precision shooter: catches ball and goes towards goal
depending on the angle it catches the ball at, sometimes it hides the ball, sometimes it does a random spinning kick when it founds the linepull/1/head
parent
fc485a021a
commit
f7a5b072df
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@ -10,7 +10,7 @@
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//BEST NUMBERS YET
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//BEST NUMBERS YET
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//USE MOVING AVERAGE AND ANGLE WRAP
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//USE MOVING AVERAGE AND ANGLE WRAP
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#define KP 1.35
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#define KP 1.2
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#define KI 0.0
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#define KI 0.0
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#define KD 0.025
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#define KD 0.025
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@ -20,7 +20,7 @@
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//Max possible vel 310
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//Max possible vel 310
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#define MAX_VEL 50
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#define MAX_VEL 60
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#define MAX_VEL_EIGTH ((int)MAX_VEL*0.8)
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#define MAX_VEL_EIGTH ((int)MAX_VEL*0.8)
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#define MAX_VEL_HALF ((int)MAX_VEL*0.5)
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#define MAX_VEL_HALF ((int)MAX_VEL*0.5)
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#define MAX_VEL_3QUARTERS ((int)MAX_VEL*0.75)
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#define MAX_VEL_3QUARTERS ((int)MAX_VEL*0.75)
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@ -37,6 +37,7 @@ class DriveController{
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void drive(int dir=0, int speed=0, int tilt=0);
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void drive(int dir=0, int speed=0, int tilt=0);
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void prepareDrive(int dir, int speed, int tilt=0);
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void prepareDrive(int dir, int speed, int tilt=0);
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void drivePrepared();
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void drivePrepared();
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int directionAccountingForTilt(int, int);
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float updatePid();
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float updatePid();
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float torad(float f);
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float torad(float f);
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void resetDrive();
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void resetDrive();
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@ -27,7 +27,7 @@ These values need to be subtracted from the coords used in setMoveSetpoints*/
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// #define CAMERA_TRANSLATION_Y 7
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// #define CAMERA_TRANSLATION_Y 7
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//Robot with roller
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//Robot with roller
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#define CAMERA_TRANSLATION_X -5
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#define CAMERA_TRANSLATION_X 0
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#define CAMERA_TRANSLATION_Y 0
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#define CAMERA_TRANSLATION_Y 0
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class DataSourceCameraConic : public DataSource{
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class DataSourceCameraConic : public DataSource{
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@ -168,3 +168,7 @@ void DriveController::stopAll(){
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m3->stop();
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m3->stop();
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m4->stop();
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m4->stop();
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}
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}
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int DriveController::directionAccountingForTilt(int wanted_direction, int tilt){
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return ((360-tilt+wanted_direction)+360)%360;
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}
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@ -29,12 +29,28 @@ void PrecisionShooter::init()
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ballAngleFilter = new ComplementaryFilter(0.85);
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ballAngleFilter = new ComplementaryFilter(0.85);
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}
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}
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float tilt1 = 0;
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float tilt2 = 0;
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int spinner_state = 0;
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bool spinner_flag = false;
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unsigned long spinner_timer = 0;
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float spinner_tilt = 0;
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int ball_catch_state = 0;
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bool ball_catch_flag = false;
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unsigned long ball_catch_timer = 0;
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float ball_catch_tilt = 0;
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void PrecisionShooter::realPlay()
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void PrecisionShooter::realPlay()
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{
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{
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if (CURRENT_DATA_READ.ballSeen)
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if (CURRENT_DATA_READ.ballSeen)
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this->spinner(5);
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this->catchBall();
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else
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else{
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ps->goCenter();
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ps->goCenter();
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ball_catch_flag = false;
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spinner_flag = false;
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ball_catch_state = 0;
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spinner_state = 0;
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}
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}
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}
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/*
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/*
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@ -43,13 +59,6 @@ Spinning kick state machine
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1: tilt toward 180 deg
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1: tilt toward 180 deg
