Exemple #1
0
def _rotation(model, loaders, device, ind_dataset, val_dataset, ood_datasets, num_classes):

    ood_dataset_1, ood_dataset_2, ood_dataset_3 = ood_datasets
    val_ind_loader, test_ind_loader, val_ood_loader, test_ood_loader_1, test_ood_loader_2, test_ood_loader_3 = loaders

    val_kl_div_ind, val_rot_score_ind, _ = _predict_rotations(model, val_ind_loader, num_classes, device=device)
    val_kl_div_ood, val_rot_score_ood, _ = _predict_rotations(model, val_ood_loader, num_classes, device=device)

    best_val_auc, best_lamda = 0, 0.25
    for lamda in [0.25, 0.5, 0.75, 1]:

        anomaly_score_ind = val_kl_div_ind - lamda * val_rot_score_ind
        anomaly_score_ood = val_kl_div_ood - lamda * val_rot_score_ood
        auc, _, _ = _score_npzs(anomaly_score_ind, anomaly_score_ood)
        if auc > best_val_auc:
            best_val_auc = auc
            best_anomaly_score_ind = anomaly_score_ind
            best_anomaly_score_ood = anomaly_score_ood

    _, threshold = _find_threshold(best_anomaly_score_ind, best_anomaly_score_ood)

    _, _, ind_full = _predict_rotations(model, test_ind_loader, num_classes, lamda=best_lamda, device=device)
    _, _, ood_full_1 = _predict_rotations(model, test_ood_loader_1, num_classes, lamda=best_lamda, device=device)
    _, _, ood_full_2 = _predict_rotations(model, test_ood_loader_2, num_classes, lamda=best_lamda, device=device)
    _, _, ood_full_3 = _predict_rotations(model, test_ood_loader_3, num_classes, lamda=best_lamda, device=device)

    ind_savefile_name_full = f'npzs/self_supervision_{ind_dataset}_ind_{ind_dataset}_val_{val_dataset}.npz'
    ood_savefile_name_full_1 = f'npzs/self_supervision_{ood_dataset_1}_ind_{ind_dataset}_val_{val_dataset}.npz'
    ood_savefile_name_full_2 = f'npzs/self_supervision_{ood_dataset_2}_ind_{ind_dataset}_val_{val_dataset}.npz'
    ood_savefile_name_full_3 = f'npzs/self_supervision_{ood_dataset_3}_ind_{ind_dataset}_val_{val_dataset}.npz'

    auc_1, fpr_1, acc_1 = _score_npzs(ind_full, ood_full_1, threshold)
    auc_2, fpr_2, acc_2 = _score_npzs(ind_full, ood_full_2, threshold)
    auc_3, fpr_3, acc_3 = _score_npzs(ind_full, ood_full_3, threshold)

    aucs = [auc_1, auc_2, auc_3]
    fprs = [fpr_1, fpr_2, fpr_3]
    accs = [acc_1, acc_2, acc_3]

    np.savez(ind_savefile_name_full, ind_full)
    np.savez(ood_savefile_name_full_1, ood_full_1)
    np.savez(ood_savefile_name_full_2, ood_full_2)
    np.savez(ood_savefile_name_full_3, ood_full_3)

    print('###############################################')
    print()
    print(f'Succesfully stored in-distribution ood scores to {ind_savefile_name_full} and out-distribution ood scores to {ood_savefile_name_full_1}, {ood_savefile_name_full_2} and {ood_savefile_name_full_3}')
    print()
    print('###############################################')
    print()
    print('###############################################')
    print()
    print(f"InD dataset: {ind_dataset}")
    print(f"Validation dataset: {val_dataset}")
    method = f"Self-Supervision "
    _verbose(method, ood_dataset_1, ood_dataset_2, ood_dataset_3, aucs, fprs, accs)
Exemple #2
0
def _gen_odin_inference(model, loaders, device, ind_dataset, val_dataset, ood_datasets):

    model.eval()
    ood_dataset_1, ood_dataset_2, ood_dataset_3 = ood_datasets
    val_ind_loader, test_ind_loader, val_ood_loader, test_ood_loader_1, test_ood_loader_2, test_ood_loader_3 = loaders

