加入了各种统计值。

2013-01-21 21:47:54 +08:00 · 2013-01-21 21:47:54 +08:00 · 0f8edee30b
parent 7ded138066
commit 0f8edee30b
15 changed files with 266 additions and 128 deletions
--- a/@ForThesis/AddPDQDPGQG.m
+++ b/@ForThesis/AddPDQDPGQG.m
@ -0,0 +1,14 @@
+function this=AddPDQDPGQG( this, PD,QD,PG,QG)
+%ADDPD Summary of this function goes here
+%   Detailed explanation goes here
+if this.currentPos>this.sampleNum
+    error('出入的数太多了');
+    return;
+end
+this.currentPos=this.currentPos+1;
+this.PDArray(:,this.currentPos)=PD;
+this.QDArray(:,this.currentPos)=QD;
+this.PGArray(this.currentPos)=PG;
+this.QGArray(this.currentPos)=QG;
+end
+
--- a/@ForThesis/ForThesis.m
+++ b/@ForThesis/ForThesis.m
@ -0,0 +1,30 @@
+classdef ForThesis
+    %UNTITLED Summary of this class goes here
+    %   Detailed explanation goes here
+    
+    properties
+        currentPos=0;
+        sampleNum=0;
+        LoadNum=0;
+        PDArray=0;
+        
+        QDArray=0;
+        PGArray=0;
+        QGArray=0;
+        
+    end
+    
+    methods
+        function this=ForThesis(sampleNum,LoadNum)
+            this.currentPos=0;%记录当前用到的列，不要超过100列
+            this.sampleNum=sampleNum;
+            this.LoadNum=LoadNum;
+            this.PDArray=zeros(LoadNum,sampleNum);
+            this.QDArray=zeros(LoadNum,sampleNum);
+            this.PGArray=zeros(sampleNum,1);
+            this.QGArray=zeros(sampleNum,1);
+        end
+        
+    end
+    
+end
--- a/@ForThesis/MaxDeviation.asv
+++ b/@ForThesis/MaxDeviation.asv
@ -0,0 +1,7 @@
+function MaxDeviation(this,PG0,QG0,PD0,QD0)
+PD0Array=repmat(PD0,1,this.sampleNum);
+QD0Array=repmat(QD0,1,this.sampleNum);
+PDMaxDev=max(abs(this.PDArray-PD0Array),[],2)
+QDMaxDev=max(abs(this.QDArray-QD0Array),[],2)
+PG0Array=repmat()
+end
--- a/@ForThesis/MaxDeviation.m
+++ b/@ForThesis/MaxDeviation.m
@ -0,0 +1,11 @@
+function [output_arg]=MaxDeviation(this,PG0,QG0,PD0,QD0)
+PD0Array=repmat(PD0,1,this.sampleNum);
+QD0Array=repmat(QD0,1,this.sampleNum);
+PDMaxDev=max(abs( (this.PDArray-PD0Array)./PD0Array ),[],2);
+QDMaxDev=max(abs(  (this.QDArray-QD0Array)./QD0Array ),[],2);
+PG0Array=repmat(PG0,this.sampleNum,1);
+QG0Array=repmat(QG0,this.sampleNum,1);
+PGMaxDev=max(abs( (PG0Array-this.PGArray)./PG0Array  ));
+QGMaxDev=max( abs( (QG0Array-this.QGArray)./QG0Array  ) );
+output_arg=max([PDMaxDev;QDMaxDev;PGMaxDev;QGMaxDev]);
+end
--- a/@ForThesis/MeanPD.m
+++ b/@ForThesis/MeanPD.m
@ -0,0 +1,7 @@
