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Python中如何支持向量機?相信很多沒有經驗的人對此束手無策,為此本文總結了問題出現的原因和解決方法,通過這篇文章希望你能解決這個問題。
1、云計算,典型應用OpenStack。2、WEB前端開發,眾多大型網站均為Python開發。3.人工智能應用,基于大數據分析和深度學習而發展出來的人工智能本質上已經無法離開python。4、系統運維工程項目,自動化運維的標配就是python+Django/flask。5、金融理財分析,量化交易,金融分析。6、大數據分析。
運行環境
Pyhton3
numpy(科學計算包)
matplotlib(畫圖所需,不畫圖可不必)
計算過程
st=>start: 開始
e=>end: 結束
op1=>operation: 讀入數據
op2=>operation: 格式化數據
cond=>condition: 是否達到迭代次數
op3=>operation: 尋找超平面分割最小間隔
ccond=>conditon: 數據是否改變
op4=>operation: 輸出結果
st->op1->op2->cond
cond(yes)->op4->e
cond(no)->op3
啊,這markdown flow好難用,我決定就畫到這吧=。=
輸入樣例
/* testSet.txt */ 3.542485 1.977398 -1 3.018896 2.556416 -1 7.551510 -1.580030 1 2.114999 -0.004466 -1 8.127113 1.274372 1 7.108772 -0.986906 1 8.610639 2.046708 1 2.326297 0.265213 -1 3.634009 1.730537 -1 0.341367 -0.894998 -1 3.125951 0.293251 -1 2.123252 -0.783563 -1 0.887835 -2.797792 -1 7.139979 -2.329896 1 1.696414 -1.212496 -1 8.117032 0.623493 1 8.497162 -0.266649 1 4.658191 3.507396 -1 8.197181 1.545132 1 1.208047 0.213100 -1 1.928486 -0.321870 -1 2.175808 -0.014527 -1 7.886608 0.461755 1 3.223038 -0.552392 -1 3.628502 2.190585 -1 7.407860 -0.121961 1 7.286357 0.251077 1 2.301095 -0.533988 -1 -0.232542 -0.547690 -1 3.457096 -0.082216 -1 3.023938 -0.057392 -1 8.015003 0.885325 1 8.991748 0.923154 1 7.916831 -1.781735 1 7.616862 -0.217958 1 2.450939 0.744967 -1 7.270337 -2.507834 1 1.749721 -0.961902 -1 1.803111 -0.176349 -1 8.804461 3.044301 1 1.231257 -0.568573 -1 2.074915 1.410550 -1 -0.743036 -1.736103 -1 3.536555 3.964960 -1 8.410143 0.025606 1 7.382988 -0.478764 1 6.960661 -0.245353 1 8.234460 0.701868 1 8.168618 -0.903835 1 1.534187 -0.622492 -1 9.229518 2.066088 1 7.886242 0.191813 1 2.893743 -1.643468 -1 1.870457 -1.040420 -1 5.286862 -2.358286 1 6.080573 0.418886 1 2.544314 1.714165 -1 6.016004 -3.753712 1 0.926310 -0.564359 -1 0.870296 -0.109952 -1 2.369345 1.375695 -1 1.363782 -0.254082 -1 7.279460 -0.189572 1 1.896005 0.515080 -1 8.102154 -0.603875 1 2.529893 0.662657 -1 1.963874 -0.365233 -1 8.132048 0.785914 1 8.245938 0.372366 1 6.543888 0.433164 1 -0.236713 -5.766721 -1 8.112593 0.295839 1 9.803425 1.495167 1 1.497407 -0.552916 -1 1.336267 -1.632889 -1 9.205805 -0.586480 1 1.966279 -1.840439 -1 8.398012 1.584918 1 7.239953 -1.764292 1 7.556201 0.241185 1 9.015509 0.345019 1 8.266085 -0.230977 1 8.545620 2.788799 1 9.295969 1.346332 1 2.404234 0.570278 -1 2.037772 0.021919 -1 1.727631 -0.453143 -1 1.979395 -0.050773 -1 8.092288 -1.372433 1 1.667645 0.239204 -1 9.854303 1.365116 1 7.921057 -1.327587 1 8.500757 1.492372 1 1.339746 -0.291183 -1 3.107511 0.758367 -1 2.609525 0.902979 -1 3.263585 1.367898 -1 2.912122 -0.202359 -1 1.731786 0.589096 -1 2.387003 1.573131 -1
