//public static void BlowingEndRequest()
//{
// var fex = new ConnectionProvider.FlexHelper("SublanceGenerator.BlowingEndRequest");
// fex.AddArg("SId", SIdK);
// fex.Fire(Program.MainGate);
//}
public static void DoStopBlow()
{
var fex = new ConnectionProvider.FlexHelper("OPC.ComEndBlowing");
fex.AddArg("EndBlowingSignal", 1);
fex.Fire(Program.MainGate);
InstantLogger.log(fex.evt.ToString());
}
public static void PushCarbon(double carbon)
{
const double tresholdCarbon = 0.00;
carbon = carbon < tresholdCarbon ? tresholdCarbon : carbon; // ограничение на углерод
var fex = new ConnectionProvider.FlexHelper("OGDecarbonaterFine.Result");
fex.AddArg("C", carbon);
fex.Fire(Program.MainGate);
}
private static void Main()
{
using (var l = new Logger("TransferModelOutput"))
{
try
{
var pointStyle = new NumberFormatInfo();
pointStyle.NumberDecimalSeparator = ".";
CoreGate = new ConnectionProvider.Client();
var conf = ConfigurationManager.OpenExeConfiguration("");
var settings = conf.AppSettings.Settings;
var fex = new ConnectionProvider.FlexHelper(Convert.ToString(settings["?"].Value));
do
{
foreach (KeyValueConfigurationElement kvel in settings)
{
if (!kvel.Key.StartsWith("?"))
{
if (kvel.Value.StartsWith("i", true, null))
{
string[] imarg = kvel.Value.Substring(1).Split(':');
fex.AddInt(kvel.Key, rnd.Next(Convert.ToInt32(imarg[0]),
Convert.ToInt32(imarg[1])));
}
else if (kvel.Value.StartsWith("#"))
{
fex.AddStr(kvel.Key, kvel.Value.Substring(1));
}
else
{
string[] marg = kvel.Value.Split(':');
fex.AddDbl(kvel.Key,
randomFromTo(Convert.ToDouble(marg[0], pointStyle),
Convert.ToDouble(marg[1], pointStyle)));
}
}
}
fex.Fire(CoreGate);
l.msg("Event fired>\n{0}", fex.evt);
for (int i = 0; i < 3; i++)
{
Console.Write(".");
System.Threading.Thread.Sleep(300);
}
fex.ClearArgs();
Console.Write(">");
} while ("q" != Console.ReadLine());
Console.WriteLine("Done");
}
catch (Exception e)
{
l.err("TransferModelOutput.Main exception {0}", e);
}
}
}
public static void Iterate(HeatData heatData)
{
using (var l = new Logger("Iterate")) {
var calculatedCarboneEvent = new CalculatedCarboneEvent();
if (!TotalCarbonMassCalculated) {
if (
(heatData.IronMass > 0) &&
(heatData.IronCarbonPercent > 0) &&
(heatData.ScrapMass > 0) &&
(heatData.ScrapCarbonPercent > 0) &&
(heatData.SteelCarbonPercent > 0)
) {
TotalCarbonMass = Decarbonater.HeatCarbonMass(
heatData.IronMass,
heatData.IronCarbonPercent,
heatData.ScrapMass,
heatData.ScrapCarbonPercent,
heatData.SteelCarbonPercent
);
RemainCarbonMass = TotalCarbonMass;
RemainCarbonPercent = GetCarbonPercent(RemainCarbonMass, heatData.IronMass,
heatData.IronCarbonPercent,
heatData.ScrapMass, heatData.ScrapCarbonPercent);
if ((TotalCarbonMass > 0) && (heatData.OxygenVolumeRate > 0) && HeatIsStarted) { // start heat
TotalCarbonMassCalculated = true;
l.msg("##### [TotalCarbonMassCalculated: {0}][RemainCarbonPercent]", TotalCarbonMass,
RemainCarbonPercent);
}
else
l.msg("HeatCarbonMass returned bad result: {0}", TotalCarbonMass);
}
else {
l.err(