+function [ output_args ] = MeanPD(this)
+%MEANPD Summary of this function goes here
+%   Detailed explanation goes here
+output_args=sum(this.PDArray,2)/this.sampleNum;
+
+end
+
--- a/@ForThesis/MeanPG.m
+++ b/@ForThesis/MeanPG.m
@ -0,0 +1,7 @@
+function [ output_args ] = MeanPG( this )
+%MEANPG Summary of this function goes here
+%   Detailed explanation goes here
+output_args=sum(this.PGArray,1)/this.sampleNum;
+
+end
+
--- a/@ForThesis/MeanQD.m
+++ b/@ForThesis/MeanQD.m
@ -0,0 +1,7 @@
+function [ output_args ] = MeanQD(this)
+%MEANQD Summary of this function goes here
+%   Detailed explanation goes here
+output_args=sum(this.QDArray,2)/this.sampleNum;
+
+end
+
--- a/@ForThesis/MeanQG.m
+++ b/@ForThesis/MeanQG.m
@ -0,0 +1,7 @@
+function [ output_args ] = MeanQG( this )
+%MEAQG Summary of this function goes here
+%   Detailed explanation goes here
+output_args=sum(this.QGArray,1)/this.sampleNum;
+
+end
+
--- a/@ForThesis/StatDeviation.asv
+++ b/@ForThesis/StatDeviation.asv
@ -0,0 +1,15 @@
+function [ output_args ] = StatDeviation( this,PG0,QG0,PD0,QD0 )%Í³¼ÆÎó²î
+%STATDEVIATION Summary of this function goes here
+%   Detailed explanation goes here
+
+PD0Array=repmat(PD0,1,this.sampleNum);
+QD0Array=repmat(QD0,1,this.sampleNum);
+PDMaxDev=max(abs(this.PDArray-PD0Array),[],2);
+QDMaxDev=max(abs(this.QDArray-QD0Array),[],2);
+PG0Array=repmat(PG0,this.sampleNum,1);
+QG0Array=repmat(QG0,this.sampleNum,1);
+PGMaxDev=max(abs(PG0Array));
+QGMaxDev=max(abs(QG0Array));
+
+end
+
--- a/@ForThesis/StatDeviation.m
+++ b/@ForThesis/StatDeviation.m
@ -0,0 +1,20 @@
+function [ output_args ] = StatDeviation( this,PG0,QG0,PD0,QD0 )%Í³¼ÆÎó²î
+%STATDEVIATION Summary of this function goes here
+%   Detailed explanation goes here
+
+PD0Array=repmat(PD0,1,this.sampleNum);
+QD0Array=repmat(QD0,1,this.sampleNum);
+PDDev=(this.PDArray-PD0Array)/0.05;
+QDDev=(this.QDArray-QD0Array)/0.05;
+PG0Array=repmat(PG0,this.sampleNum,1);
+QG0Array=repmat(QG0,this.sampleNum,1);
+PGDev=(PG0Array-this.PGArray)/0.01;
+QGDev=(QG0Array-this.QGArray)/0.01;
+wholeMat=[PDDev;QDDev;PGDev';QGDev'];
+t1=wholeMat.^2;
+t2=sum(t1,1);
+t3=t2/size(t1,1);
+t4=t3.^2;
+output_args=sum(t4)/length(t4);
+end
+
--- a/FormLw.m
+++ b/FormLw.m
@ -8,14 +8,14 @@ VoltU=(1.1)*ones(1,Busnum);
 %VoltU=10*ones(1,Busnum);
 PDU=PD0(Loadi);
 % PDU=noDataTransCapacity;
-PDU(PDU>0)=1.200*PDU(PDU>0);
-PDU(PDU<0)=0.800*PDU(PDU<0);
+PDU(PDU>0)=1.300*PDU(PDU>0);
+PDU(PDU<0)=0.700*PDU(PDU<0);
 PDU(PDU==0)=0.400;