代碼實現
# -*- coding:utf-8 -*- #!python3 __author__ = 'Wsine' from numpy import * import matplotlib.pyplot as plt import operator import time def loadDataSet(fileName): dataMat = [] labelMat = [] with open(fileName) as fr: for line in fr.readlines(): lineArr = line.strip().split('\t') dataMat.append([float(lineArr[0]), float(lineArr[1])]) labelMat.append(float(lineArr[2])) return dataMat, labelMat def selectJrand(i, m): j = i while (j == i): j = int(random.uniform(0, m)) return j def clipAlpha(aj, H, L): if aj > H: aj = H if L > aj: aj = L return aj class optStruct: def __init__(self, dataMatIn, classLabels, C, toler): self.X = dataMatIn self.labelMat = classLabels self.C = C self.tol = toler self.m = shape(dataMatIn)[0] self.alphas = mat(zeros((self.m, 1))) self.b = 0 self.eCache = mat(zeros((self.m, 2))) def calcEk(oS, k): fXk = float(multiply(oS.alphas, oS.labelMat).T * (oS.X * oS.X[k, :].T)) + oS.b Ek = fXk - float(oS.labelMat[k]) return Ek def selectJ(i, oS, Ei): maxK = -1 maxDeltaE = 0 Ej = 0 oS.eCache[i] = [1, Ei] validEcacheList = nonzero(oS.eCache[:, 0].A)[0] if (len(validEcacheList)) > 1: for k in validEcacheList: if k == i: continue Ek = calcEk(oS, k) deltaE = abs(Ei - Ek) if (deltaE > maxDeltaE): maxK = k maxDeltaE = deltaE Ej = Ek return maxK, Ej else: j = selectJrand(i, oS.m) Ej = calcEk(oS, j) return j, Ej def updateEk(oS, k): Ek = calcEk(oS, k) oS.eCache[k] = [1, Ek] def innerL(i, oS): Ei = calcEk(oS, i) if ((oS.labelMat[i] * Ei < -oS.tol) and (oS.alphas[i] < oS.C)) or ((oS.labelMat[i] * Ei > oS.tol) and (oS.alphas[i] > 0)): j, Ej = selectJ(i, oS, Ei) alphaIold = oS.alphas[i].copy() alphaJold = oS.alphas[j].copy() if (oS.labelMat[i] != oS.labelMat[j]): L = max(0, oS.alphas[j] - oS.alphas[i]) H = min(oS.C, oS.C + oS.alphas[j] - oS.alphas[i]) else: L = max(0, oS.alphas[j] + oS.alphas[i] - oS.C) H = min(oS.C, oS.alphas[j] + oS.alphas[i]) if (L == H): # print("L == H") return 0 eta = 2.0 * oS.X[i, :] * oS.X[j, :].T - oS.X[i, :] * oS.X[i, :].T - oS.X[j, :] * oS.X[j, :].T if eta >= 0: # print("eta >= 0") return 0 oS.alphas[j] -= oS.labelMat[j] * (Ei - Ej) / eta oS.alphas[j] = clipAlpha(oS.alphas[j], H, L) updateEk(oS, j) if (abs(oS.alphas[j] - alphaJold) < 0.00001): # print("j not moving enough") return 0 oS.alphas[i] += oS.labelMat[j] * oS.labelMat[i] * (alphaJold - oS.alphas[j]) updateEk(oS, i) b1 = oS.b - Ei - oS.labelMat[i] * (oS.alphas[i] - alphaIold) * oS.X[i, :] * oS.X[i, :].T - oS.labelMat[j] * (oS.alphas[j] - alphaJold) * oS.X[i, :] * oS.X[j, :].T b2 = oS.b - Ei - oS.labelMat[i] * (oS.alphas[i] - alphaIold) * oS.X[i, :] * oS.X[j, :].T - oS.labelMat[j] * (oS.alphas[j] - alphaJold) * oS.X[j, :] * oS.X[j, :].T if (0 < oS.alphas[i]) and (oS.C > oS.alphas[i]): oS.b = b1 elif (0 < oS.alphas[j]) and (oS.C > oS.alphas[j]): oS.b = b2 else: oS.b = (b1 + b2) / 2.0 return 1 else: return 0 def smoP(dataMatIn, classLabels, C, toler, maxIter, kTup=('lin', 0)): """ 輸入:數據集, 類別標簽, 常數C, 容錯率, 最大循環次數 輸出:目標b, 參數alphas """ oS = optStruct(mat(dataMatIn), mat(classLabels).transpose(), C, toler) iterr = 0 entireSet = True alphaPairsChanged = 0 while (iterr < maxIter) and ((alphaPairsChanged > 0) or (entireSet)): alphaPairsChanged = 0 if entireSet: for i in range(oS.m): alphaPairsChanged += innerL(i, oS) # print("fullSet, iter: %d i:%d, pairs changed %d" % (iterr, i, alphaPairsChanged)) iterr += 1 else: nonBoundIs = nonzero((oS.alphas.A > 0) * (oS.alphas.A < C))[0] for i in nonBoundIs: alphaPairsChanged += innerL(i, oS) # print("non-bound, iter: %d i:%d, pairs changed %d" % (iterr, i, alphaPairsChanged)) iterr += 1 if entireSet: entireSet = False elif (alphaPairsChanged == 0): entireSet = True # print("iteration number: %d" % iterr) return oS.b, oS.alphas def calcWs(alphas, dataArr, classLabels): """ 輸入:alphas, 數據集, 類別標簽 輸出:目標w """ X = mat(dataArr) labelMat = mat(classLabels).transpose() m, n = shape(X) w = zeros((n, 1)) for i in range(m): w += multiply(alphas[i] * labelMat[i], X[i, :].T) return w def plotFeature(dataMat, labelMat, weights, b): dataArr = array(dataMat) n = shape(dataArr)[0] xcord1 = []; ycord1 = [] xcord2 = []; ycord2 = [] for i in range(n): if int(labelMat[i]) == 1: xcord1.append(dataArr[i, 0]) ycord1.append(dataArr[i, 1]) else: xcord2.append(dataArr[i, 0]) ycord2.append(dataArr[i, 1]) fig = plt.figure() ax = fig.add_subplot(111) ax.scatter(xcord1, ycord1, s=30, c='red', marker='s') ax.scatter(xcord2, ycord2, s=30, c='green') x = arange(2, 7.0, 0.1) y = (-b[0, 0] * x) - 10 / linalg.norm(weights) ax.plot(x, y) plt.xlabel('X1'); plt.ylabel('X2') plt.show() def main(): trainDataSet, trainLabel = loadDataSet('testSet.txt') b, alphas = smoP(trainDataSet, trainLabel, 0.6, 0.0001, 40) ws = calcWs(alphas, trainDataSet, trainLabel) print("ws = \n", ws) print("b = \n", b) plotFeature(trainDataSet, trainLabel, ws, b) if __name__ == '__main__': start = time.clock() main() end = time.clock() print('finish all in %s' % str(end - start))
輸出樣例
ws =
[[ 0.65307162]
[-0.17196128]]
b =
[[-2.89901748]]
finish all in 2.5683854014099112
看完上述內容,你們掌握Python中如何支持向量機的方法了嗎?如果還想學到更多技能或想了解更多相關內容,歡迎關注億速云行業資訊頻道,感謝各位的閱讀!
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