99)
& l+ [4 s i8 M0 D! G" E - {
, r7 C4 L5 t* h2 A- q/ L9 t5 s - if(Left == 1)
# X6 @" h4 a* |& _. B4 | - {/ [, o: b1 _1 a' {' e! H
- Speed -= 5;- c5 f7 S( m& F/ T1 N, X& Q
- moto(0,Speed);
) w+ Y' `& T1 k* |0 w6 \" ] - do
* k2 H7 \# }' }' {- D - {6 G- e" \1 M J/ P+ U$ z7 |7 c I
- Err = getErr();
}9 U8 W: g8 X4 K' } - }while((D1+D6) == 0);/ M8 j1 [& w3 T9 f& V; S3 |: V
- }4 o2 N8 O) k0 ~. S
- else
+ i- A: N3 I. A O8 X - {4 Z/ G1 m" R: Q& W6 K
- Speed -= 5;
7 Q1 x, a9 U( _! R% e - moto(Speed,0); 8 I! K5 \6 J# C1 o" W# I
- do' M% a9 A- S) o
- {& H. w5 j3 d: @1 H, L
- Err = getErr();5 t3 h, \3 n4 ]5 M: B/ V/ I
- }while((D1+D6) == 0);
5 l/ A4 s2 T; E( } - }
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- else! T) }6 ~, C2 s7 a+ q5 C
- {, j. n8 X% U8 s( ?, N0 c
- if((Speed < 160) & (Err < 2)) Speed+=1; 2 h4 z8 n; @- f' N F* p+ N
- if((Speed > 100) & (Err > 2)) Speed-=2;
A- A$ l+ O; I& C$ d - integral = integral + Err;5 v6 E/ u# j c
- derivative = Err - previous_error;
0 a) `2 C2 y2 s! a+ F; P; w3 o - output = Kp*Err + Ki*integral + Kd*derivative;
* ?" \- W' M+ f - moto(int(Speed-output),int(Speed+output));* i. c. S4 M3 J6 Y7 n" r ?
- previous_error = Err;
1 z& y. A' d8 z2 n0 l - }
6 Z% K3 D/ q+ C - }while(!((lightsensor_2.read()) < (10)));4 p2 _ w1 L* }& C }+ K
- moto(0,0);& T5 @0 `# C8 z: c1 [2 \
- delay(500);) }) s0 a8 h5 v. ?
- buzzer.tone(262, 500);
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4 P B: u \% n1 a( A7 `' }- int getErr()2 j6 Z# ~( P( s3 f7 ]% p$ L
- { ; C8 m. e: f9 I" @9 V
- sData = linefollower.getValue();
8 q7 [& K D: v. C( x" e - D1 = ~(sData>>0)&1;2 s* j6 T+ c) Z( {3 @: `* I
- D2 = ~(sData>>1)&1;
/ Z) p* U. o/ |8 W2 f6 r, d - D3 = ~(sData>>2)&1;
! i2 D! c: ~4 u1 x$ h/ }% _ - D4 = ~(sData>>3)&1;
: b' Y% H( C7 A! C0 \ ^ - D5 = ~(sData>>4)&1;
# G2 j2 c& m) } J: b5 \6 O; }' m( `* { - D6 = ~(sData>>5)&1;
" P& q8 b# X) G& d8 w+ E# ?( X% p - int downD = D1+D2+D3+D4+D5+D6;- Y3 p& q; _. ]7 ?