    epsilons = [0, 0.0025, 0.005, 0.01, 0.02, 0.04, 0.08]

    best_auc, best_epsilon = 0, 0
    for epsilon in epsilons:

        val_ind_scores = _process_gen_odin_loader(model, val_ind_loader, device, epsilon)
        val_ood_scores = _process_gen_odin_loader(model, val_ood_loader, device, epsilon)

        auc, _, _ = _score_npzs(val_ind_scores, val_ood_scores, threshold=0)
        if auc > best_auc:
            best_auc = auc
            best_epsilon = epsilon
            best_val_ind_scores = val_ind_scores
            best_val_ood_scores = val_ood_scores

    _, threshold = _find_threshold(best_val_ind_scores, best_val_ood_scores)

    test_ind_scores = _process_gen_odin_loader(model, test_ind_loader, device, best_epsilon)
    test_ood_scores_1 = _process_gen_odin_loader(model, test_ood_loader_1, device, best_epsilon)
    test_ood_scores_2 = _process_gen_odin_loader(model, test_ood_loader_2, device, best_epsilon)
    test_ood_scores_3 = _process_gen_odin_loader(model, test_ood_loader_3, device, best_epsilon)

    max_h_ind_savefile_name = f'npzs/max_h_gen_odin_{ind_dataset}_ind_{ind_dataset}_val_{val_dataset}.npz'
    max_h_ood_savefile_name_1 = f'npzs/max_h_gen_odin_{ind_dataset}_ind_{ind_dataset}_val_{val_dataset}_ood_{ood_dataset_1}.npz'
    max_h_ood_savefile_name_2 = f'npzs/max_h_gen_odin_{ind_dataset}_ind_{ind_dataset}_val_{val_dataset}_ood_{ood_dataset_2}.npz'
    max_h_ood_savefile_name_3 = f'npzs/max_h_gen_odin_{ind_dataset}_ind_{ind_dataset}_val_{val_dataset}_ood_{ood_dataset_3}.npz'

    np.savez(max_h_ind_savefile_name, test_ind_scores)
    np.savez(max_h_ood_savefile_name_1, test_ood_scores_1)
    np.savez(max_h_ood_savefile_name_2, test_ood_scores_2)
    np.savez(max_h_ood_savefile_name_3, test_ood_scores_3)

    auc_1, fpr_1, acc_1 = _score_npzs(test_ind_scores, test_ood_scores_1, threshold)
    auc_2, fpr_2, acc_2 = _score_npzs(test_ind_scores, test_ood_scores_2, threshold)
    auc_3, fpr_3, acc_3 = _score_npzs(test_ind_scores, test_ood_scores_3, threshold)

    aucs = [auc_1, auc_2, auc_3]
    fprs = [fpr_1, fpr_2, fpr_3]
    accs = [acc_1, acc_2, acc_3]
    print('###############################################')
    print()
    print(f'Succesfully stored in-distribution ood scores for maximum h to {max_h_ind_savefile_name} and out-distribution ood scores to {max_h_ood_savefile_name_1}, {max_h_ood_savefile_name_2} and {max_h_ood_savefile_name_3}')
    print()
    method = "Generalized-Odin results (Cosine Similarity) "
    print('###############################################')
    print()
    print(f"InD dataset: {ind_dataset}")
    print(f"Validation dataset: {val_dataset}")
    _verbose(method, ood_dataset_1, ood_dataset_2, ood_dataset_3, aucs, fprs, accs)
def _ood_detection_performance(method, val_ind, val_ood, test_ind, test_ood):

