コード例 #1
0
ファイル: thresholding.py プロジェクト: kunert/PyNets
def weight_conversion(W, wcm, copy=True):
    '''##Adapted from bctpy
    '''
    if wcm == 'binarize':
        return binarize(W, copy)
    elif wcm == 'lengths':
        return invert(W, copy)
コード例 #2
0
ファイル: thresholding.py プロジェクト: kunert/PyNets
 def est_error_rates(func_mat, struct_mat_bin, thr):
     func_mat = thr_step(func_mat, thr)
     func_mat_bin = binarize(func_mat)
     diffs = func_mat_bin - struct_mat_bin
     density = est_density(func_mat)
     unique, counts = np.unique(diffs, return_counts=True)
     accuracy_dict = dict(zip(unique, counts))
     FN = accuracy_dict.get(-1.0)
     FP = accuracy_dict.get(1.0)
     FN_error = float(float(FN)/diffs.size)
     FP_error = float(float(FP)/diffs.size)
     total_err = float(float(FP + FN)/diffs.size)
     return(FP_error, FN_error, total_err, density)
コード例 #3
0
ファイル: thresholding.py プロジェクト: kunert/PyNets
def adaptive_thresholding(ts_within_spheres, conn_model, NETWORK, ID, struct_mat_path, dir_path):
    import collections
    from pynets import binarize, thr2prob, est_density

    def thr_step(func_mat, thr):
        thr = float(thr) + float(0.01)
        func_mat = threshold_absolute(func_mat, thr)
        return func_mat

    ##Calculate # False Connections
    def est_error_rates(func_mat, struct_mat_bin, thr):
        func_mat = thr_step(func_mat, thr)
        func_mat_bin = binarize(func_mat)
        diffs = func_mat_bin - struct_mat_bin
        density = est_density(func_mat)
        unique, counts = np.unique(diffs, return_counts=True)
        accuracy_dict = dict(zip(unique, counts))
        FN = accuracy_dict.get(-1.0)
        FP = accuracy_dict.get(1.0)
        FN_error = float(float(FN)/diffs.size)
        FP_error = float(float(FP)/diffs.size)
        total_err = float(float(FP + FN)/diffs.size)
        return(FP_error, FN_error, total_err, density)

    [conn_matrix, est_path] = graphestimation.get_conn_matrix(ts_within_spheres, conn_model, NETWORK, ID, dir_path, thr)
    struct_mat = np.genfromtxt(struct_mat_path)
    print('Using reference structural matrix from: ' + struct_mat_path)

    ##Prep functional mx
    conn_matrix = normalize(conn_matrix)
    np.fill_diagonal(conn_matrix, 0)
    func_mat = conn_matrix
    func_mat_bin = binarize(func_mat)
    fG=nx.from_numpy_matrix(func_mat)
    density = est_density(func_mat)

    ##Prep Structural mx
    np.fill_diagonal(struct_mat, 0)
    struct_mat_thr2bin = thr2prob(struct_mat)
    struct_mat_bin = binarize(struct_mat_thr2bin)
    diffs = func_mat_bin - struct_mat_bin
    unique, counts = np.unique(diffs, return_counts=True)
    accuracy_dict = dict(zip(unique, counts))
    FN = accuracy_dict.get(-1.0)
    ACC = accuracy_dict.get(0.0)
    FP = accuracy_dict.get(1.0)
    FN_error = float(float(FN)/float(diffs.size))
    FP_error = float(float(FP)/float(diffs.size))
    print('FN Error: ' + str(FN_error))
    print('FP Error: ' + str(FP_error))
    ACCUR = float(float(ACC)/float(diffs.size))
    total_err = float(float(FP + FN)/diffs.size)
    print('Using Structural Correspondence as Ground Truth. Unthresholded FP Error: ' + str(FP_error*100) + '%' + '; Unthresholded FN Error: ' + str(FN_error*100) + '%' + '; Unthresholded Accuracy: ' + str(ACCUR*100) + '%')
    print('Adaptively thresholding...')

    thr=0.0
    ##Create dictionary
    d = {}
    d[str(thr)] = [FP_error, FN_error, total_err, density]
    print('Creating dictionary of thresholds...')
    while thr < 0.2:
        [FP_error, FN_error, total_err, density] = est_error_rates(func_mat, struct_mat_bin, thr)
        d[str(thr)] = [round(FP_error,2), round(FN_error,2), round(total_err,2), round(density,2)]
        thr = thr + 0.0001

    d = collections.OrderedDict(sorted(d.items()))
    good_threshes=[]
    for key, value in d.items():
        if value[0] == value[1]:
            good_threshes.append(float(key))

    [conn_matrix, est_path] = graphestimation.get_conn_matrix(ts_within_spheres, conn_model, NETWORK, ID, dir_path, thr)
    conn_matrix = normalize(conn_matrix)
    np.fill_diagonal(conn_matrix, 0)
    min_thresh = min(good_threshes)
    FP = d[str(min_thresh)][0]
    FN = d[str(min_thresh)][1]
    FN_error = float(float(FN)/float(diffs.size))
    FP_error = float(float(FP)/float(diffs.size))
    density = est_density(conn_matrix)
    print('\n\n\nBest Threshold: ' + str(min_thresh))
    print('Graph Density: ' + str(density))
    print('Final Thresholded FN Error: ' + str(FN_error))
    print('Final Thresholded FP Error: ' + str(FP_error) + '\n\n\n')
    conn_matrix = threshold_absolute(conn_matrix, min_thresh)
    edge_threshold = str(float(min_thresh)*100) +'%'
    return(conn_matrix, est_path, edge_threshold, min_thresh)
コード例 #4
0
def weight_conversion(W, wcm, copy=True):
    if wcm == 'binarize':
        return binarize(W, copy)
    elif wcm == 'lengths':
        return invert(W, copy)