"bad data for HeatCarbonMass [IronMass: {0}][IronCarbonPercent: {1}][ScrapMass: {2}][ScrapCarbonPercent: {3}][SteelCarbonPercent: {4}]",
heatData.IronMass,
heatData.IronCarbonPercent,
heatData.ScrapMass,
heatData.ScrapCarbonPercent,
heatData.SteelCarbonPercent
);
}
}
else // if (!GasCarbonMassFinished)
{
heatData.DeltaT = m_sw.ElapsedMilliseconds*0.001;
m_sw.Restart();
if (
(heatData.CarbonMonoxideVolumePercent > 0) &&
(heatData.OffgasVolumeRate > 0) &&
(heatData.DeltaT > 0) &&
(heatData.Kgasan > 0)
) {
double GCMResult = Decarbonater.GasanCarbonMass(
heatData.CarbonMonoxideVolumePercent,
heatData.OffgasVolumeRate,
heatData.DeltaT,
heatData.Kgasan
);
if (GCMResult >= 0) {
if (heatData.OxygenVolumeRate > 0)
RemainCarbonMass -= GCMResult; //////////////////////////////
}
else
l.err("GasanCarbonMass return bad result: {0}", GCMResult);
if (
(RemainCarbonMass > 0) &&
(heatData.IronMass > 0) &&
(heatData.IronCarbonPercent > 0) &&
(heatData.ScrapMass > 0) &&
(heatData.ScrapCarbonPercent > 0)
) {
RemainCarbonPercent = GetCarbonPercent(
RemainCarbonMass,
heatData.IronMass,
heatData.IronCarbonPercent,
heatData.ScrapMass,
heatData.ScrapCarbonPercent
);
}
else {
l.err(
"bad data for GetCarbonPercent [RemainCarbonMass: {0}][IronMass: {1}][IronCarbonPercent: {2}][ScrapMass: {3}][ScrapCarbonPercent: {4}]",
RemainCarbonMass,
heatData.IronMass,
heatData.IronCarbonPercent,
heatData.ScrapMass,
heatData.ScrapCarbonPercent
);
}
}
else {
l.err(
"bad data for GasanCarbonMass [CarbonMonoxideVolumePercent: {0}][OffgasVolumeRate: {1}][DeltaT: {2}][Kgasan: {3}]",
heatData.CarbonMonoxideVolumePercent,
heatData.OffgasVolumeRate,
heatData.DeltaT,
heatData.Kgasan
);
}
}
const double carbonTreshold = 0.095;
RemainCarbonPercent = RemainCarbonPercent < carbonTreshold ? carbonTreshold : RemainCarbonPercent;
// ограничение углерода
var fex2 = new ConnectionProvider.FlexHelper("OffGasDecarbonater.Result");
fex2.AddArg("C", RemainCarbonPercent);
fex2.Fire(Program.PushGate);
//////////////////////////////////////////////////////////////////////
}
}
public static void Iterate(HeatData heatData)
{
using (var l = new Logger("Iterate")) {
var calculatedCarboneEvent = new CalculatedCarboneEvent();
if (!TotalCarbonMassCalculated) {
if (
(heatData.IronMass > 0) &&
(heatData.IronCarbonPercent > 0) &&
(heatData.ScrapMass > 0) &&
(heatData.ScrapCarbonPercent > 0) &&
(heatData.SteelCarbonPercent > 0)
) {
TotalCarbonMass = Decarbonater.HeatCarbonMass(
heatData.IronMass,
heatData.IronCarbonPercent,
heatData.ScrapMass,
heatData.ScrapCarbonPercent,
heatData.SteelCarbonPercent
);
RemainCarbonMass = TotalCarbonMass;
RemainCarbonPercent = GetCarbonPercent(RemainCarbonMass, heatData.IronMass,
heatData.IronCarbonPercent,
heatData.ScrapMass, heatData.ScrapCarbonPercent);
if (TotalCarbonMass > 0 && heatData.OxygenVolumeRate > 0) {
TotalCarbonMassCalculated = true;
l.msg("##### [TotalCarbonMassCalculated: {0}][RemainCarbonPercent]", TotalCarbonMass,
RemainCarbonPercent);
}
else
l.msg("HeatCarbonMass returned bad result: {0}", TotalCarbonMass);
}
else {
l.err(