    _, threshold = _find_threshold(val_ind, val_ood)

    auc, fpr, acc = _score_npzs(test_ind, test_ood, threshold)

    print()
    print(f'Method: {method}')
    print(f'Area Under Receiver Operating Characteristic curve: {auc}')
    print(f'True Negative Rate @ 95% True Positive Rate: {100-fpr}')
    print(f'Detection Accuracy: {acc}')
def _rotation(model, loaders, device, num_classes):

    val_ind_loader, test_ind_loader, val_ood_loader, test_ood_loader_1, test_ood_loader_2, test_ood_loader_3 = loaders

    val_kl_div_ind, val_rot_score_ind, _ = _predict_rotations(model,
                                                              val_ind_loader,
                                                              num_classes,
                                                              device=device)
    val_kl_div_ood, val_rot_score_ood, _ = _predict_rotations(model,
                                                              val_ood_loader,
                                                              num_classes,
                                                              device=device)

    best_val_auc, best_lamda = 0, 0.25
    for lamda in [0.25, 0.5, 0.75, 1]:

        anomaly_score_ind = val_kl_div_ind - lamda * val_rot_score_ind
        anomaly_score_ood = val_kl_div_ood - lamda * val_rot_score_ood
        auc, _, _ = _score_npzs(anomaly_score_ind, anomaly_score_ood)
        if auc > best_val_auc:
            best_val_auc = auc
            best_lamda = lamda
            best_anomaly_score_ind = anomaly_score_ind
            best_anomaly_score_ood = anomaly_score_ood

    print(f"Chosen lambda: {best_lamda}")
    _, threshold = _find_threshold(best_anomaly_score_ind,
                                   best_anomaly_score_ood)

    _, _, ind_full = _predict_rotations(model,
                                        test_ind_loader,
                                        num_classes,
                                        lamda=best_lamda,
                                        device=device)
    _, _, ood_full_1 = _predict_rotations(model,
                                          test_ood_loader_1,
                                          num_classes,
                                          lamda=best_lamda,
                                          device=device)
    _, _, ood_full_2 = _predict_rotations(model,
                                          test_ood_loader_2,
                                          num_classes,
                                          lamda=best_lamda,
                                          device=device)
    _, _, ood_full_3 = _predict_rotations(model,
                                          test_ood_loader_3,
                                          num_classes,
                                          lamda=best_lamda,
                                          device=device)

    return best_anomaly_score_ind, best_anomaly_score_ood, ind_full, ood_full_1, ood_full_2, ood_full_3
def _ood_detection_performance(method, val_ind, val_ood, test_ind, test_ood_1,
                               test_ood_2, test_ood_3, ood_dataset_1,
                               ood_dataset_2, ood_dataset_3):

    _, threshold = _find_threshold(val_ind, val_ood)

    auc1, fpr1, acc1 = _score_npzs(test_ind, test_ood_1, threshold)
    auc2, fpr2, acc2 = _score_npzs(test_ind, test_ood_2, threshold)
    auc3, fpr3, acc3 = _score_npzs(test_ind, test_ood_3, threshold)

    aucs = [auc1, auc2, auc3]
    fprs = [fpr1, fpr2, fpr3]
    accs = [acc1, acc2, acc3]

    _verbose(method, ood_dataset_1, ood_dataset_2, ood_dataset_3, aucs, fprs,
             accs)
Exemple #6
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def _baseline(model, loaders, device, ind_dataset, val_dataset, ood_datasets, monte_carlo_steps=1):

    ood_dataset_1, ood_dataset_2, ood_dataset_3 = ood_datasets
    val_ind_loader, test_ind_loader, val_ood_loader, test_ood_loader_1, test_ood_loader_2, test_ood_loader_3 = loaders
    model.eval()
    _score_classification_accuracy(model, testloader=test_ind_loader, device=device, dataset=ind_dataset)

    if monte_carlo_steps > 1:
        model._dropout.train()

    val_ind = _get_baseline_scores(model, val_ind_loader, device, monte_carlo_steps)
    val_ood = _get_baseline_scores(model, val_ood_loader, device, monte_carlo_steps)

    if monte_carlo_steps > 1:
        val_ind = val_ind / monte_carlo_steps
        val_ood = val_ood / monte_carlo_steps

    acc, threshold = _find_threshold(val_ind, val_ood)

