def cost(w, x, y, N):
    result = 0
    for n in range(0, N):
        val = polynomial(w, x[n]) - y[n]
        val = val * val
        result = result + val
    return 0.5 * result / N
def gradient(w, x, y, N):
    grad = w * 0.
    I = len(w) - 1
    pw = range(I + 1)
    for n in range(0, N):
        val = polynomial(w, x[n]) - y[n]
        phi = np.power(x[n], pw)
        grad = grad + phi * val
    return grad / N
Example #3
0
def step(w, x, y, g, N):
    grad = w * 0.
    I = len(w) - 1
    pw = range(I + 1)
    alpha1 = 0
    alpha2 = 0
    for n in range(0, N):
        val = polynomial(w, x[n]) - y[n]
        phi = np.power(x[n], pw)
        dot = np.dot(phi, g)
        alpha1 = alpha1 + val * dot
        alpha2 = alpha2 + dot * dot
    return alpha1 / alpha2