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putting test in the HR calculationto stay compatible with the algo usage

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This commit is contained in:
Pierre Bonneau
2024-03-23 14:37:08 +01:00
committed by GitHub
parent 19ebe73182
commit 8a15edd8fc
1 changed files with 33 additions and 31 deletions
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64
app/src/main/java/uk/org/openseizuredetector/SdAlgHr.java
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@@ -104,9 +104,11 @@ public class SdAlgHr {
* Check heart rate value against simple thresholds * Check heart rate value against simple thresholds
*/ */
boolean retVal = false; boolean retVal = false;
if ((hrVal > mSimpleHrAlarmThreshMax) if (mSimpleHrAlarmActive) {
|| (hrVal < mSimpleHrAlarmThreshMin)) { if ((hrVal > mSimpleHrAlarmThreshMax)
retVal = true; || (hrVal < mSimpleHrAlarmThreshMin)) {
retVal = true;
}
} }
return (retVal); return (retVal);
} }
@@ -145,34 +147,39 @@ public class SdAlgHr {
private boolean checkAdaptiveHr(double hrVal) { private boolean checkAdaptiveHr(double hrVal) {
boolean retVal; boolean retVal;
retVal = false; retVal = false;
double hrThreshMin;
double hrThreshMax; if (mAdaptiveHrAlarmActive) {
double avHr = getAdaptiveHrAverage(); double hrThreshMin;
hrThreshMin = avHr - mAdaptiveHrAlarmThresh; double hrThreshMax;
hrThreshMax = avHr + mAdaptiveHrAlarmThresh; double avHr = getAdaptiveHrAverage();
hrThreshMin = avHr - mAdaptiveHrAlarmThresh;
hrThreshMax = avHr + mAdaptiveHrAlarmThresh;
if (hrVal < hrThreshMin) {
retVal = true; if (hrVal < hrThreshMin) {
retVal = true;
}
if (hrVal > hrThreshMax) {
retVal = true;
}
Log.d(TAG, "checkAdaptiveHr() - hrVal=" + hrVal + ", avHr=" + avHr + ", thresholds=(" + hrThreshMin + ", " + hrThreshMax + "): Alarm=" + retVal);
} }
if (hrVal > hrThreshMax) {
retVal = true;
}
Log.d(TAG, "checkAdaptiveHr() - hrVal=" + hrVal + ", avHr=" + avHr + ", thresholds=(" + hrThreshMin + ", " + hrThreshMax + "): Alarm=" + retVal);
return (retVal); return (retVal);
} }
private boolean checkAverageHr(double hrVal) { private boolean checkAverageHr(double hrVal) {
boolean retVal; boolean retVal;
retVal = false; retVal = false;
double avHr = getAverageHrAverage(); if (mAverageHrAlarmActive) {
if (avHr < mAverageHrAlarmThreshMin) { double avHr = getAverageHrAverage();
retVal = true; if (avHr < mAverageHrAlarmThreshMin) {
retVal = true;
}
if (avHr > mAverageHrAlarmThreshMax) {
retVal = true;
}
Log.d(TAG, "checkAverageHr() - hrVal=" + hrVal + ", avHr=" + avHr + ", thresholds=(" + mAverageHrAlarmThreshMin + ", " + mAverageHrAlarmThreshMin + "): Alarm=" + retVal);
} }
if (avHr > mAverageHrAlarmThreshMax) {
retVal = true;
}
Log.d(TAG, "checkAverageHr() - hrVal=" + hrVal + ", avHr=" + avHr + ", thresholds=(" + mAverageHrAlarmThreshMin + ", " + mAverageHrAlarmThreshMin + "): Alarm=" + retVal);
return (retVal); return (retVal);
} }
@@ -189,15 +196,10 @@ public class SdAlgHr {
mAverageHrBuff.add(hrVal); mAverageHrBuff.add(hrVal);
mHrHist.add(hrVal); mHrHist.add(hrVal);
ArrayList<Boolean> retVal = new ArrayList<Boolean>(); ArrayList<Boolean> retVal = new ArrayList<Boolean>();
if (mSimpleHrAlarmActive) { retVal.add(checkSimpleHr(hrVal));
retVal.add(checkSimpleHr(hrVal)); retVal.add(checkAdaptiveHr(hrVal));
} retVal.add(checkAverageHr(hrVal));
if (mAdaptiveHrAlarmActive) {
retVal.add(checkAdaptiveHr(hrVal));
}
if (mAverageHrAlarmActive) {
retVal.add(checkAverageHr(hrVal));
}
return (retVal); return (retVal);
} }