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2: tilt back to 0 in the needed direction, stopping the roller whenn needed
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2: tilt back to 0 in the needed direction, stopping the roller whenn needed
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*/
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*/
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float tilt1 = 0;
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float tilt2 = 0;
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int spinner_state = 0;
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bool spinner_flag = false;
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unsigned long spinner_timer = 0;
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float spinner_tilt = 0;
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void PrecisionShooter::spinner(int targetx){
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void PrecisionShooter::spinner(int targetx){
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// if(!ballPresence->isInMouth()) {
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// if(!ballPresence->isInMouth()) {
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// spinner_state=0;
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// spinner_state=0;
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@ -128,10 +137,6 @@ Ball catch state machine
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1: slowly return facing to north (slowly otherwise we might lose the ball)
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1: slowly return facing to north (slowly otherwise we might lose the ball)
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2: reach the spot
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2: reach the spot
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*/
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*/
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int ball_catch_state = 0;
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bool ball_catch_flag = false;
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unsigned long ball_catch_timer = 0;
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float ball_catch_tilt = 0;
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void PrecisionShooter::catchBall(){
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void PrecisionShooter::catchBall(){
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@ -144,27 +149,29 @@ void PrecisionShooter::catchBall(){
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}
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}
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if(ball_catch_state == 0){
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if(ball_catch_state == 0){
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drive->prepareDrive(0, 30, ballAngleFilter->calculate(CURRENT_DATA_READ.ballAngleFix));
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drive->prepareDrive(0, MAX_VEL_HALF, ballAngleFilter->calculate(CURRENT_DATA_READ.ballAngleFix));
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if(ballPresence->isInMouth() && !ball_catch_flag){
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if(ballPresence->isInMouth() && !ball_catch_flag){
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ball_catch_flag = true;
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ball_catch_flag = true;
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ball_catch_timer = millis();
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ball_catch_timer = millis();
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}
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}
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if(ballPresence->isInMouth() && ball_catch_flag && millis() - ball_catch_timer > 250) {
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if(ballPresence->isInMouth() && ball_catch_flag && millis() - ball_catch_timer > 350) {
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ball_catch_state++;
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ball_catch_state++;
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ball_catch_tilt = CURRENT_DATA_READ.IMUAngle;
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ball_catch_tilt = CURRENT_DATA_READ.IMUAngle;
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}
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}
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}else if(ball_catch_state == 1){
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}else if(ball_catch_state == 1){
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if(ball_catch_tilt > 180) ball_catch_tilt += 0.15;
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int val = ballAngleFilter->calculate(CURRENT_DATA_READ.ballAngleFix);
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else if(ball_catch_tilt <= 180) ball_catch_tilt -= 0.15;
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drive->prepareDrive(drive->directionAccountingForTilt(CURRENT_DATA_READ.angleAtkFix, val ),MAX_VEL_HALF,val);
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drive->prepareDrive(0,0,ball_catch_tilt);
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// if(ball_catch_tilt > 180) ball_catch_tilt += 0.15;
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// else if(ball_catch_tilt <= 180) ball_catch_tilt -= 0.15;
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if(CURRENT_DATA_READ.IMUAngle >= 355 || CURRENT_DATA_READ.IMUAngle <= 5) ball_catch_state = 0;
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// drive->prepareDrive(0,0,ball_catch_tilt);
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}else if(ball_catch_state == 2){
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((PositionSysCamera*)ps)->setMoveSetpoints(CURRENT_DATA_READ.xAtkFix, 0);
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// if(CURRENT_DATA_READ.IMUAngle >= 355 || CURRENT_DATA_READ.IMUAngle <= 5) ball_catch_state = 0;
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if(((PositionSysCamera*)ps)->isInTheVicinityOf(CURRENT_DATA_READ.xAtkFix, 0)) ball_catch_state++;
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// ((PositionSysCamera*)ps)->setMoveSetpoints(CURRENT_DATA_READ.xAtkFix, 0);
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// if(((PositionSysCamera*)ps)->isInTheVicinityOf(CURRENT_DATA_READ.xAtkFix, 0)) ball_catch_state++;
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}
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}
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}
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}
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thresholds = [ (70, 100, -36, 8, 38, 112), # thresholds yellow goalz
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thresholds = [ (70, 100, -36, 8, 38, 112), # thresholds yellow goalz
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(31, 74, -31, 15, -50, -9)] # thresholds blue goal (6, 31, -15, 4, -35, 0)
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(37, 57, -19, 8, -52, -21)] # thresholds blue goal (6, 31, -15, 4, -35, 0)
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roi = (50, 0, 250, 200)
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roi = (50, 0, 270, 200)
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# Camera Setup ###############################################################
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# Camera Setup ###############################################################
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'''sensor.reset()xxxx
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'''sensor.reset()xxxx
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