    test_ind = _get_baseline_scores(model, test_ind_loader, device, monte_carlo_steps)
    test_ood_1 = _get_baseline_scores(model, test_ood_loader_1, device, monte_carlo_steps)
    test_ood_2 = _get_baseline_scores(model, test_ood_loader_2, device, monte_carlo_steps)
    test_ood_3 = _get_baseline_scores(model, test_ood_loader_3, device, monte_carlo_steps)

    if monte_carlo_steps == 1:
        ind_savefile_name = f'npzs/baseline_{ind_dataset}_ind_{ind_dataset}_val_{val_dataset}.npz'
        ood_savefile_name_1 = f'npzs/baseline_{ood_dataset_1}_ind_{ind_dataset}_val_{val_dataset}_ood_{ood_dataset_1}.npz'
        ood_savefile_name_2 = f'npzs/baseline_{ood_dataset_2}_ind_{ind_dataset}_val_{val_dataset}_ood_{ood_dataset_2}.npz'
        ood_savefile_name_3 = f'npzs/baseline_{ood_dataset_3}_ind_{ind_dataset}_val_{val_dataset}_ood_{ood_dataset_3}.npz'
    else:
        ind_savefile_name = f'npzs/baseline_{ind_dataset}_ind_{ind_dataset}_val_{val_dataset}_ood_monte_carlo_{monte_carlo_steps}.npz'
        ood_savefile_name_1 = f'npzs/baseline_{ood_dataset_1}_ind_{ind_dataset}_val_{val_dataset}_ood_{ood_dataset_1}_monte_carlo_{monte_carlo_steps}.npz'
        ood_savefile_name_2 = f'npzs/baseline_{ood_dataset_2}_ind_{ind_dataset}_val_{val_dataset}_ood_{ood_dataset_2}_monte_carlo_{monte_carlo_steps}.npz'
        ood_savefile_name_3 = f'npzs/baseline_{ood_dataset_3}_ind_{ind_dataset}_val_{val_dataset}_ood_{ood_dataset_3}_monte_carlo_{monte_carlo_steps}.npz'

    np.savez(ind_savefile_name, test_ind)
    np.savez(ood_savefile_name_1, test_ood_1)
    np.savez(ood_savefile_name_2, test_ood_2)
    np.savez(ood_savefile_name_3, test_ood_3)

    auc_1, fpr_1, acc_1 = _score_npzs(test_ind, test_ood_1, threshold)
    auc_2, fpr_2, acc_2 = _score_npzs(test_ind, test_ood_2, threshold)
    auc_3, fpr_3, acc_3 = _score_npzs(test_ind, test_ood_3, threshold)

    aucs = [auc_1, auc_2, auc_3]
    fprs = [fpr_1, fpr_2, fpr_3]
    accs = [acc_1, acc_2, acc_3]

    print('###############################################')
    print()
    print(f'Succesfully stored in-distribution ood scores to {ind_savefile_name} and out-distribution ood scores to: {ood_savefile_name_1}, {ood_savefile_name_2} and {ood_savefile_name_3}')
    print()
    print('###############################################')
    print()
    print(f"InD dataset: {ind_dataset}")
    print(f"Validation dataset: {val_dataset}")
    if monte_carlo_steps == 1:
        method = f"Baseline"
    else:
        method = f"Baseline results with MC dropout ({monte_carlo_steps} steps)"
    _verbose(method, ood_dataset_1, ood_dataset_2, ood_dataset_3, aucs, fprs, accs)
Exemple #7
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def _ensemble_inference(model_checkpoints, num_classes, loaders, device, ind_dataset, val_dataset):

    val_ind_loader, test_ind_loader, val_ood_loader, test_ood_loader_1, test_ood_loader_2, test_ood_loader_3 = loaders

    models = []
    for index, model_checkpoint in enumerate(model_checkpoints):
        model = build_model_with_checkpoint('eb0', model_checkpoint, device, out_classes=num_classes[index])
        model.eval()
        models.append(model)