"bad data for HeatCarbonMass [IronMass: {0}][IronCarbonPercent: {1}][ScrapMass: {2}][ScrapCarbonPercent: {3}][SteelCarbonPercent: {4}]",
heatData.IronMass,
heatData.IronCarbonPercent,
heatData.ScrapMass,
heatData.ScrapCarbonPercent,
heatData.SteelCarbonPercent
);
}
}
else if (!GasCarbonMassFinished) {
heatData.DeltaT = m_sw.ElapsedMilliseconds*0.001;
m_sw.Restart();
if (
(heatData.CarbonMonoxideVolumePercent > 0) &&
(heatData.OffgasVolumeRate > 0) &&
(heatData.DeltaT > 0) &&
(heatData.Kgasan > 0)
) {
double GCMResult = Decarbonater.GasanCarbonMass(
heatData.CarbonMonoxideVolumePercent,
heatData.OffgasVolumeRate,
heatData.DeltaT,
heatData.Kgasan
);
if (GCMResult >= 0) {
if (heatData.OxygenVolumeRate > 0)
RemainCarbonMass -= GCMResult; //////////////////////////////
}
else
l.err("GasanCarbonMass return bad result: {0}", GCMResult);
if (
(RemainCarbonMass > 0) &&
(heatData.IronMass > 0) &&
(heatData.IronCarbonPercent > 0) &&
(heatData.ScrapMass > 0) &&
(heatData.ScrapCarbonPercent > 0)
) {
RemainCarbonPercent = GetCarbonPercent(
RemainCarbonMass,
heatData.IronMass,
heatData.IronCarbonPercent,
heatData.ScrapMass,
heatData.ScrapCarbonPercent
);
}
else {
l.err(
"bad data for GetCarbonPercent [RemainCarbonMass: {0}][IronMass: {1}][IronCarbonPercent: {2}][ScrapMass: {3}][ScrapCarbonPercent: {4}]",
RemainCarbonMass,
heatData.IronMass,
heatData.IronCarbonPercent,
heatData.ScrapMass,
heatData.ScrapCarbonPercent
);
}
GasCarbonMassFinished = VerifyGasCarbonFinished(
heatData.OxygenVolumeTotal,
heatData.OxygenVolumeCurrent,
TotalCarbonMass, RemainCarbonMass,
heatData.CarbonMonoxideVolumePercent,
heatData.CarbonMonoxideVolumePercentPrevious,
heatData.CarbonOxideVolumePercent,
heatData.CarbonOxideVolumePercentPrevious
);
}
else {
l.err(
"bad data for GasanCarbonMass [CarbonMonoxideVolumePercent: {0}][OffgasVolumeRate: {1}][DeltaT: {2}][Kgasan: {3}]",
heatData.CarbonMonoxideVolumePercent,
heatData.OffgasVolumeRate,
heatData.DeltaT,
heatData.Kgasan
);
}
}
else {
var currentStateData = new MFCMData {
CarbonMonoxideVolumePercent =
heatData.CarbonMonoxideVolumePercent,
CarbonOxideVolumePercent = heatData.CarbonOxideVolumePercent,
HeightLanceCentimeters = heatData.HeightLanceCentimeters,
OxygenVolumeRate = heatData.OxygenVolumeRate
};
//MFMChooser
//var CMCarbon = Decarbonater.MultiFactorCarbonMass(heatData.MatrixStateData, currentStateData);
m_currentMatrix = MFMChooser(heatData);
var matrixStateData =
Program.MFCMDataGenerate(Program.MatrixStateDataFull[m_currentMatrix].MatrixList);
var CMCarbon = Decarbonater.MultiFactorCarbonMass(matrixStateData, currentStateData);
//if (CMCarbon < RemainCarbonPercent) RemainCarbonPercent = CMCarbon;
RemainCarbonPercent = CMCarbon;
if (MomentFixDataForMFactorModel(heatData.CarbonMonoxideVolumePercent,
heatData.CarbonOxideVolumePercent)) // фиксируем для обучения
{
if (m_noFixData) {
CurrentHeatResult.OxygenVolumeRate = heatData.OxygenVolumeRate;
CurrentHeatResult.SteelCarbonCalculationPercent = RemainCarbonPercent;
CurrentHeatResult.CarbonMonoxideVolumePercent = heatData.CarbonMonoxideVolumePercent;
