public bool FillOut(List<Context> contextList, IStudy study) { ValueMatrixShort dlDCHCIR = contextList[0][ContextKeys.DLDCHCIR] as ValueMatrixShort; if (dlDCHCIR == null) { return false; } return study.SaveResult(dlDCHCIR); }
public bool FillOut(List<Context> contextList, IStudy study) { ValueMatrixShort upPCHRSCP = contextList[0][ContextKeys.UpPCHRSCP] as ValueMatrixShort; if (upPCHRSCP == null) { return false; } return study.SaveResult(upPCHRSCP); }
public bool FillOut(List<Context> contextList, IStudy study) { ValueMatrixShort geometry = contextList[0][ContextKeys.Geometry] as ValueMatrixShort; //if (geometry==null) //{ // return false; //} return study.SaveResult(geometry); }
public bool FillOut(List<Context> contextList, IStudy study) { ValueMatrixShort mos = contextList[0][ContextKeys.GSMMos] as ValueMatrixShort; //if (mos==null) //{ // return false; //} return study.SaveResult(mos); }
public bool FillOut(List<Context> contextList, IStudy study) { ValueMatrixShort dlServiceCIR = contextList[0][ContextKeys.GSMDLServiceCIR] as ValueMatrixShort; //if (dlServiceCIR==null) //{ // return false; //} return study.SaveResult(dlServiceCIR); }
public bool FillOut(List<Context> contextList, IStudy study) { ValueMatrixShort handOver = contextList[0][ContextKeys.GSMHandOver] as ValueMatrixShort; //if (handOver==null) //{ // return false; //} return study.SaveResult(handOver); }
public bool FillOut(List<Context> contextList, IStudy study) { Context context = contextList[0]; ValueMatrixShort bestServerCellID = context[ContextKeys.TDBestServerCellID] as ValueMatrixShort; if (bestServerCellID == null) { return false; } List<IACell> m_CellList = (List<IACell>)context[ContextKeys.CellList]; GetColorForDiscreteStudy getColorCalc = new GetColorForDiscreteStudy(); getColorCalc.GetColorForCell(study, bestServerCellID,m_CellList); return study.SaveResult(bestServerCellID); }
public bool FillOut(List<Context> contextList, IStudy study) { Context context = contextList[0]; ValueMatrixShort CovByCirVM = (ValueMatrixShort)context["CovByCir"]; return study.SaveResult(CovByCirVM); }
public bool FillOut(List<Context> contextList, IStudy study) { Context context = contextList[0]; ValueMatrixShort EPDSCHEcNt = context[ContextKeys.UmtsEPDSCHEcNt] as ValueMatrixShort; return study.SaveResult(EPDSCHEcNt); }
private void SaveStudyResultPart_3(IStudy study) { if (study.Name.Equals("DL PDCCH Signal Level")) { study.SaveResult(this.m_DL_PDCCH_Level); } else if (study.Name.Equals("DL PDSCH Signal Level")) { study.SaveResult(this.m_DL_PDSCH_Level); } else if (study.Name.Equals("DL PDCCH SINR")) { study.SaveResult(this.m_PDCCH_SINRValue); } else if (study.Name.Equals("DL PCFICH Signal Level")) { study.SaveResult(this.m_DL_PCFICH_Level); } else if (study.Name.Equals("DL PCFICH SINR")) { study.SaveResult(this.m_PCFICH_SINRValue); } else if (study.Name.Equals("DL PHICH SINR")) { study.SaveResult(this.m_PHICH_SINRValue); } else if (study.Name.Equals("DL PHICH Signal Level")) { study.SaveResult(this.m_DL_PHICH_Level); } else if (study.Name.Equals("Handover Area")) { study.SaveResult(this.m_HandOver); } }