 %PDU=10*ones(length(Loadi),1);
 QDU=QD0(Loadi);
-QDU(QDU>0)=1.200*QDU(QDU>0);
-QDU(QDU<0)=0.800*QDU(QDU<0);
-QDU(QDU==0)=0.200;
+QDU(QDU>0)=1.300*QDU(QDU>0);
+QDU(QDU<0)=0.700*QDU(QDU<0);
+QDU(QDU==0)=0.400;
 % PF=0.85;
 % QDU=1.0*PD(Loadi).*sqrt(1 -PF.^2)./PF;
 t1=([PU',QU',PDU',QDU',VoltU])';
--- a/FormLz.m
+++ b/FormLz.m
@ -7,14 +7,14 @@ QL=-5*ones(length(PVQL(:,1)),1);
 VoltL=(0.9)*ones(1,Busnum);
 %VoltL=-10*ones(1,Busnum);
 PDL=PD0(Loadi);
-PDL(PDL>0)=0.800*PDL(PDL>0);
-PDL(PDL<0)=1.200*PDL(PDL<0);
+PDL(PDL>0)=0.700*PDL(PDL>0);
+PDL(PDL<0)=1.300*PDL(PDL<0);
 PDL(PDL==0)=-0.400;
 %PDL=-10*ones(length(Loadi),1);
 QDL=QD0(Loadi);
-QDL(QDL>0)=0.800*QDL(QDL>0);
-QDL(QDL<0)=1.200*QDL(QDL<0);
-QDL(QDL==0)=-0.200;
+QDL(QDL>0)=0.700*QDL(QDL>0);
+QDL(QDL<0)=1.300*QDL(QDL<0);
+QDL(QDL==0)=-0.400;
 % QDL=0*PD(Loadi).*sqrt((1-PF.^2))./PF;
 t1=([PL',QL',PDL',QDL',VoltL])';
 t2=Mat_G-Init_L'-t1;
--- a/OPF.asv
+++ b/OPF.asv
@ -51,7 +51,8 @@ QD0(Loadi)=QD0(Loadi).*(1+normrnd(0,0.05,length(Loadi),1));
 PG0(PGi)=PG0(PGi).*(1+normrnd(0,0.01,length(PGi),1));
 QG0(PVi)=QG0(PVi).*(1+normrnd(0,0.01,length(PVi),1));
 %% 读变压器容量
-[noDataTransNum noDataTransCapacity noDataTransPowerFactor]=ReadNoDataTrans(fileName);
+%[noDataTransNum noDataTransCapacity noDataTransPowerFactor]=ReadNoDataTrans('C:/b/东际911_2751267_2012-09-05/iPso_东际911_2751267_2012-09-05_变压器无负载.txt');
+noDataTransCapacity=0;
 while(abs(Gap)>Precision)
    if KK>kmax
        break;
@ -83,7 +84,7 @@ while(abs(Gap)>Precision)
    Mat_H=FormH(Busnum,Volt,PG,PD,QG,QD,Y,UAngel,r,c,Angle,QD_NON_ZERO,QD_NON_ZERO_IND,Loadi);
    Ly=Mat_H;
    Lz=FormLz(Mat_G,Init_L,GenL,Busnum,PVQL,PD,PD0,QD0,Loadi,KK,PF);
-    Lw=FormLw(Mat_G,Init_U,GenU,Busnum,PVQU,PD,PD0,QD0,Loadi,KK,PF);
+    Lw=FormLw(Mat_G,Init_U,GenU,Busnum,PVQU,PD,PD0,QD0,Loadi,KK,PF,noDataTransCapacity);
    Lx=FormLx(deltF,deltH,Init_Y,deltG,Init_Z,Init_W);
    YY=FormYY(Lul,Lz,Ly,Luu,Lw,Lx);
    %% 开始解方程
@ -97,7 +98,7 @@ while(abs(Gap)>Precision)
 end
 fprintf('迭代次数%d\n',KK);
 fprintf('目标值%f\n',full(ObjectiveFun(PG,PG0,PGi,QG,QG0,PVi,PD,PD0,QD,QD0,wPG,wQG,wPD,wQD,Loadi)));
-DrawGap(plotGap);
+% DrawGap(plotGap);
 %% 
 %Volt=full(Volt');
 %PD=full(PD);
--- a/OPF.m
+++ b/OPF.m
@ -1,120 +1,132 @@
 tic
 clc
 clear
-[kmax,Precision,UAngel,Volt,Busnum,PVi,PVu,Balance,Y,Angle,P0,Q0,r,c,GB,Linei,Linej,Transfori,Transforj,GenU,GenL,GenC,PG,QG,PD,QD,CenterA,PGi,PVQU,PVQL,Liner,Linex,Lineb,Transforr,Transforx,Transfork0]= ...