CurrentHeatResult.CarbonOxideVolumePercent = heatData.CarbonOxideVolumePercent;
CurrentHeatResult.HeightLanceCentimeters = heatData.HeightLanceCentimeters;
CurrentHeatResult.MFMEquationId = m_currentMatrix; // фиксируем матрицу по которой учим
EnqueueWaitC(CurrentHeatResult); // ставим в очередь ожидания углерода
Program.PushGate.PushEvent(new FixDataMfactorModelEvent());
// временная мера для перехода на старый углерод
var fex = new ConnectionProvider.FlexHelper("CPlusProcessor.DataFix");
fex.Fire(Program.PushGate);
Console.WriteLine(fex.evt + "\n");
//////////////////////////////////////////////////////////////////////
m_noFixData = false;
}
}
}
DataArchSec.SD.Add(new SecondData()); // заполняем для статистики во время плавки
DataArchSec.SD[DataArchSec.SD.Count - 1].CarboneCalc = RemainCarbonPercent;
DataArchSec.SD[DataArchSec.SD.Count - 1].Time = DateTime.Now.ToString();
DataArchSec.SD[DataArchSec.SD.Count - 1].CarboneMonoxide = heatData.CarbonMonoxideVolumePercent;
DataArchSec.SD[DataArchSec.SD.Count - 1].CarboneOxide = heatData.CarbonOxideVolumePercent;
DataArchSec.SD[DataArchSec.SD.Count - 1].HeightLance = heatData.HeightLanceCentimeters;
DataArchSec.SD[DataArchSec.SD.Count - 1].OxygenVolumeCurrent = heatData.OxygenVolumeCurrent;
//
if (!GasCarbonMassFinished) {
DataArchSec.SD[DataArchSec.SD.Count - 1].Model = "Gas Analise Mono factor Model";
l.msg("Gas Analise Mono factor Model");
}
else {
DataArchSec.SD[DataArchSec.SD.Count - 1].Model = "Multi Factor Model";
l.msg("Multi Factor Model № {0}", m_currentMatrix);
}
calculatedCarboneEvent.CarbonePercent = RemainCarbonPercent;
calculatedCarboneEvent.CarboneMass = RemainCarbonMass;
calculatedCarboneEvent.model = DataArchSec.SD[DataArchSec.SD.Count - 1].Model;
Program.PushGate.PushEvent(calculatedCarboneEvent);
//Program.PushGate.PushEvent(new CalculatedCarboneEvent());
// временная мера для перехода на старый углерод
var fex2 = new ConnectionProvider.FlexHelper("CPlusProcessor.Result");
fex2.AddArg("C", RemainCarbonPercent);
fex2.Fire(Program.PushGate);
//////////////////////////////////////////////////////////////////////
}
}
public static void Iterate(HeatData heatData)
{
using (var l = new Logger("Iterate")) {
if (ModelIsStarted) {
var currentStateData = new MFCMData {
CarbonMonoxideVolumePercent =
heatData.CarbonMonoxideVolumePercent,
CarbonOxideVolumePercent = heatData.CarbonOxideVolumePercent,
HeightLanceCentimeters = heatData.HeightLanceCentimeters,
OxygenVolumeRate = heatData.OxygenVolumeRate
};
m_currentMatrix = MFMChooser(heatData);
var matrixStateData =
Program.MFCMDataGenerate(Program.MatrixStateDataFull[m_currentMatrix].MatrixList);
var CMCarbon = Decarbonater.MultiFactorCarbonMass(matrixStateData, currentStateData);
//if (CMCarbon < RemainCarbonPercent) RemainCarbonPercent = CMCarbon;
RemainCarbonPercent = CMCarbon;
var fex2 = new ConnectionProvider.FlexHelper("SMFCarbon.Result");
fex2.AddArg("C", RemainCarbonPercent);
fex2.Fire(Program.PushGate);
