simple proportional braking for freewheeling
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3becfe30b1
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e83de79916
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@ -13,16 +13,15 @@
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const uint16_t calib_throttle_min = 350;
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const uint16_t calib_throttle_min = 350;
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const uint16_t calib_throttle_max = 810;
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const uint16_t calib_throttle_max = 810;
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int16_t out_speedFL=0;
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int16_t out_speedFR=0;
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int16_t out_speedRL=0;
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int16_t out_speedRR=0;
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unsigned long last_send = 0;
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unsigned long last_send = 0;
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unsigned long last_receive = 0;
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unsigned long last_receive = 0;
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float avg_currentL=0;
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float avg_currentL=0;
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float avg_currentR=0;
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float avg_currentR=0;
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int16_t cmd_send=0;
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// Global variables for serial communication
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// Global variables for serial communication
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typedef struct{
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typedef struct{
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@ -44,6 +43,7 @@ typedef struct{
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} SerialCommand;
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} SerialCommand;
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SerialCommand CommandFront;
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SerialCommand CommandFront;
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typedef struct{
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typedef struct{
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uint16_t start;
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uint16_t start;
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int16_t cmd1;
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int16_t cmd1;
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@ -52,7 +52,7 @@ typedef struct{
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int16_t speedR_meas;
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int16_t speedR_meas;
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int16_t batVoltage;
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int16_t batVoltage;
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int16_t boardTemp;
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int16_t boardTemp;
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int16_t curL_DC;
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int16_t curL_DC; //negative values are current drawn. positive values mean generated current
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int16_t curR_DC;
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int16_t curR_DC;
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uint16_t cmdLed;
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uint16_t cmdLed;
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uint16_t checksum;
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uint16_t checksum;
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@ -60,10 +60,24 @@ typedef struct{
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SerialFeedback FeedbackFront;
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SerialFeedback FeedbackFront;
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SerialFeedback NewFeedbackFront;
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SerialFeedback NewFeedbackFront;
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#define CURRENT_FILTER_SIZE 100 //latency is about CURRENT_FILTER_SIZE/2*MEASURE_INTERVAL (measure interval is defined by hoverboard controller)
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#define CURRENT_MEANVALUECOUNT 10 //0<= meanvaluecount < CURRENT_FILTER_SIZE/2. how many values will be used from sorted weight array from the center region. abour double this values reading are used
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typedef struct{
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int16_t curL_DC[CURRENT_FILTER_SIZE] = {0};
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int16_t curR_DC[CURRENT_FILTER_SIZE] = {0};
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uint8_t cur_pos=0;
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int16_t cmdL=0;
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int16_t cmdR=0;
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} MotorParameter;
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MotorParameter motorparamsFront;
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void SendSerial(SerialCommand &scom, int16_t uSpeedLeft, int16_t uSpeedRight, HardwareSerial &SerialRef);
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void SendSerial(SerialCommand &scom, int16_t uSpeedLeft, int16_t uSpeedRight, HardwareSerial &SerialRef);
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bool ReceiveSerial(SerialRead &sread, SerialFeedback &Feedback,SerialFeedback &NewFeedback, HardwareSerial &SerialRef);
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bool ReceiveSerial(SerialRead &sread, SerialFeedback &Feedback,SerialFeedback &NewFeedback, HardwareSerial &SerialRef);
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int sort_desc(const void *cmp1, const void *cmp2);
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float filterMedian(int16_t* values);
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void SendSerial(SerialCommand &scom, int16_t uSpeedLeft, int16_t uSpeedRight, HardwareSerial &SerialRef)
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void SendSerial(SerialCommand &scom, int16_t uSpeedLeft, int16_t uSpeedRight, HardwareSerial &SerialRef)
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{
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{
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// Create command
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// Create command
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@ -139,7 +153,6 @@ bool ReceiveSerial(SerialRead &sread, SerialFeedback &Feedback,SerialFeedback &N
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sread.incomingBytePrev = sread.incomingByte;
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sread.incomingBytePrev = sread.incomingByte;
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return _result; //new data was available
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return _result; //new data was available
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}
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}
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// ########################## SETUP ##########################
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// ########################## SETUP ##########################
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@ -161,43 +174,74 @@ unsigned long loopmillis;
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void loop() {
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void loop() {
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loopmillis=millis(); //read millis for this cycle
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loopmillis=millis(); //read millis for this cycle
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bool newData=false;
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bool newData2=ReceiveSerial(SerialcomFront,FeedbackFront, NewFeedbackFront, Serial2);