    best_auc = -1e30
    for T in [1, 2, 5, 10, 20, 50, 100, 200, 500, 1000]:
        for epsilon in tqdm(np.arange(0, 0.004, 0.004/21, float).tolist()):
            for index, model in enumerate(models):
                if index == 0:
                    val_ind = _get_odin_scores(model, val_ind_loader, T, epsilon, device=device, score_entropy=True)
                    val_ood = _get_odin_scores(model, val_ood_loader, T, epsilon, device=device, score_entropy=True)
                else:
                    val_ind += _get_odin_scores(model, val_ind_loader, T, epsilon, device=device, score_entropy=True)
                    val_ood += _get_odin_scores(model, val_ood_loader, T, epsilon, device=device, score_entropy=True)

            val_ind = val_ind / len(models)
            val_ood = val_ood / len(models)
            auc, _, _ = _score_npzs(val_ind, val_ood)
            if auc > best_auc:
                best_auc = auc
                best_T, best_epsilon = T, epsilon
                best_val_ind, best_val_ood = val_ind, val_ood

    _, threshold = _find_threshold(best_val_ind, best_val_ood)

    for index, model in enumerate(models):
        if index == 0:
            test_ind = _get_odin_scores(model, test_ind_loader, best_T, best_epsilon, device=device, score_entropy=True)
            test_ood_1 = _get_odin_scores(model, test_ood_loader_1, best_T, best_epsilon, device=device, score_entropy=True)
            test_ood_2 = _get_odin_scores(model, test_ood_loader_2, best_T, best_epsilon, device=device, score_entropy=True)
            test_ood_3 = _get_odin_scores(model, test_ood_loader_3, best_T, best_epsilon, device=device, score_entropy=True)
        else:
            test_ind += _get_odin_scores(model, test_ind_loader, best_T, best_epsilon, device=device, score_entropy=True)
            test_ood_1 += _get_odin_scores(model, test_ood_loader_1, best_T, best_epsilon, device=device, score_entropy=True)
            test_ood_2 += _get_odin_scores(model, test_ood_loader_2, best_T, best_epsilon, device=device, score_entropy=True)
            test_ood_3 += _get_odin_scores(model, test_ood_loader_3, best_T, best_epsilon, device=device, score_entropy=True)

    test_ind = test_ind / len(models)
    test_ood_1 = test_ood_1 / len(models)
    test_ood_2 = test_ood_2 / len(models)
    test_ood_3 = test_ood_3 / len(models)

    test_ind_savefile_name = f'npzs/ensemble_{ind_dataset}_ind_{ind_dataset}_val_{val_dataset}.npz'
    test_ood_savefile_name_1 = f'npzs/ensemble_{ind_dataset}_ind_{ind_dataset}_val_{val_dataset}_ood_{ood_dataset_1}.npz'
    test_ood_savefile_name_2 = f'npzs/ensemble_{ind_dataset}_ind_{ind_dataset}_val_{val_dataset}_ood_{ood_dataset_2}.npz'
    test_ood_savefile_name_3 = f'npzs/ensemble_odin_{ind_dataset}_ind_{ind_dataset}_val_{val_dataset}_ood_{ood_dataset_3}.npz'

    np.savez(test_ind_savefile_name, test_ind)
    np.savez(test_ood_savefile_name_1, test_ood_1)
    np.savez(test_ood_savefile_name_2, test_ood_2)
    np.savez(test_ood_savefile_name_3, test_ood_3)

    auc_1, fpr_1, acc_1 = _score_npzs(test_ind, test_ood_1, threshold)
    auc_2, fpr_2, acc_2 = _score_npzs(test_ind, test_ood_2, threshold)
    auc_3, fpr_3, acc_3 = _score_npzs(test_ind, test_ood_3, threshold)

    aucs = [auc_1, auc_2, auc_3]
    fprs = [fpr_1, fpr_2, fpr_3]
    accs = [acc_1, acc_2, acc_3]
    print('###############################################')
    print()
    print(f'Succesfully stored in-distribution ood scores for maximum h to {test_ind_savefile_name} and out-distribution ood scores to {test_ood_savefile_name_1}, {test_ood_savefile_name_2} and {test_ood_savefile_name_3}')
    print()
    method = "Self-Ensemble"
    print('###############################################')
    print()
    print(f"InD dataset: {ind_dataset}")
    print(f"Validation dataset: {val_dataset}")
    _verbose(method, ood_dataset_1, ood_dataset_2, ood_dataset_3, aucs, fprs, accs)
Exemple #8
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def _odin(model, loaders, device, ind_dataset, val_dataset, ood_datasets):