-pf('c:/newFIle.txt');
-%pf('D:\Project\青秀降损项目\最小化潮流\最小潮流算例\原始\津头站津视922（3-1）_0.5_120%.txt'); 
-%pf('D:\Project\最小化潮流\最小潮流算例\仙海919.txt'); 
-%pf('c:/file31.txt'); 
-
-
-%% 计算功率因数
-Loadi=QD~=0 | PD~=0;
-PF=sqrt(PD(Loadi).^2./(QD(Loadi).^2+PD(Loadi).^2))
-%% 
-Volt;
-UAngel*180/3.1415926;
-%% 通过潮流计算PG
-AngleIJ=sparse(r,c,UAngel(r)-UAngel(c)-Angle',Busnum,Busnum);
-PGBal=PD+diag(Volt)*Y.*cos(AngleIJ)*Volt';
-QGBal=QD+diag(Volt)*Y.*sin(AngleIJ)*Volt';
-%% 初值-即测量值
-PG0=PG;
-QG0=QG;
-PD0=PD;
-QD0=QD;
-PDReal=PD;%真值
-QDReal=QD;%真值
-%PD0(12)=PD0(12)+0.001;
-%%
-PG0(Balance)=PGBal(Balance);
-PG(Balance)=PGBal(Balance);
-QG0(Balance)=QGBal(Balance);
-QG0(PVi)=QGBal(PVi);
-QG(PVi)=QGBal(PVi);
-%%
-[Volt,UAngel,Init_Z,Init_W,Init_L,Init_U,Init_Y,PG,QG,RestraintCount,wPG,wQG,wPD,wQD,PD,PD0,QD,randPDind,Loadi]=OPF_Init(Busnum,Balance,PG,QG,Volt,GenU,GenL,PVi,PGi,PVQU,PVQL,PD0,QD0,QD,PD);
-Gap=(Init_L*Init_Z'-Init_U*Init_W');
-KK=0;
-plotGap=zeros(1,60);
-ContrlCount=size(PVi,1)+size(PGi,1)+size(Loadi,1)*2+Busnum*2;
-kmax=60;
-%% 20120523 临时
-QD_NON_ZERO=QD(PD==0 & QD~=0);
-QD_NON_ZERO_IND=find(PD==0 & QD~=0);
-%%
-Precision=Precision/1;
-
-%% 加误差
-PD0(Loadi)=PD0(Loadi).*(1+normrnd(0,0.05,length(Loadi),1));
-QD0(Loadi)=QD0(Loadi).*(1+normrnd(0,0.05,length(Loadi),1));
-PG0(PGi)=PG0(PGi).*(1+normrnd(0,0.01,length(PGi),1));
-QG0(PVi)=QG0(PVi).*(1+normrnd(0,0.01,length(PVi),1));
-%% 读变压器容量
-%[noDataTransNum noDataTransCapacity noDataTransPowerFactor]=ReadNoDataTrans('C:/b/东际911_2751267_2012-09-05/iPso_东际911_2751267_2012-09-05_变压器无负载.txt');
-noDataTransCapacity=0;
-while(abs(Gap)>Precision)
-    if KK>kmax
-        break;
-    end
-    plotGap(KK+1)=Gap;
-    Init_u=Gap/2/RestraintCount*CenterA;
-    AngleIJMat=0;
-    %% 开始计算OPF
-    %% 形成等式约束的雅克比
-    deltH=func_deltH(Busnum,Volt,PVi,Y,PGi,UAngel,r,c,Angle,Loadi);
-    %% 形成不等式约束的雅克比
-    deltG=func_deltG(Busnum,PVi,PGi,Loadi,PD,QD);
-    %%
-    L_1Z=diag(Init_Z./Init_L);
-    U_1W=diag(Init_W./Init_U);
-    %% 形成海森阵
-    deltdeltF=func_deltdeltF(PVi,wPG,wQG,wPD,wQD,ContrlCount);
-    %% 形成ddHy
-    ddh=func_ddh(Volt,Init_Y,Busnum,PVi,PGi,Y,UAngel,r,c,Angle,Loadi,ContrlCount);
-    %%  开始构建ddg
-    ddg=func_ddg(PGi,PVi,Busnum,RestraintCount,Loadi,PD,QD);
-    %%  开始构建deltF
-    deltF=func_deltF(PG,QG,PVi,PGi,wPG,wQG,wPD,wQD,PG0,QG0,PD0,PD,QD,QD0,Busnum,Loadi);
+thesis=ForThesis(4,8);
+for II=1:4
+    [kmax,Precision,UAngel,Volt,Busnum,PVi,PVu,Balance,Y,Angle,P0,Q0,r,c,GB,Linei,Linej,Transfori,Transforj,GenU,GenL,GenC,PG,QG,PD,QD,CenterA,PGi,PVQU,PVQL,Liner,Linex,Lineb,Transforr,Transforx,Transfork0]= ...
