标签:生成 一个 精确 class 记录 swarm oop timer ide
1 Option Explicit 2 3 ‘遗传算法参数 4 Dim GeneLength As Integer ‘染色体长度 5 Dim swarmNum As Integer ‘种群规模 6 Dim Pc As Double ‘杂交概率 7 Dim Pm As Double ‘突变概率 8 Dim maxNum As Integer ‘遗传算法循环次数 9 Dim panelBool As Boolean 10 Dim tournamentBool As Boolean 11 12 ‘种群适应度统计 13 Dim optGene As Integer ‘最佳个体的位置 14 Dim worstGene As Integer ‘最差个体的位置 15 Dim sumFitness As Double ‘适应度总和 16 Dim meanFitness As Double ‘平均适应度 17 Dim maxFitness As Double ‘最大适应度 18 Dim minFitness As Double ‘最小适应度 19 Dim stdevFitness As Double ‘适应度标准差 20 21 ‘Dim OriPool() As Byte 22 Dim oriPool() As Double 23 24 ‘Dim MatePool() As Byte 25 Dim MatePool() As Double 26 27 Dim Fitness() As Double 28 Dim panelFitness() As Double 29 30 Dim FileNum As Integer 31 32 ‘高斯分布随机数 33 34 Function randGauss() As Double 35 Dim i As Integer 36 randGauss = 0 37 For i = 1 To 20 38 randGauss = randGauss + Rnd 39 Next i 40 randGauss = (randGauss - 10) / (1.667) ^ 0.5 41 End Function 42 43 ‘轮盘赌博选择算子,利用累加临左法 44 Function panelSelection(Fitness() As Double) As Integer 45 46 Dim index, fir, las, i As Integer 47 Dim temp, sum, sumFitness As Double 48 49 fir = LBound(Fitness) 50 las = UBound(Fitness) 51 sumFitness = 0 52 For i = fir To las 53 sumFitness = sumFitness + Fitness(i) 54 Next i 55 temp = Rnd * sumFitness ‘产生随机数 56 57 index = fir - 1 58 sum = 0 59 60 Do While sum < temp 61 index = index + 1 62 sum = sum + Fitness(index) 63 Loop 64 If index = fir - 1 Then 65 panelSelection = fir 66 Else 67 panelSelection = index 68 End If 69 70 End Function 71 72 ‘锦标赛选择算子 73 Function tournamentSele(Fitness() As Double) As Integer 74 Dim i, j As Integer 75 i = Int(swarmNum * Rnd + 1) 76 j = Int(swarmNum * Rnd + 1) 77 If Fitness(i) >= Fitness(j) Then 78 tournamentSele = i 79 Else 80 tournamentSele = j 81 End If 82 End Function 83 84 ‘计算种群适应度 85 Private Sub outFitness(oriPool() As Double, swarmNum As Integer) 86 87 Dim i As Integer 88 Dim a, b, e As Double 89 For i = 1 To swarmNum 90 91 ‘//***计算适应度语句***// 92 Fitness(i) = 0 93 94 ‘//***结束***// 95 96 Next i 97 98 sumFitness = 0 99 maxFitness = Fitness(1) 100 minFitness = Fitness(1) 101 optGene = 1 102 worstGene = 1 103 104 For i = 1 To swarmNum 105 sumFitness = sumFitness + Fitness(i)‘总适应度 106 If Fitness(i) > maxFitness Then ‘找到最大适应度评分及其位置 107 maxFitness = Fitness(i) 108 optGene = i 109 End If 110 If Fitness(i) < minFitness Then‘找到最小适应度评分及其位置 111 minFitness = Fitness(i) 112 worstGene = i 113 End If 114 Next i 115 116 meanFitness = sumFitness / swarmNum ‘平均适应度评分 117 118 stdevFitness = 0 ‘适应度标准差 119 For i = 1 To swarmNum 120 stdevFitness = stdevFitness + (Fitness(i) - meanFitness) ^ 2 121 Next i 122 stdevFitness = stdevFitness / swarmNum 123 124 If maxFitness <> meanFitness Then ‘如果最小适应度不等于最大适应度 125 e = 1.5 126 a = (e - 1) * meanFitness / (maxFitness - meanFitness) 127 b = (1 - a) * meanFitness 