    model.eval()
    ood_dataset_1, ood_dataset_2, ood_dataset_3 = ood_datasets
    val_ind_loader, test_ind_loader, val_ood_loader, test_ood_loader_1, test_ood_loader_2, test_ood_loader_3 = loaders

    best_auc = 0

    for T in [1, 2, 5, 10, 20, 50, 100, 200, 500, 1000]:
        for epsilon in tqdm(np.arange(0, 0.004, 0.004/21, float).tolist()):

            val_ind = _get_odin_scores(model, val_ind_loader, T, epsilon, device=device)
            val_ood = _get_odin_scores(model, val_ood_loader, T, epsilon, device=device)
            auc, _, _ = _score_npzs(val_ind, val_ood, threshold=0)

            if auc > best_auc:
                best_auc = auc
                best_epsilon = epsilon
                best_T = T
                best_val_ind = val_ind
                best_val_ood = val_ood

    print('###############################################')
    print()
    print(f'Selected temperature: {best_T}, selected epsilon: {best_epsilon}')
    print()

    _, threshold = _find_threshold(best_val_ind, best_val_ood)

    test_ind = _get_odin_scores(model, test_ind_loader, best_T, best_epsilon, device=device)
    test_ood_1 = _get_odin_scores(model, test_ood_loader_1, best_T, best_epsilon, device=device)
    test_ood_2 = _get_odin_scores(model, test_ood_loader_2, best_T, best_epsilon, device=device)
    test_ood_3 = _get_odin_scores(model, test_ood_loader_3, best_T, best_epsilon, device=device)

    ind_savefile_name = f'npzs/odin_{ind_dataset}_ind_{ind_dataset}_val_{val_dataset}_temperature_{best_T}_epsilon{best_epsilon}.npz'
    ood_savefile_name_1 = f'npzs/odin_{ood_dataset_1}_ind_{ind_dataset}_val_{val_dataset}_ood_{ood_dataset_1}_temperature_{best_T}_epsilon{best_epsilon}.npz'
    ood_savefile_name_2 = f'npzs/odin_{ood_dataset_2}_ind_{ind_dataset}_val_{val_dataset}_ood_{ood_dataset_2}_temperature_{best_T}_epsilon{best_epsilon}.npz'
    ood_savefile_name_3 = f'npzs/odin_{ood_dataset_3}_ind_{ind_dataset}_val_{val_dataset}_ood_{ood_dataset_3}_temperature_{best_T}_epsilon{best_epsilon}.npz'

    np.savez(ind_savefile_name, test_ind)
    np.savez(ood_savefile_name_1, test_ood_1)
    np.savez(ood_savefile_name_2, test_ood_2)
    np.savez(ood_savefile_name_3, test_ood_3)

    auc_1, fpr_1, acc_1 = _score_npzs(test_ind, test_ood_1, threshold)
    auc_2, fpr_2, acc_2 = _score_npzs(test_ind, test_ood_2, threshold)
    auc_3, fpr_3, acc_3 = _score_npzs(test_ind, test_ood_3, threshold)

    aucs = [auc_1, auc_2, auc_3]
    fprs = [fpr_1, fpr_2, fpr_3]
    accs = [acc_1, acc_2, acc_3]

    print('###############################################')
    print()
    print(f'Succesfully stored in-distribution ood scores to {ind_savefile_name} and out-distribution ood scores to: {ood_savefile_name_1}, {ood_savefile_name_2} and {ood_savefile_name_3}')
    print()
    print('###############################################')
    print()
    print(f"InD dataset: {ind_dataset}")
    print(f"Validation dataset: {val_dataset}")
    method = f"Odin results with chosen T={best_T}, epsilon={best_epsilon}"
    _verbose(method, ood_dataset_1, ood_dataset_2, ood_dataset_3, aucs, fprs, accs)