+        pf('c:/newFIle.txt');
+    %pf('D:\Project\青秀降损项目\最小化潮流\最小潮流算例\原始\津头站津视922（3-1）_0.5_120%.txt');
+    %pf('D:\Project\最小化潮流\最小潮流算例\仙海919.txt');
+    %pf('c:/file31.txt');
    
-    %% 形成方程矩阵
-    Luu=Init_U'.*Init_W'+Init_u*ones(RestraintCount,1);
-    Lul=Init_L'.*Init_Z'-Init_u*ones(RestraintCount,1);
-    Mat_G=FormG(Volt,PVi,PGi,PG,QG,PD,QD,Loadi);
-    Mat_H=FormH(Busnum,Volt,PG,PD,QG,QD,Y,UAngel,r,c,Angle,QD_NON_ZERO,QD_NON_ZERO_IND,Loadi);
-    Ly=Mat_H;
-    Lz=FormLz(Mat_G,Init_L,GenL,Busnum,PVQL,PD,PD0,QD0,Loadi,KK,PF);
-    Lw=FormLw(Mat_G,Init_U,GenU,Busnum,PVQU,PD,PD0,QD0,Loadi,KK,PF,noDataTransCapacity);
-    Lx=FormLx(deltF,deltH,Init_Y,deltG,Init_Z,Init_W);
-    YY=FormYY(Lul,Lz,Ly,Luu,Lw,Lx);
-    %% 开始解方程
-    fprintf('迭代次数 %d Gap %f\n',KK+1,plotGap(KK+1));
-    XX=SolveIt(deltF,deltG,Init_L,Init_Z,Init_U,Init_W,deltdeltF,ddh,ddg,deltH,Init_Y,Ly,Lz,ContrlCount,Lw,Lul,Luu,RestraintCount,Lx,Balance,PVi,PGi,Busnum,Loadi);
-    %%取各分量
-    [deltZ,deltL,deltW,deltU,deltX,deltY]=AssignXX(XX,ContrlCount,RestraintCount,Busnum);
-    [Init_Z,Init_L,Init_W,Init_U,Init_Y,PG,QG,Volt,UAngel,PD,QD]=Modification(Init_Z,Init_L,Init_W,Init_U,Init_Y,deltZ,deltL,deltW,deltU,deltX,deltY,PG,QG,Volt,UAngel,PVi,ContrlCount,Balance,Busnum,PGi,PD,QD,Loadi);
+    
+    %% 计算功率因数
+    Loadi=QD~=0 | PD~=0;
+    PF=sqrt(PD(Loadi).^2./(QD(Loadi).^2+PD(Loadi).^2))
+    %%
+    Volt;
+    UAngel*180/3.1415926;
+    %% 通过潮流计算PG
+    AngleIJ=sparse(r,c,UAngel(r)-UAngel(c)-Angle',Busnum,Busnum);
+    PGBal=PD+diag(Volt)*Y.*cos(AngleIJ)*Volt';
+    QGBal=QD+diag(Volt)*Y.*sin(AngleIJ)*Volt';
+    %% 初值-即测量值
+    PG0=PG;
+    QG0=QG;
+    PD0=PD;
+    QD0=QD;
+    PDReal=PD;%真值
+    QDReal=QD;%真值
+    %PD0(12)=PD0(12)+0.001;
+    %%
+    PG0(Balance)=PGBal(Balance);
+    PG(Balance)=PGBal(Balance);
+    QG0(Balance)=QGBal(Balance);
+    QG0(PVi)=QGBal(PVi);
+    QG(PVi)=QGBal(PVi);
+    %%
+    [Volt,UAngel,Init_Z,Init_W,Init_L,Init_U,Init_Y,PG,QG,RestraintCount,wPG,wQG,wPD,wQD,PD,PD0,QD,randPDind,Loadi]=OPF_Init(Busnum,Balance,PG,QG,Volt,GenU,GenL,PVi,PGi,PVQU,PVQL,PD0,QD0,QD,PD);
    Gap=(Init_L*Init_Z'-Init_U*Init_W');
-    KK=KK+1;
+    KK=0;
+    plotGap=zeros(1,60);
+    ContrlCount=size(PVi,1)+size(PGi,1)+size(Loadi,1)*2+Busnum*2;
+    kmax=60;
+    %% 20120523 临时
+    QD_NON_ZERO=QD(PD==0 & QD~=0);
+    QD_NON_ZERO_IND=find(PD==0 & QD~=0);
+    %%
+    Precision=Precision/10;
+    
+    %% 加误差