128 For i = 1 To swarmNum 129 panelFitness(i) = a * Fitness(i) + b 130 If panelFitness(i) < 0 Then 131 panelFitness(i) = 0 132 End If 133 Next i 134 Else 135 For i = 1 To swarmNum 136 panelFitness(i) = Fitness(i) 137 Next i 138 End If 139 140 End Sub 141 142 Private Sub Command1_Click() 143 144 Dim i, j As Integer 145 Dim iterNum As Integer 146 Dim coupleNum As Integer 147 Dim wife, husband As Integer 148 Dim mateLocation As Integer 149 Dim tempint As Integer 150 Dim tempdbl As Double 151 152 Dim mutationLoc As Integer 153 Dim copySelection As Integer 154 Dim tempRnd As Double 155 Dim str As String 156 157 FileNum = FreeFile 158 Open "D:\result.txt" For Output As FileNum 159 160 swarmNum = 20‘种群规模,有多少个随机初始值 161 Pc = 0.8 ‘杂交概率 162 Pm = 0.001‘突变概率 163 164 maxNum = 30 ‘循环次数 繁殖代数 165 166 panelBool = False 167 tournamentBool = True 168 169 GeneLength = 13 ‘基因长度 170 coupleNum = CInt(swarmNum * Pc / 2)‘20*0.8/2=8,有多少对夫妻结合 171 172 ReDim oriPool(1 To swarmNum, 1 To GeneLength) ‘初始种群池 第一维为种群中每个个体,第二维为相应个体的基因长度 173 ReDim MatePool(1 To swarmNum, 1 To GeneLength) ‘交配池 174 ReDim Fitness(1 To swarmNum) ‘适应度 175 ReDim panelFitness(1 To swarmNum)‘轮盘适应度 176 177 ‘initialize originpool‘ 178 179 Randomize ‘初始化随机数生成器 180 181 For i = 1 To swarmNum ‘oriPool(i, j)的每个元素赋初始值 182 ‘//***初始化种群***// 183 ‘For j = 1 To GeneLength 184 ‘OriPool(i, j) = Int(2 * Rnd) 185 ‘Next j 186 187 For j = 1 To 9 188 oriPool(i, j) = Rnd 189 Next j 190 191 For j = 10 To 12 192 oriPool(i, j) = 100 * Rnd 193 Next j 194 195 oriPool(13) = Rnd 196 ‘//***初始化结束***// 197 Next i 198 199 For iterNum = 1 To maxNum ‘循环30代 200 201 Call outFitness(oriPool, swarmNum) 202 203 Print #FileNum, "第" + CStr(iterNum) + "代解" 204 For i = 1 To swarmNum 205 str = "" 206 For j = 1 To GeneLength 207 If TypeName(oriPool(i, j)) = "Double" Then 208 str = str & Format(oriPool(i, j), "0.000") & "," 209 Else 210 str = str & CStr(oriPool(i, j)) 211 End If 212 Next j 213 214 If TypeName(oriPool(i, 1)) = "Double" Then 215 str = Left(str, Len(str) - 1) 216 End If 217 218 Print #FileNum, str, Format(Fitness(i), "0.000") 219 220 Next i 221 222 str = "最优个体 " 223 For j = 1 To GeneLength 224 If TypeName(oriPool(optGene, j)) = "Double" Then 225 str = str & Format(oriPool(optGene, j), "0.000") & "," 226 Else 227 str = str & CStr(oriPool(optGene, j)) 228 End If 229 Next j 230 If TypeName(oriPool(optGene, GeneLength)) = "Double" Then 231 str = Left(str, Len(str) - 1) 232 End If 233 Print #FileNum, str, Format(Fitness(optGene), "0.000") 234 235 str = "最差个体 " 236 For j = 1 To GeneLength 237 If TypeName(oriPool(worstGene, j)) = "Double" Then 238 str = str & Format(oriPool(worstGene, j), "0.000") & "," 239 Else 240 str = str & CStr(oriPool(worstGene, j)) 241 End If 242 Next j 243 If TypeName(oriPool(worstGene, GeneLength)) = "Double" Then 244 str = Left(str, Len(str) - 1) 245 End If 