- int upD = D1*(Error3)+D2*(Error2)+D3*(Error1)+D4*(-Error1)+D5*(-Error2)+D6*(-Error3);
5 X% i* w: P+ c$ {& q - if(downD == 0). F$ }! p+ H% ^; \ b
- {; z5 ^' D% l% R, j
- return 99;
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2 A0 Z8 U# V& q0 g0 K - else
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) e# x2 [! t2 Y& V8 k E+ A - return upD/downD;4 `& I7 K! U O4 K* b
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- }
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- void moto(int Speed_L,int Speed_R)
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- Encoder_2.setMotorPwm(Speed_L);/ |% _8 I* B l, Y' U, K
- Encoder_1.setMotorPwm(-Speed_R);
; H U H3 A/ A, f: n - }
7 M7 f& w7 g/ a% M8 B1 pMeLineFollowerArray.cpp# F* Z. K" n* N3 B
- #include "MeLineFollowerArray.h"9 ]" i$ d3 f( z3 M
( O( P5 ^& `$ `5 a! n+ b- #ifdef ME_PORT_DEFINED+ ` C! c$ W i7 N6 H2 C
- MeLineFollowerArray::MeLineFollowerArray(void) : MePort(0)6 S. T+ L1 U, h3 a8 T/ w1 O, Z7 f6 C
- {. a! b- W8 n: J3 G1 {
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- }
8 G7 A5 g" e3 T/ _% L0 L5 ?0 |$ ~ - MeLineFollowerArray::MeLineFollowerArray(uint8_t port) : MePort(port)
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- _DataPin = mePort[port].s2;
* D& \' A8 s+ P G. n4 x - pinMode(_DataPin, OUTPUT);
% J V4 f* E; Z8 K - digitalWrite(_DataPin, HIGH);' H1 m1 a S" R2 e8 V
- }+ a8 \' w/ d. I8 Q
- #else // ME_PORT_DEFINED( ^* }. `. x6 ~- s
- MeLineFollowerArray::MeLineFollowerArray(uint8_t pin)
$ e1 B1 }, N2 D - {
+ i/ o) o. Q" n7 v) O - _DataPin = pin;: g2 l" b( W2 U
- pinMode(_DataPin, OUTPUT); % {: o. k- g/ v4 q0 Z
- digitalWrite(_DataPin, HIGH);2 l8 U! Z% K) w' {
- }
! b' q6 k! S4 D7 b3 M - #endif // ME_PORT_DEFINED% L/ ~0 O' y" x8 r) { R
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- void MeLineFollowerArray::setpin(uint8_t pin)
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- _DataPin = pin;
: H0 c n) b8 x; k0 e" e - pinMode(_DataPin, OUTPUT); % r1 m$ {9 t, n4 h
- digitalWrite(_DataPin, HIGH);" p4 [2 b7 _' ^: E' x3 |
- # j. z$ f& a- a% m3 F, d
- #ifdef ME_PORT_DEFINED
# K9 _/ n. L2 K! ^+ l" ^" K - s2 = pin;: P. b7 K7 J! h5 t1 B5 I& h8 S$ v
- #endif- ?9 g3 z k/ z+ H% X' B l
- }; C; ]1 w9 `- Q. `, H6 N) Z y
' ^' V* j0 B% e- uint8_t MeLineFollowerArray::getValue()
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- uint32_t LOW_level_read_time;
* B3 {% `/ U$ _- l L# }! K - uint32_t HIGH_level_read_time;7 ?* K4 v# u2 N0 V: [6 o# N
- uint32_t time_out_flag;8 s7 |5 M1 Q+ ^! _2 o" ^7 z
- uint8_t Sensor_Data[3];
/ G* d% y+ @+ T, H& |7 x) \* n. B0 J1 T - static uint8_t old_data = 0xff;
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- pinMode(_DataPin, OUTPUT); Z0 R7 v% y4 u+ M+ w% c* G