+    PD0(Loadi)=PD0(Loadi).*(1+normrnd(0,0.05,length(Loadi),1));
+    QD0(Loadi)=QD0(Loadi).*(1+normrnd(0,0.05,length(Loadi),1));
+%     PG0(PGi)=PG0(PGi).*(1+normrnd(0,0.01,length(PGi),1));
+%     QG0(PVi)=QG0(PVi).*(1+normrnd(0,0.01,length(PVi),1));
+    %% 读变压器容量
+    %[noDataTransNum noDataTransCapacity noDataTransPowerFactor]=ReadNoDataTrans('C:/b/东际911_2751267_2012-09-05/iPso_东际911_2751267_2012-09-05_变压器无负载.txt');
+    noDataTransCapacity=0;
+    
+    while(abs(Gap)>Precision)
+        if KK>kmax
+            break;
+        end
+        plotGap(KK+1)=Gap;
+        Init_u=Gap/2/RestraintCount*CenterA;
+        AngleIJMat=0;
+        %% 开始计算OPF
+        %% 形成等式约束的雅克比
+        deltH=func_deltH(Busnum,Volt,PVi,Y,PGi,UAngel,r,c,Angle,Loadi);
+        %% 形成不等式约束的雅克比
+        deltG=func_deltG(Busnum,PVi,PGi,Loadi,PD,QD);
+        %%
+        L_1Z=diag(Init_Z./Init_L);
+        U_1W=diag(Init_W./Init_U);
+        %% 形成海森阵
+        deltdeltF=func_deltdeltF(PVi,wPG,wQG,wPD,wQD,ContrlCount);
+        %% 形成ddHy
+        ddh=func_ddh(Volt,Init_Y,Busnum,PVi,PGi,Y,UAngel,r,c,Angle,Loadi,ContrlCount);
+        %%  开始构建ddg
+        ddg=func_ddg(PGi,PVi,Busnum,RestraintCount,Loadi,PD,QD);
+        %%  开始构建deltF
+        deltF=func_deltF(PG,QG,PVi,PGi,wPG,wQG,wPD,wQD,PG0,QG0,PD0,PD,QD,QD0,Busnum,Loadi);
+        
+        %% 形成方程矩阵
+        Luu=Init_U'.*Init_W'+Init_u*ones(RestraintCount,1);
+        Lul=Init_L'.*Init_Z'-Init_u*ones(RestraintCount,1);
+        Mat_G=FormG(Volt,PVi,PGi,PG,QG,PD,QD,Loadi);
+        Mat_H=FormH(Busnum,Volt,PG,PD,QG,QD,Y,UAngel,r,c,Angle,QD_NON_ZERO,QD_NON_ZERO_IND,Loadi);
+        Ly=Mat_H;
+        Lz=FormLz(Mat_G,Init_L,GenL,Busnum,PVQL,PD,PD0,QD0,Loadi,KK,PF);
+        Lw=FormLw(Mat_G,Init_U,GenU,Busnum,PVQU,PD,PD0,QD0,Loadi,KK,PF,noDataTransCapacity);
+        Lx=FormLx(deltF,deltH,Init_Y,deltG,Init_Z,Init_W);
+        YY=FormYY(Lul,Lz,Ly,Luu,Lw,Lx);
+        %% 开始解方程
+        fprintf('迭代次数 %d Gap %f\n',KK+1,plotGap(KK+1));
+        XX=SolveIt(deltF,deltG,Init_L,Init_Z,Init_U,Init_W,deltdeltF,ddh,ddg,deltH,Init_Y,Ly,Lz,ContrlCount,Lw,Lul,Luu,RestraintCount,Lx,Balance,PVi,PGi,Busnum,Loadi);
+        %%取各分量
+        [deltZ,deltL,deltW,deltU,deltX,deltY]=AssignXX(XX,ContrlCount,RestraintCount,Busnum);
+        [Init_Z,Init_L,Init_W,Init_U,Init_Y,PG,QG,Volt,UAngel,PD,QD]=Modification(Init_Z,Init_L,Init_W,Init_U,Init_Y,deltZ,deltL,deltW,deltU,deltX,deltY,PG,QG,Volt,UAngel,PVi,ContrlCount,Balance,Busnum,PGi,PD,QD,Loadi);