Console.CursorTop = Console.CursorTop - 1;
Console.WriteLine(" ");
Console.CursorTop = Console.CursorTop - 1;
Console.WriteLine("Carbon = " + RemainCarbonPercent + "%");
if (MomentFixDataForMFactorModel(heatData.CarbonMonoxideVolumePercent,
heatData.CarbonOxideVolumePercent)) // фиксируем для обучения
{
if (!m_dataIsFixed) {
CurrentHeatResult.OxygenVolumeRate = heatData.OxygenVolumeRate;
CurrentHeatResult.SteelCarbonCalculationPercent = RemainCarbonPercent;
CurrentHeatResult.CarbonMonoxideVolumePercent = heatData.CarbonMonoxideVolumePercent;
CurrentHeatResult.CarbonOxideVolumePercent = heatData.CarbonOxideVolumePercent;
CurrentHeatResult.HeightLanceCentimeters = heatData.HeightLanceCentimeters;
CurrentHeatResult.MFMEquationId = m_currentMatrix; // фиксируем матрицу по которой учим
EnqueueWaitC(CurrentHeatResult); // ставим в очередь ожидания углерода
var fex = new ConnectionProvider.FlexHelper("SMFCarbon.DataFix");
fex.AddArg("C", RemainCarbonPercent);
fex.Fire(Program.PushGate);
l.msg(fex.evt + "\n");
m_dataIsFixed = true;
}
}
}
else {
ModelIsStarted = ModelVerifiForStart(
heatData.OxygenVolumeTotal,
heatData.OxygenVolumeCurrent,
heatData.CarbonMonoxideVolumePercent,
heatData.CarbonMonoxideVolumePercentPrevious,
heatData.CarbonOxideVolumePercent,
heatData.CarbonOxideVolumePercentPrevious
);
if (ModelIsStarted) {
var fex = new ConnectionProvider.FlexHelper("SMFCarbon.ModelIsStarted");
fex.Fire(Program.PushGate);
l.msg(fex.evt + "\n");
}
Console.Write(".");
}
}
}
public static void Iterate()
{
using (var l = new Logger("Iterate")) {
var oxy = Oxigen.Average(SmoothInterval);
var co = CarbonMonoxide.Average(SmoothInterval);
if (VerificateB(oxy, co, HotMetallMass) && m_isNotfiredB) // рекомендация кислорода на продувку
{
var fex = new ConnectionProvider.FlexHelper("SublanceGenerator.RecommendMetering.B");
fex.AddArg("OxygenStartValue", m_oxygenStartValue);
fex.AddArg("CurrentOxygen", oxy);
fex.AddArg("CurrentCo", co);
fex.AddArg("CurrentHotMetallMass", HotMetallMass);
fex.Fire(Program.MainGate);
string msg = String.Format("SublanceStart fired: \n{0}", fex.evt.ToString());
l.msg(msg);
m_isNotfiredB = false;
}
if (VerificateK(TargetCk, TargetCku, Ck) && (PeriodNumber == 2) && m_isNotfiredK)
// команда на старт зонда по углероду и предуставке
{
var fex = new ConnectionProvider.FlexHelper("SublanceGenerator.RecommendMetering.K");
fex.AddArg("TargetCk", TargetCk);
fex.AddArg("TargetCku", TargetCku);
fex.AddArg("Ck", Ck);
fex.AddArg("CurrentOxygen", oxy);
fex.AddArg("SId", SIdK);
fex.Fire(Program.MainGate);
string msg = String.Format("RecommendMetering.K fired: \n{0}", fex.evt.ToString());
l.msg(msg);
m_isNotfiredK = false;
}
//PeriodNumber = 2;
if ((PeriodNumber == 2) && m_isNotfiredPrognosis) // начинаем по старту многофакторной
{
if (VerificatePrognosis(TargetCk, ReactionTime, Ck)) // команда на старт зонда по прогнозу
{
var fex = new ConnectionProvider.FlexHelper("SublanceGenerator.RecommendMetering.Prognosis");
fex.AddArg("TargetCk", TargetCk);
fex.AddArg("Ck", Ck);
fex.AddArg("CurrentOxygen", oxy);