- digitalWrite(_DataPin, LOW);/ a# Q: I( G0 D
- delayMicroseconds(980);3 @& X, v/ F5 }6 Y1 j* m
- digitalWrite(_DataPin, HIGH);
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8 ]- B' O9 d% r- pinMode(_DataPin, INPUT_PULLUP);6 q: t7 K/ `! l& F" @! A. F; q% i
- delayMicroseconds(10);; U% z5 j( P( m4 L7 A. t; ^- z$ J
- ( m0 z, n: N, x/ D
- time_out_flag = millis();
# C1 J3 B' z1 L Q/ c. { - while(digitalRead(_DataPin) == 1 && ((millis() - time_out_flag) < MeLineFollowerArray_Communication_Time_Out) );
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' O O% W2 Q5 ^+ M" @/ [$ i( O5 ]- LOW_level_read_time = micros();
0 o h9 f$ ]# U - if((millis() - time_out_flag) >= MeLineFollowerArray_Communication_Time_Out) //time out: |- q3 ?. R7 ]. D; T w
- {. Z4 ?* Y5 _; {4 x7 `
- return 0xff;
, I% `" R$ q/ ]& o! M* c - }
; W5 d$ H# k1 I S
7 g! |- V7 \) d2 m! E* A( x- while(digitalRead(_DataPin) == 0 && ((millis() - time_out_flag) < MeLineFollowerArray_Communication_Time_Out) );
: [: p7 @0 z* ~
: [$ m# {5 g3 P/ \2 @6 f- HIGH_level_read_time = micros();
; _ ?* l9 i* a7 z. I - LOW_level_read_time = micros() - LOW_level_read_time; //read 100us LOW level8 W" l1 l" R8 m9 F6 H/ M6 c+ `
& X3 t: ?) p! N* r; A+ y- if((millis() - time_out_flag) >= MeLineFollowerArray_Communication_Time_Out) //time out
/ j4 u5 g( T1 T0 M5 |4 S$ k - {2 J1 M( h1 ^( I V5 j
- return 0xff;
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- : ` k- A! c. D3 p
- if( (LOW_level_read_time < 90) && (LOW_level_read_time > 110))
/ N7 @$ g; y# j& A3 y$ x( } - {, j, B" L t# X* k1 }
- return 0xff;5 a6 p7 j; H- ]7 ^9 X0 S& z# L/ }
- }
- Q$ v5 g' ?* {7 ] - / J& _9 R* X& i a& C8 W5 h
- while(digitalRead(_DataPin) == 1 && ((millis() - time_out_flag) < MeLineFollowerArray_Communication_Time_Out) );2 {6 T6 [: P( Z1 s( y& L& O. L
- LOW_level_read_time = micros();
( l+ q0 G% H- ?7 [2 Q - HIGH_level_read_time = micros() - HIGH_level_read_time; //read 50us HIGH level
/ o9 H( o6 Z. T" W9 {% } - 0 s: M9 g% E2 s% ~* T) }' E2 ?
- if((millis() - time_out_flag) >= MeLineFollowerArray_Communication_Time_Out) //time out
# ], D. E" S5 o/ i( I) q, g - {' ?) J% A: `% I8 N) C9 K3 B
- return 0xff;, d3 Z( q# g# H
- }
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- if( (HIGH_level_read_time < 5) && (HIGH_level_read_time > 55))9 V( Z/ s( W# V* C
- {+ ^) J7 Z" l1 x/ `4 o
- return 0xff;
) W, L% B2 g3 W) q3 e - }4 i6 F2 w2 R7 F; W/ Z* Q' r
: v2 m' W" x; w: y4 e- for(uint8_t k=0; k<3; k++)
, S! S8 d( \4 \+ H, B - {
?; @1 i# a, U% \5 d, \ - Sensor_Data[k] = 0x00;
a: h- T! s/ f- X: o- f* b
# k( d9 P) M" Z! U$ T- for(uint8_t i=0;i<8;i++)
& K! A. B( ^3 U7 f% ^* r5 I - {