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newData=ReceiveSerial(SerialcomFront,FeedbackFront, NewFeedbackFront, Serial2);
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//Serial.print("fo="); Serial.println(count);
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//Serial.print("fo="); Serial.println(count);
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//count++;
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//count++;
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if (newData) {
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if (newData2) {
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float _current = (FeedbackFront.curL_DC+FeedbackFront.curR_DC)/2.0 / 50;
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motorparamsFront.cur_pos++;
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motorparamsFront.cur_pos%=CURRENT_FILTER_SIZE;
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/*
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motorparamsFront.curL_DC[motorparamsFront.cur_pos] = FeedbackFront.curL_DC;
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Serial.print(FeedbackFront.curL_DC); Serial.print(", ");
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motorparamsFront.curR_DC[motorparamsFront.cur_pos] = FeedbackFront.curR_DC;
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Serial.print(FeedbackFront.curR_DC); Serial.print(", ");
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Serial.print(", mean="); Serial.print(_current);
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Serial.print(", ");
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Serial.print(FeedbackFront.cmd1); Serial.print(", ");
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Serial.print(FeedbackFront.cmd2); Serial.print(", ");
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Serial.println();
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*/
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#define CURRENTFILTER 0.95
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avg_currentL=avg_currentL*CURRENTFILTER+FeedbackFront.curL_DC*(1-CURRENTFILTER);
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avg_currentR=avg_currentR*CURRENTFILTER+FeedbackFront.curR_DC*(1-CURRENTFILTER);
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}
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}
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if (loopmillis - last_send > SENDPERIOD) {
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if (loopmillis - last_send > SENDPERIOD) {
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last_send=loopmillis;
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last_send=loopmillis;
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uint16_t throttle_raw = analogRead(PIN_THROTTLE);
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uint16_t throttle_raw = analogRead(PIN_THROTTLE);
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//Serial.print("Analog: "); Serial.print(throttle_raw);
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int16_t throttle_pos=max(0,min(1000,map(throttle_raw,calib_throttle_min,calib_throttle_max,0,1000))); //map and constrain
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out_speedFR=max(0,min(1000,map(throttle_raw,calib_throttle_min,calib_throttle_max,0,1000)));
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//Serial.print(", Send: "); Serial.println(out_speedFL);
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SendSerial(CommandFront,out_speedFL,out_speedFR,Serial2);
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Serial.print(out_speedFL); Serial.print(", "); Serial.print(out_speedFR); Serial.print(", "); Serial.print(avg_currentR); Serial.print(", "); Serial.println(avg_currentL);
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float freewheel_current=0.1;
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float freewheel_break_factor=1000.0; //speed cmd units per amp per second. 1A over freewheel_current decreases cmd speed by this amount (in average)
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float filtered_curFL=filterMedian(motorparamsFront.curL_DC)/50.0;
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float filtered_curFR=filterMedian(motorparamsFront.curR_DC)/50.0;
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float filtered_currentAll=(filtered_curFL+filtered_curFR)/2.0; //mean current of all motors
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if (throttle_pos>=motorparamsFront.cmdR) { //accelerating
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cmd_send = throttle_pos; //if throttle higher than apply throttle directly
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}else{ //freewheeling or braking
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if (-filtered_currentAll>freewheel_current) { //breaking current high enough
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cmd_send-= max(0, (-filtered_currentAll-freewheel_current)*freewheel_break_factor*(SENDPERIOD/1000.0)); //how much current over freewheel current, multiplied by factor
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}
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cmd_send-=1; //reduce slowly anyways
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cmd_send=constrain(cmd_send,0,1000);
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}
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//apply throttle command to all motors
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motorparamsFront.cmdL=cmd_send;
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motorparamsFront.cmdR=cmd_send;
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SendSerial(CommandFront,motorparamsFront.cmdL,motorparamsFront.cmdR,Serial2);
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Serial.print(cmd_send); Serial.print(", "); Serial.print(throttle_pos); Serial.print(", "); Serial.print(filtered_curFL*1000); Serial.print(", "); Serial.print(filtered_curFR*1000); Serial.print(", "); Serial.print(filtered_currentAll*1000); Serial.println();
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}
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}
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}
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}
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int sort_desc(const void *cmp1, const void *cmp2) //compare function for qsort
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{
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float a = *((float *)cmp1);
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float b = *((float *)cmp2);
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return a > b ? -1 : (a < b ? 1 : 0);
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}
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float filterMedian(int16_t* values) {
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float copied_values[CURRENT_FILTER_SIZE];
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for(int i=0;i<CURRENT_FILTER_SIZE;i++) {
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copied_values[i] = values[i]; //TODO: maybe some value filtering/selection here
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}
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float copied_values_length = sizeof(copied_values) / sizeof(copied_values[0]);
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qsort(copied_values, copied_values_length, sizeof(copied_values[0]), sort_desc);
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float mean=copied_values[CURRENT_FILTER_SIZE/2];
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for (uint8_t i=1; i<=CURRENT_MEANVALUECOUNT;i++) {
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mean+=copied_values[CURRENT_FILTER_SIZE/2-i]+copied_values[CURRENT_FILTER_SIZE/2+i]; //add two values around center
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}
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mean/=(1+CURRENT_MEANVALUECOUNT*2);
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return mean;
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}
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