+        Gap=(Init_L*Init_Z'-Init_U*Init_W');
+        KK=KK+1;
+    end
+    fprintf('迭代次数%d\n',KK);
+    fprintf('目标值%f\n',full(ObjectiveFun(PG,PG0,PGi,QG,QG0,PVi,PD,PD0,QD,QD0,wPG,wQG,wPD,wQD,Loadi)));
+    % DrawGap(plotGap);
+    %%
+    %Volt=full(Volt');
+    %PD=full(PD);
+    %% 统计PD误差
+    % absPDLoad=abs(  (PD(Loadi)-PD0(Loadi))./PD0(Loadi)  );
+    absPDLoad=abs(  (PD(Loadi)-PDReal(Loadi))./PDReal(Loadi)  );
+    maxPDError=max(absPDLoad(absPDLoad<10))
+    absQDLoad=abs(  (QD(Loadi)-QDReal(Loadi))./QDReal(Loadi)  );
+    maxQDError=max(absQDLoad(absQDLoad<10))
+    disp('index');
+    %Loadi(absPDLoad==maxPDError);
+    %% 计算总线损
+    totalLoss=(sum(PG)-sum(PD(Loadi)))*100;
+    fprintf('总的损耗为%f(MW 有名值)\n',full(totalLoss));
+    fprintf('线损率为 %f\n',full(totalLoss/sum(PG)));
+    %% 计算各线损
+    %Lineloss(Linei,Linej,Liner,Linex,Lineb,Transfori,Transforj,Transforr,Transforx,Transfork0,Volt,UAngel);
+    thesis=thesis.AddPDQDPGQG(PD(Loadi),QD(Loadi),PG(Balance),QG(PVi));
+    
 end
-fprintf('迭代次数%d\n',KK);
-fprintf('目标值%f\n',full(ObjectiveFun(PG,PG0,PGi,QG,QG0,PVi,PD,PD0,QD,QD0,wPG,wQG,wPD,wQD,Loadi)));
-DrawGap(plotGap);
-%% 
-%Volt=full(Volt');
-%PD=full(PD);
-%% 统计PD误差
-% absPDLoad=abs(  (PD(Loadi)-PD0(Loadi))./PD0(Loadi)  );
-absPDLoad=abs(  (PD(Loadi)-PDReal(Loadi))./PDReal(Loadi)  );
-maxPDError=max(absPDLoad(absPDLoad<10))
-absQDLoad=abs(  (QD(Loadi)-QDReal(Loadi))./QDReal(Loadi)  );
-maxQDError=max(absQDLoad(absQDLoad<10))
-disp('index');
-%Loadi(absPDLoad==maxPDError);
-%% 计算总线损
-totalLoss=(sum(PG)-sum(PD(Loadi)))*100;
-fprintf('总的损耗为%f(MW 有名值)\n',full(totalLoss));
-fprintf('线损率为 %f\n',full(totalLoss/sum(PG)));
-%% 计算各线损
-%Lineloss(Linei,Linej,Liner,Linex,Lineb,Transfori,Transforj,Transforr,Transforx,Transfork0,Volt,UAngel);
-toc  
+PD(Loadi)=thesis.MeanPD();
+QD(Loadi)=thesis.MeanQD();
+PG(Balance)=thesis.MeanPG();
+QG(PVi)=thesis.MeanQG();
+thesis.MaxDeviation(PG0(Balance),QG0(PVi),PD0(Loadi),QD0(Loadi));
+thesis.StatDeviation(PG0(Balance),QG0(PVi),PD0(Loadi),QD0(Loadi))
+toc

--- a/OPF_Init.m
+++ b/OPF_Init.m
@ -17,8 +17,8 @@ tPL=sparse(GenL(:,2));%
 tQL=sparse(PVQL(:,1));% 无功下限
 PG(PGi)=(tPU+tPL)/2;
 QG(PVi)=(tQU+tQL)/2;
-wPG=100*ones(size(PGi,1),1);
-wQG=100*ones(size(PVi,1),1);
+wPG=0*ones(size(PGi,1),1);
+wQG=0*ones(size(PVi,1),1);
 %randInt=randperm(size(Loadi,1));
 %randPDind=randInt(1:10);
 randPDind=0;