1、优化有效点判断方法:满足以下两个条件为有效:
1)和前一个解相比小于门限 2)和前二个解相比小于门限,或者和滤波后的解相比小于门限
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weidong
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0aca5d7041
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@ -68,14 +68,37 @@ public class GNSSCalcFilterService {
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// 检查是不是坏点
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GnssCalcData record0 = null;
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if(gnssHistoryRecords.size()>0) record0 = gnssHistoryRecords.get(0);
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if(record0 != null && Math.abs(record0.getB562e() - newRecord.getB562e())<0.001) {
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//如果上一个点为空,则这个点是第一个点,判为无效
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if(record0 == null) return false;
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//连续两个相同的点也认为无效
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if(Math.abs(record0.getB562e() - newRecord.getB562e())<0.001) {
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return false;
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}
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if(referPos==null && record0!=null) {
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referPos = new double[]{record0.getB562e(), record0.getB562n(), record0.getB562d()};
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//和上一个点相比,超过门限则认为无效
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if (Math.abs(newRecord.getB562e() - record0.getB562e()) > xyThreshold ||
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Math.abs(newRecord.getB562n() - record0.getB562n()) > xyThreshold ||
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Math.abs(newRecord.getB562d() - record0.getB562d()) > zThreshold) {
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isGood = false; //记录为坏点,下次不参与滤波
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logger.debug("{} bad point",newRecord.getDeviceid());
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}
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if(referPos==null) return false;
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// 如果是好点,对于增强算法还需做进一步判断
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if(isGood && isAdvFilter){
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//和参考点比,如果是坏点,再和前二个点比如果还是坏点才认为是坏点
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isGood =(referPos!=null && (Math.abs(newRecord.getB562e() - referPos[0]) <= xyThreshold &&
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Math.abs(newRecord.getB562n() - referPos[1]) <= xyThreshold &&
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Math.abs(newRecord.getB562d() - referPos[2]) <= zThreshold));
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if(!isGood){
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GnssCalcData record1 = null;
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if (gnssHistoryRecords.size() > 1) record1 = gnssHistoryRecords.get(1);
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isGood =(record1 == null ||
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((Math.abs(newRecord.getB562e() - record1.getB562e()) <= xyThreshold &&
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Math.abs(newRecord.getB562n() - record1.getB562n()) <= xyThreshold &&
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Math.abs(newRecord.getB562d() - record1.getB562d()) <= zThreshold)));
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}
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logger.debug("{} point adv judge {}",newRecord.getDeviceid(), isGood);
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}
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/*
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if (Math.abs(newRecord.getB562e() - referPos[0]) > xyThreshold ||
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Math.abs(newRecord.getB562n() - referPos[1]) > xyThreshold ||
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Math.abs(newRecord.getB562d() - referPos[2]) > zThreshold) {
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@ -87,13 +110,16 @@ public class GNSSCalcFilterService {
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GnssCalcData record1 = null;
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if(gnssHistoryRecords.size()>1) record1 = gnssHistoryRecords.get(1);
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if(record1 == null ||
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Math.abs(newRecord.getB562e() - record1.getB562e()) > xyThreshold*2 ||
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(Math.abs(newRecord.getB562e() - record1.getB562e()) > xyThreshold*2 ||
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Math.abs(newRecord.getB562n() - record1.getB562n()) > xyThreshold*2 ||
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Math.abs(newRecord.getB562d() - record1.getB562d()) > zThreshold*2) {
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Math.abs(newRecord.getB562d() - record1.getB562d()) > zThreshold*2) ||
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(Math.abs(newRecord.getB562e() - referPos[0]) > xyThreshold ||
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Math.abs(newRecord.getB562n() - referPos[1]) > xyThreshold ||
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Math.abs(newRecord.getB562d() - referPos[2]) > zThreshold)) {
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logger.debug("{} adv filter bad point",newRecord.getDeviceid());
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isGood = false; //记录为坏点,下次不参与滤波
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}
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}
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}*/
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return isGood;
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}
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@ -174,7 +200,7 @@ public class GNSSCalcFilterService {
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// 选取[newRecordTime-filterCycleHour, newRcordTime]之间的记录做平滑
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// 如果这个时间段的记录数少于FILTER_MIN_RECORD_NUM,本次不做平滑
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LocalDateTime newRecordTime = newRecord.getCreatetime();
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LocalDateTime filterAfterTime = newRecordTime.minusHours(filterCycleHour<zFilterCycleHour?zFilterCycleHour:filterCycleHour);
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LocalDateTime filterAfterTime = newRecordTime.minusHours(Math.max(filterCycleHour,zFilterCycleHour));
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LocalDateTime xyFilterTime = newRecordTime.minusHours(filterCycleHour);
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LocalDateTime zFilterTime = newRecordTime.minusHours(zFilterCycleHour);
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LocalDateTime minCycleTime = newRecordTime.minusHours(minCycleHour);
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