fex.Fire(Program.MainGate);
string msg = String.Format("RecommendMetering.Prognosis fired: \n{0}", fex.evt.ToString());
l.msg(msg);
m_isNotfiredPrognosis = false;
}
}
if (EndMeteringAccept && EndMeteringAlow) {
EndMetering();
EndMeteringAccept = false;
EndMeteringAlow = false;
l.msg("End metering by iterator");
}
}
}
public static void Iterate(HeatData heatData)
{
using (var l = new Logger("Iterate")) {
var calculatedCarboneEvent = new CalculatedCarboneEvent();
var currentStateData = new MFCMData {
CarbonMonoxideVolumePercent =
heatData.CarbonMonoxideVolumePercent,
CarbonOxideVolumePercent = heatData.CarbonOxideVolumePercent,
HeightLanceCentimeters = heatData.HeightLanceCentimeters,
OxygenVolumeRate = heatData.OxygenVolumeRate
};
//RemainCarbonPercent = Decarbonater.ComplexNMCProcess(heatData.MatrixStateData, currentStateData);
RemainCarbonPercent = Decarbonater.ComplexNMCProcess(currentStateData);
if (MomentFixDataForMFactorModel(heatData.OxygenVolumeCurrent, heatData.OxygenVolumeTotal,
heatData.CarbonMonoxideVolumePercent, heatData.CarbonOxideVolumePercent))
// фиксируем для обучения
{
if (m_noFixData) {
CurrentHeatResult.OxygenVolumeRate = heatData.OxygenVolumeRate;
CurrentHeatResult.SteelCarbonCalculationPercent = RemainCarbonPercent;
CurrentHeatResult.CarbonMonoxideVolumePercent = heatData.CarbonMonoxideVolumePercent;
CurrentHeatResult.CarbonOxideVolumePercent = heatData.CarbonOxideVolumePercent;
CurrentHeatResult.HeightLanceCentimeters = heatData.HeightLanceCentimeters;
EnqueueWaitC(CurrentHeatResult); // ставим в очередь ожидания углерода
//Program.PushGate.PushEvent(new FixDataMfactorModelEvent());
FireFixEvent(RemainCarbonPercent);
m_noFixData = false;
}
}
ModelIsStarted = ModelVerifiForStart(heatData.OxygenVolumeCurrent, heatData.CarbonMonoxideVolumePercent,
heatData.CarbonOxideVolumePercent);
if (ModelIsStarted) FireStartEvent();
calculatedCarboneEvent.model = "Complex neural Model";
calculatedCarboneEvent.CarbonePercent = RemainCarbonPercent;
calculatedCarboneEvent.CarboneMass = RemainCarbonMass;
var fex = new ConnectionProvider.FlexHelper("NeuralProcessorC.Calc");
fex.AddArg("TypeNeural", "non linear");
fex.AddArg("C", RemainCarbonPercent);
fex.Fire(Program.PushGate);
FireResultCarbonEvent();
//l.msg("fired carbon:\n{0}",fex.evt.ToString());
//Program.PushGate.PushEvent(calculatedCarboneEvent);
//Program.PushGate.PushEvent(new CalculatedCarboneEvent());
}
}
public static void FireStartEvent()
{
var fex = new ConnectionProvider.FlexHelper("NeuralProcessorC.ModelIsStarted");
fex.Fire(Program.PushGate);
Console.WriteLine(fex.evt + "\n");
}
public static void FireResultCarbonEvent()
{
var fex = new ConnectionProvider.FlexHelper("NeuralProcessorC.Result");
fex.AddArg("C", RemainCarbonPercent);
fex.Fire(Program.PushGate);
Console.WriteLine(fex.evt + "\n");
}
public static void FireFixEvent(double carbon)
{
var fex = new ConnectionProvider.FlexHelper("NeuralProcessorC.DataFix");
fex.AddArg("C", carbon);
fex.Fire(Program.PushGate);
Console.WriteLine(fex.evt + "\n");
}