private void SaveStudyResultPart_4(IStudy study) { if (study.Name.Equals("DL RPDCCH Signal Level")) { study.SaveResult(this.m_DL_RPDCCH_Level); } //add by huna 3.17 else if (study.Name.Equals("DL RPDSCH Signal Level")) { study.SaveResult(this.m_DL_RPDSCH_Level); } else if (study.Name.Equals("UL RPUCCH Signal Level")) { study.SaveResult(this.m_UL_RPUCCH_Level); } else if (study.Name.Equals("UL RPUSCH Signal Level")) { study.SaveResult(this.m_UL_RPUSCH_Level); } //add by huna 3.28 else if (study.Name.Equals("DL RPDCCH SINR")) { study.SaveResult(this.m_RPDCCH_SINRValue); } else if (study.Name.Equals("DL RPDSCH SINR")) { study.SaveResult(this.m_RPDSCH_SINRValue); } else if (study.Name.Equals("UL RPUCCH SINR")) { study.SaveResult(this.m_RPUCCH_SINRValue); } else if (study.Name.Equals("UL RPUSCH SINR")) { study.SaveResult(this.m_RPUSCH_SINRValue); } else if (study.Name.Equals("RPDSCH MCS")) { study.SaveResult(this.m_RPDSCHMCSValue); } else if (study.Name.Equals("RDL MAC Peak Throughput")) { study.SaveResult(this.m_RDLPEAKValue); } else if (study.Name.Equals("RDL Application Peak Throughput")) { study.SaveResult(this.m_RDLAPPLICATIONPEAKValue); } else if (study.Name.Equals("RPUSCH MCS")) { study.SaveResult(this.m_RPUSCHMCSValue); } else if (study.Name.Equals("RUL MAC Peak Throughput")) { study.SaveResult(this.m_RULPEAKValue); } else if (study.Name.Equals("RUL Application Peak Throughput")) { study.SaveResult(this.m_RULAPPLICATIONPEAKValue); } }
private void SaveStudyResultPart_2(IStudy study) { if (study.Name.Equals("UL RSRP")) { study.SaveResult(this.m_ULRSRP); } else if (study.Name.Equals("PUCCH Signal Level")) { study.SaveResult(this.m_PUCCH_Level); } else if (study.Name.Equals("UL PUSCH Signal Level")) { study.SaveResult(this.m_PUSCH_Level); } else if (study.Name.Equals("PUCCH SINR")) { study.SaveResult(this.m_PUCCH_SINRValue); } else if (study.Name.Equals("PRACH Signal Level")) { study.SaveResult(this.m_PRACH_Level); } else if (study.Name.Equals("PRACH SINR")) { study.SaveResult(this.m_PRACH_SINRValue); } else if (study.Name.Equals("DL RSRQ")) { study.SaveResult(this.m_DLRSRQ); } else if (study.Name.Equals("UL RS SINR")) { study.SaveResult(this.m_UL_RS_SINRValue); } }
private void SaveStudyResultPart_1(IStudy study) { if (study.Name.Equals("DL RS SINR")) { study.SaveResult(this.m_DLRSSINRValue); } else if (study.Name.Equals("Geometry")) { study.SaveResult(this.m_GeometryValue); } else if (study.Name.Equals("DL PBCH Signal Level")) { study.SaveResult(this.m_DL_PBCH_RP); } else if (study.Name.Equals("DL PBCH SINR")) { study.SaveResult(this.m_PBCH_SINRValue); } else if (study.Name.Equals("DL SCH Signal Level")) { study.SaveResult(this.m_DL_SCH_RP); } else if (study.Name.Equals("DL SCH SINR")) { study.SaveResult(this.m_SCH_SINRValue); } }
private void SavePeakResult(IStudy study) { if (study.Name.Equals("DL MAC Peak Throughput")) { study.SaveResult(this.m_DLPEAKValue); } else if (study.Name.Equals("UL MAC Peak Throughput")) { study.SaveResult(this.m_ULPEAKValue); } else if (study.Name.Equals("DL Application Peak Throughput")) { study.SaveResult(this.m_DLAPPLICATIONPEAKValue); } else if (study.Name.Equals("UL Application Peak Throughput")) { study.SaveResult(this.m_ULAPPLICATIONPEAKValue); } }
private void SaveMCSResult(IStudy study) { if (study.Name.Equals("DL PDSCH SINR")) { study.SaveResult(this.m_PDSCHSINRValue); } else if (study.Name.Equals("UL PUSCH SINR")) { study.SaveResult(this.m_PUSCHSINRValue); } else if (study.Name.Equals("PDSCH MCS")) { study.SaveResult(this.m_PDSCHMCSValue); } else if (study.Name.Equals("PUSCH MCS")) { study.SaveResult(this.m_PUSCHMCSValue); } }
private void SaveBasicCasesResult(IStudy study) { if (study.Name.Equals("DL RSRP")) { study.SaveResult(this.m_BestServerRSRP); } else if (study.Name.Equals("DL BandWidth RSRP")) { study.SaveResult(this.m_SymbolRSRP); } else if (study.Name.Equals("Best Server")) { study.SaveResult(this.m_BestServerTransID); } else if (study.Name.Equals("Overlapping Zones")) { study.SaveResult(this.m_OverlappingZones); } else if (study.Name.Equals("DL RSSI")) { study.SaveResult(this.m_DLRSSI); } }