246 Print #FileNum, str, Format(Fitness(worstGene), "0.000") 247 str = "平均适应度 = " & Format(meanFitness, "0.000") & " ; " 248 str = str & "适应度标准差 = " & Format(stdevFitness, "0.000") 249 Print #FileNum, str 250 251 ‘//***复制算子无需改动***// 252 ‘copy operator‘ 253 254 For i = 1 To swarmNum 255 256 If panelBool Then 257 copySelection = panelSelection(panelFitness) 258 End If 259 If tournamentBool Then 260 copySelection = tournamentSele(Fitness) 261 End If 262 For j = 1 To GeneLength 263 MatePool(i, j) = oriPool(copySelection, j) 264 Next j 265 266 Next i 267 ‘//***复制算子无需改动***// 268 269 ‘crossover operator‘ 270 271 For i = 1 To coupleNum 272 wife = Int(swarmNum * Rnd + 1) 273 husband = Int(swarmNum * Rnd + 1) 274 mateLocation = Int(GeneLength * Rnd + 1) 275 For j = 1 To mateLocation 276 If TypeName(MatePool(wife, j)) = "Double" Then 277 tempdbl = MatePool(wife, j) 278 MatePool(wife, j) = MatePool(husband, j) 279 MatePool(husband, j) = tempdbl 280 Else 281 tempint = MatePool(wife, j) 282 MatePool(wife, j) = MatePool(husband, j) 283 MatePool(husband, j) = tempint 284 End If 285 Next j 286 Next i 287 288 ‘mutation operator‘ ‘基因突变 289 For i = 1 To swarmNum ‘遍历种群中每个个体(染色体) 290 291 ‘//***二进制编码变异***// 292 For j = 1 To GeneLength ‘遍历每个个体(也叫染色体)中的基因 。MatePool是一个二维数组,每行代表一个个体,每列代表基因长度(是个啥) 293 tempRnd = Rnd 294 If tempRnd <= Pm Then ‘pm 基因突变率,0.001, 295 MatePool(i, j) = (MatePool(i, j) + 1) Mod 2 ‘mod 用来对两个数作除法并且只返回余数。 296 End If 297 Next j 298 ‘//***二进制编码变异结束***// 299 300 Next i 301 302 ‘//***加速器***// 303 304 ‘//***加速器结束***// 305 306 ‘//***将交配池的个体复制到原始池***// 307 For i = 1 To swarmNum 308 For j = 1 To GeneLength 309 oriPool(i, j) = MatePool(i, j) 310 Next j 311 Next i 312 313 314 Next iterNum 315 316 Text1.Text = "the end" 317 318 End Sub
能看懂部分,看不懂这个基因代表啥。也不是二进制表示基因,是浮点数。
用这个代码为模板用来解一个现实的问题吧:
f(x)=x*sin(10*pi*x)+2.0在区间【-1,2】的最大值。不求这个了,求多个摩尔圆的包线。
1 ‘‘‘‘随机数的应用 2 ‘Dim i As Integer, randGauss As Double 3 ‘Dim myarray(4) As Integer 4 ‘Sub myrnd() 5 ‘For i = 1 To 11 6 ‘ Cells(i, 1).Value = Int(100 * Rnd() + 1) 7 ‘ Cells(i, 2).Value = WorksheetFunction.Dec2Bin(Cells(i, 1).Value, 7) 8 ‘Next i 9 ‘randGauss = 0 10 ‘For i = 1 To 20 11 ‘randGauss = randGauss + Rnd 12 ‘Cells(i, 3).Value = randGauss 13 ‘Next i 14 ‘randGauss = (randGauss - 10) / (1.667) ^ 0.5 15 ‘Cells(i + 1, 3).Value = randGauss 16 ‘End Sub 17 18 Dim minf As Double, df As Double, oxy() As Double, R() As Double, k As Double, b As Double, fric As Double, c As Double 19 Dim dk As Double, db As Double, fb(2001) As Double, minfkb(1001, 3) 20 Dim iRow As Long, i As Integer, j As Integer, jx As Integer, num As Integer, ii As Integer 21 Sub readExcelToArr() 22 b = 0: f = 0: df = 1: k = 0: num = 0: dk = 0.001: db = 0.05 23 ‘Sheets("图表名").Activate Sheets(图表编号).Activate 24 ‘ Worksheets("Sheet1").Activate 25 ‘ Charts("Chart1").Activate 26 ‘ DialogSheets("Dialog1").Activate 