7 b0 V2 B% a+ g2 b! A - while(digitalRead(_DataPin) == 0 && ((millis() - time_out_flag) < MeLineFollowerArray_Communication_Time_Out) ); //read 50us LOW level/ j- f6 P, S0 y( ^, `6 ]: e, T
- HIGH_level_read_time = micros();
- R$ R( n# Y ?7 F' X - LOW_level_read_time = micros() - LOW_level_read_time;1 w2 A9 d/ g- R6 g% b. q" |
/ X3 X% F8 ]# q2 ^- if( (LOW_level_read_time < 5) && (LOW_level_read_time > 55) )
4 \9 B# B) [( w4 }: j, A5 T - {. ?& `4 o0 Z. ?0 i5 A
- return 0xff;9 ^1 |/ w6 ?! [' t& ?- Q
- }
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- while(digitalRead(_DataPin) == 1 && ((millis() - time_out_flag) < MeLineFollowerArray_Communication_Time_Out) );" J% [8 m+ O5 @) S5 @& a
- LOW_level_read_time = micros();; Y& {7 t O9 [4 m' i3 v
- HIGH_level_read_time = micros() - HIGH_level_read_time; //read HIGH level' b1 U) j$ |$ H; \4 O/ O1 S
- # ^( q' ?& b; \- I# X& F& w7 l
- if(HIGH_level_read_time > 50 && HIGH_level_read_time < 100) //bit 1
+ q: ?1 |6 S* I - {
, I) K/ K' m4 ^' A( Z9 ?" d" c - Sensor_Data[k] |= (0x80 >> i);8 z4 I1 e6 ^) H7 ^/ Z8 p, b
- }
" s0 `& _, |1 J4 l - else if(HIGH_level_read_time >= 100); D; a5 c% R0 U! T
- {
) D H5 g! ?, X7 r: E - return 0xff;
8 `3 _" |# t+ i7 {8 z$ H - }
/ A5 Y* _3 D% I0 D, p+ I+ ]2 S - I' z. e7 B5 ?% r H! X: `
- if((millis() - time_out_flag) >= MeLineFollowerArray_Communication_Time_Out)
6 F* q/ v4 Z) E8 X4 g - {) v1 I ?1 A. j& v' }
- return 0xff;. s0 a) Y; f7 I* J/ f
- }4 y' G& T' z1 f; x% p* Q
- }
0 M8 A8 g2 J- I7 l - }
$ o' J! u, k6 j! d2 u. O - , C8 ~. S7 G: e4 Q& p5 P* c3 C
- while(digitalRead(_DataPin) == 0 && ((millis() - time_out_flag) < MeLineFollowerArray_Communication_Time_Out) ); //read 50us LOW level
# o' H6 `+ D# m- s+ u - HIGH_level_read_time = micros();
5 r" P" f# e1 l - LOW_level_read_time = micros() - LOW_level_read_time;( T- I' {( d, |& @9 y0 r+ U
- + X9 h4 C F9 I! ?9 i
- if( (LOW_level_read_time < 5) && (LOW_level_read_time > 55) )8 y: o1 l, e: ?1 m9 S
- {
2 K( J3 J( c& _8 f5 T* _ - return 0xff;6 B/ F6 I/ {' T C1 g2 N6 g
- }
! e) z3 t$ Z& O3 s; L6 C
! g! q6 O4 l/ e; A' W/ T! k- pinMode(_DataPin, OUTPUT);" s, \1 i/ P+ B) [1 T# L
- digitalWrite(_DataPin, HIGH);+ P0 y- d2 u! Z& ?3 h1 f
& F6 f% e% u& E! C A6 U- if( (Sensor_Data[2] == (uint8_t)(Sensor_Data[1] - Sensor_Data[0])) && (Sensor_Data[1] == (uint8_t)(~(uint8_t)Sensor_Data[0])))) ? T% U1 G& R
- {& h6 J* \. H) U/ y7 F1 n8 }. W
- old_data = Sensor_Data[0];, l7 L3 x4 _2 ~0 k0 |7 Q! A
- return Sensor_Data[0];
. X2 j! r7 |8 V5 e' A: Z/ T" H - }" M) N* J" v6 ?& H, G# x8 Y* T
- else
, X! d% O4 q" y5 _: X - {
0 ~8 g9 k. T8 i - return old_data;5 f1 |8 n! H/ G! J: k3 H
- }# V. ~/ c. Q; [' c" H
- }+ c% n, h$ y% p5 Z6 w
1 }- b" h* }/ N5 U& vMeLineFollowerArray.h
MeLineFollowerArray.h
(731 Bytes, 下載次數: 10, 售價: 100 個銅錢)
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