算法调整
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@@ -1353,28 +1353,31 @@ public class DataCleanServiceImpl implements IDataCleanService {
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}
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}
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//相电压有效值
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pqReasonableRangeDto = map.get(DataCleanEnum.RmsV.getCode());
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phaseList = Arrays.asList(pqReasonableRangeDto.getPhaseType().split(","));
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if (phaseList.contains(dto.getPhasicType())) {
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if (ObjectUtil.isNotNull(dto.getRms())) {
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if (dto.getRms() < (pqReasonableRangeDto.getMinValue() / 100.0 * DataCommonUtils.getVoltageData(line.getVoltageLevel()))
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|| dto.getRms() > (pqReasonableRangeDto.getMaxValue() / 100.0 * DataCommonUtils.getVoltageData(line.getVoltageLevel()))) {
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//log.info("dataV-相电压有效值数据异常,已清洗!数据值:{},数据时间:{}", dto.getRms(), dto.getMinTime());
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PqDataVerify pqDataVerify = getPqDataVerify(dto.getLineId()
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, dto.getMinTime()
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, dto.getValueType()
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, dto.getPhasicType()
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, pqReasonableRangeDto.getIndexCode()
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, pqReasonableRangeDto.getIndexName()
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, pqReasonableRangeDto.getInfluxdbTableName()
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, dto.getRms()
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, pqReasonableRangeDto.getMinValue() * DataCommonUtils.getVoltageData(line.getVoltageLevel())
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, pqReasonableRangeDto.getMaxValue() * DataCommonUtils.getVoltageData(line.getVoltageLevel()));
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list.add(pqDataVerify);
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//相电压有效值 判断接线方式 (0-星型 1-角型 2-V型) 星型是相电压 角型或者v型是线电压
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//0:星型接法;1:三角型接法;2:开口三角型接法
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if (ObjectUtil.isNotNull(line.getPtType()) && line.getPtType() == 0) {
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pqReasonableRangeDto = map.get(DataCleanEnum.RmsV.getCode());
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phaseList = Arrays.asList(pqReasonableRangeDto.getPhaseType().split(","));
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if (phaseList.contains(dto.getPhasicType())) {
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if (ObjectUtil.isNotNull(dto.getRms())) {
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if (dto.getRms() < (pqReasonableRangeDto.getMinValue() / 100.0 * DataCommonUtils.getVoltageData(line.getVoltageLevel()))
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|| dto.getRms() > (pqReasonableRangeDto.getMaxValue() / 100.0 * DataCommonUtils.getVoltageData(line.getVoltageLevel()))) {
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//log.info("dataV-相电压有效值数据异常,已清洗!数据值:{},数据时间:{}", dto.getRms(), dto.getMinTime());
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PqDataVerify pqDataVerify = getPqDataVerify(dto.getLineId()
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, dto.getMinTime()
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, dto.getValueType()
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, dto.getPhasicType()
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, pqReasonableRangeDto.getIndexCode()
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, pqReasonableRangeDto.getIndexName()
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, pqReasonableRangeDto.getInfluxdbTableName()
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, dto.getRms()
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, pqReasonableRangeDto.getMinValue() * DataCommonUtils.getVoltageData(line.getVoltageLevel())
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, pqReasonableRangeDto.getMaxValue() * DataCommonUtils.getVoltageData(line.getVoltageLevel()));
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list.add(pqDataVerify);
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}
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} else {
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logger.info("rmsV{}", dto);
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}
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} else {
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logger.info("rmsV{}", dto);
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}
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}
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@@ -1477,24 +1480,27 @@ public class DataCleanServiceImpl implements IDataCleanService {
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}
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}
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//线电压有效值
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pqReasonableRangeDto = map.get(DataCleanEnum.RmsLvr.getCode());
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phaseList = Arrays.asList(pqReasonableRangeDto.getPhaseType().split(","));
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if (phaseList.contains(dto.getPhasicType()) && ObjectUtil.isNotNull(dto.getRmsLvr())) {
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if (dto.getRmsLvr() < (pqReasonableRangeDto.getMinValue() / 100.0 * DataCommonUtils.getVoltageData(line.getVoltageLevel()))
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|| dto.getRmsLvr() > (pqReasonableRangeDto.getMaxValue() / 100.0 * DataCommonUtils.getVoltageData(line.getVoltageLevel()))) {
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//log.info("dataV-线电压有效值数据异常,已清洗!数据值:{},数据时间:{}", dto.getRmsLvr(), dto.getMinTime());
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PqDataVerify pqDataVerify = getPqDataVerify(dto.getLineId()
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, dto.getMinTime()
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, dto.getValueType()
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, dto.getPhasicType()
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, pqReasonableRangeDto.getIndexCode()
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, pqReasonableRangeDto.getIndexName()
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, pqReasonableRangeDto.getInfluxdbTableName()
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, dto.getRmsLvr()
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, pqReasonableRangeDto.getMinValue() * DataCommonUtils.getVoltageData(line.getVoltageLevel())
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, pqReasonableRangeDto.getMaxValue() * DataCommonUtils.getVoltageData(line.getVoltageLevel()));
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list.add(pqDataVerify);
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//线电压有效值 判断接线方式 (0-星型 1-角型 2-V型) 星型是相电压 角型或者v型是线电压
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//0:星型接法;1:三角型接法;2:开口三角型接法
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if (ObjectUtil.isNotNull(line.getPtType()) && line.getPtType() != 0) {
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pqReasonableRangeDto = map.get(DataCleanEnum.RmsLvr.getCode());
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phaseList = Arrays.asList(pqReasonableRangeDto.getPhaseType().split(","));
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if (phaseList.contains(dto.getPhasicType()) && ObjectUtil.isNotNull(dto.getRmsLvr())) {
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if (dto.getRmsLvr() < (pqReasonableRangeDto.getMinValue() / 100.0 * DataCommonUtils.getVoltageData(line.getVoltageLevel()))
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|| dto.getRmsLvr() > (pqReasonableRangeDto.getMaxValue() / 100.0 * DataCommonUtils.getVoltageData(line.getVoltageLevel()))) {
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//log.info("dataV-线电压有效值数据异常,已清洗!数据值:{},数据时间:{}", dto.getRmsLvr(), dto.getMinTime());
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PqDataVerify pqDataVerify = getPqDataVerify(dto.getLineId()
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, dto.getMinTime()
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, dto.getValueType()
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, dto.getPhasicType()
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, pqReasonableRangeDto.getIndexCode()
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, pqReasonableRangeDto.getIndexName()
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, pqReasonableRangeDto.getInfluxdbTableName()
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, dto.getRmsLvr()
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, pqReasonableRangeDto.getMinValue() * DataCommonUtils.getVoltageData(line.getVoltageLevel())
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, pqReasonableRangeDto.getMaxValue() * DataCommonUtils.getVoltageData(line.getVoltageLevel()));
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list.add(pqDataVerify);
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}
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}
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}
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@@ -1647,7 +1653,7 @@ public class DataCleanServiceImpl implements IDataCleanService {
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phaseList = Arrays.asList(pqReasonableRangeDto.getPhaseType().split(","));
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if (phaseList.contains(dto.getPhasicType())) {
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if (ObjectUtil.isNotNull(dto.getRms())) {
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if (dto.getRms() >= line.getCT1() * 1.2) {
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if (dto.getRms() < pqReasonableRangeDto.getMinValue() || dto.getRms() > pqReasonableRangeDto.getMaxValue()) {
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PqDataVerify pqDataVerify = getPqDataVerify(dto.getLineId()
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, dto.getMinTime()
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, dto.getValueType()
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