27 Sheets("zbl强度包线").Activate 28 iRow = Cells(Rows.Count, 1).End(xlUp).Row ‘ iRow=5 29 ReDim oxy(iRow - 1), R(iRow - 1) ‘oxy(4),共有0 1 2 3 这四个元素 30 For i = 2 To UBound(oxy) + 1 ‘UBound(oxy)为数组 oxy 第一维上限,为4 31 oxy(i - 2) = Range("A" & i) 32 R(i - 2) = Range("B" & i) 33 ‘ Range("C" & i) = oxy(i - 2) 34 ‘ Range("D" & i) = R(i - 2) 35 Next i 36 For i = 0 To UBound(oxy) - 2 ‘4-2 37 For j = i + 1 To UBound(oxy) - 1 38 num = num + 1 39 k = k + (R(j) - R(i)) / Sqr(((oxy(j) - oxy(i)) ^ 2 - (R(j) - R(i)) ^ 2)) ‘Sqr((R(j) - R(i)) / (2 * R(i))) 40 Next j 41 Next i 42 k = k / num 43 Range("H" & 1) = k 44 ‘k = (R(iRow - 2) - R(0)) / Sqr(((oxy(iRow - 2) - oxy(0)) ^ 2 - (R(iRow - 2) - R(0)) ^ 2)) ‘Sqr((R(iRow - 2) - R(0)) / (2 * R(0))) 45 ‘ f = computeF(k, b) 46 ‘ MsgBox "k=" & k & ", b=" & b & " f=" & f 47 48 ‘ 49 ‘For i = 0 To 1000 50 ‘ minfkb(i, 0) = 0 51 ‘ minfkb(i, 1) = 0 52 ‘ minfkb(i, 2) = 0 53 ‘Next i 54 55 k = k - 0.2 56 jx = 2000 57 minf = computeF(k, b) ‘假定最小的圆心距离直线长度与半径差的平方和为minf 58 c = Timer 59 For i = 0 To 1000 ‘3000*dk=3000*0.001=3 60 ‘ Range("I" & CStr(i + 1)).Value = i 61 If k > 0 And b >= 0 Then 62 k = k + dk ‘给k递增 63 For j = 0 To jx ‘ 2000*db=2000*0.05=100,就是说最大算的粘聚力为100kpa,但是随着i的增大,j的个数是越来越小的。所以不必给个定值2000 64 fb(j) = computeF(k, j * db) 65 If minf > fb(j) Then ‘对每个k,遍历好多个b,这样比较出其中的最小的minf,输出到数组。最后在minfkb数组中找最小的minf值 66 minf = fb(j) 67 b = j * db 68 minfkb(i, 0) = k ‘minfbk 存放最小f值所对应的k,b与f值,i值为k的变化系数 69 minfkb(i, 1) = b 70 minfkb(i, 2) = minf 71 jx = j 72 Range("C" & CStr(i + 1)).Value = i 73 Range("D" & CStr(i + 1)).Value = j 74 Range("E" & CStr(i + 1)).Value = k 75 Range("F" & CStr(i + 1)).Value = b 76 Range("G" & CStr(i + 1)).Value = minf 77 End If 78 Next j 79 End If 80 If i >= 1 Then 81 df = minfkb(i, 2) - minfkb(i - 1, 2) 82 If df = 0 Then 83 Exit For 84 End If 85 End If 86 Next i 87 Range("I" & CStr(3)).Value = Timer - c 88 c = 0 89 c = Timer 90 ‘下面寻找minfkb数组中最小的f值 91 minf = minfkb(0, 2) ‘首先将第一次算出的f最小值给minf 92 For i = 0 To 1000 93 If minf > minfkb(i, 2) Then 94 If minfkb(i, 2) <> 0 Then 95 minf = minfkb(i, 2) 96 k = minfkb(i, 0) 97 b = minfkb(i, 1) 98 End If 99 End If 100 Next i 101 fric = 180 / 3.14159265358979 * Atn(k) 102 Range("J" & CStr(2)).Value = Timer - c 103 104 105 MsgBox " k=" & k & " fric=" & fric & ", b=" & b & " f=" & minf & " c=" & b 106 End Sub 107 108 109 ‘用来求各个圆圆心到包线(直线)距离差的平方和 110 Function computeF(k As Double, b As Double) As Double 111 Dim sum As Double, ii As Integer 112 sum = 0# 113 For ii = 0 To UBound(oxy) - 1 114 sum = sum + ((k * oxy(ii) + b) / (Sqr(k ^ 2 + 1)) - R(ii)) ^ 2 115 Next ii 116 computeF = sum 117 End Function
上面是原先的代码,方法是将k增大一级,变动很大范围的b,然后再将k增大一点,再变动很大的b,这样记录下所有的结果,再找到所有的解中的f最小值即为最精确的k和b。
下面用遗传算法。
首先还是大致确定出k和b的范围,然后给出一个变动范围,找使f(k,b)最小的k和b。
标签:生成 一个 精确 class 记录 swarm oop timer ide
原文地址:http://www.cnblogs.com/zhubinglong/p/7565179.html
