One-Class Classification in Images and Videos Using a Convolutional Autoencoder With Compact Embedding

Ribeiro, Matilde; Gutoski, Matheus; Lazzaretti, André E.; Lopes, Heitor Silvério

doi:10.1109/access.2020.2992804

Cited by 12 publications

(9 citation statements)

References 44 publications

(79 reference statements)

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“…Although the DAE model has the ability to generate a feature space mapping at the output of the bottleneck coding layer, DAEs may be inefficient when applied directly to OCC problems, since the feature space mapping of the bottleneck can be sparse, i.e., it does not guarantee a compact mapping of the data in the bottleneck, which is an essential issue in OCC problems for a desirable result [ 36 ]. In this regard, it is applied as a framework for enhancing the compactness of clusters in the feature space.…”

Section: Methodsmentioning

confidence: 99%

See 1 more Smart Citation

Deep-Compact-Clustering Based Anomaly Detection Applied to Electromechanical Industrial Systems

Arellano-Espitia

Delgado-Prieto

Gonzalez-Abreu

et al. 2021

Sensors

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The rapid growth in the industrial sector has required the development of more productive and reliable machinery, and therefore, leads to complex systems. In this regard, the automatic detection of unknown events in machinery represents a greater challenge, since uncharacterized catastrophic faults can occur. However, the existing methods for anomaly detection present limitations when dealing with highly complex industrial systems. For that purpose, a novel fault diagnosis methodology is developed to face the anomaly detection. An unsupervised anomaly detection framework named deep-autoencoder-compact-clustering one-class support-vector machine (DAECC-OC-SVM) is presented, which aims to incorporate the advantages of automatically learnt representation by deep neural network to improved anomaly detection performance. The method combines the training of a deep-autoencoder with clustering compact model and a one-class support-vector-machine function-based outlier detection method. The addressed methodology is applied on a public rolling bearing faults experimental test bench and on multi-fault experimental test bench. The results show that the proposed methodology it is able to accurately to detect unknown defects, outperforming other state-of-the-art methods.

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Section: Methodsmentioning

confidence: 99%

“…Further-more, there is a wide margin of separation between normal samples and anomalous samples and therefore outside the classification boundary. This effect on performance improvement is also addressed in [ 36 ].…”

Section: Introductionmentioning

confidence: 98%

Deep-Compact-Clustering Based Anomaly Detection Applied to Electromechanical Industrial Systems

Arellano-Espitia

Delgado-Prieto

Gonzalez-Abreu

et al. 2021

Sensors

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show abstract

“…Anomaly detection belongs to a family of machine learning tasks named one-class classification, in which a ML model is trained to perform a binary prediction on whether or not an input sample belongs to a particular class, and Auto Encoders are widely used for this goal [119] [120] [121]. The usual anomaly detection strategy to follow when using an AE, is to train the model only on non-anomalous samples.…”

Section: Artificial Neural Networkmentioning

confidence: 99%

Intrusion Detection Systems for IoT: opportunities and challenges offered by Edge Computing and Machine Learning

Spadaccino¹,

Cuomo²

2020

Preprint

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Key components of current cybersecurity methods are the Intrusion Detection Systems (IDSs) were different techniques and architectures are applied to detect intrusions. IDSs can be based either on cross-checking monitored events with a database of known intrusion experiences, known as signature-based, or on learning the normal behavior of the system and reporting whether some anomalous events occur, named anomaly-based. This work is dedicated to the application to the Internet of Things (IoT) network where edge computing is used to support the IDS implementation. New challenges that arise when deploying an IDS in an edge scenario are identified and remedies are proposed. We focus on anomaly-based IDSs, showing the main techniques that can be leveraged to detect anomalies and we present machine learning techniques and their application in the context of an IDS, describing the expected advantages and disadvantages that a specific technique could cause.

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“…Moreover, if the input data are underlying normal operations of the monitored apparatus, anomalous inputs can be detected by comparing them with the corresponding reconstructed outputs. However, the limitation of the AE is the capability to recognize what it shall be normal, namely, AEs are only able to detect if an anomaly occurs, but they are not capable to classify it [7]. As it will be discussed in the next section, several solutions have been presented in the related works to overcome the above limitation by recurring to conventional and more compact Machine Learning (ML) approaches or to more complex DL, which usually are challenged in finding an acceptable trade-off between the number of physical resources needed by their implementations, the processing speed, and the detection/classification accuracy.…”

Section: Introductionmentioning

confidence: 99%

Low-Power Detection and Classification for In-Sensor Predictive Maintenance Based on Vibration Monitoring

et al. 2022

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In this work, a new custom design of an anomaly detection and classification system is proposed. It is composed of a convolutional Auto-Encoder (AE) hardware design to perform anomaly detection which cooperates with a mixed HW/SW Convolutional Neural Network (CNN) to perform the classification of detected anomalies. The AE features a partial binarization, so that the weights are binarized while the activations, associated to some selected layers, are non-binarized. This has been necessary to meet the severe area and energy constraints that allow it to be integrated on the same die as the MEMS sensors for which it serves as a neural accelerator. The CNN shares the feature extraction module with the AE, whereas a SW classifier is triggered by the AE when a fault is detected, working asynchronously to it. The AE has been mapped on a Xilinx Artix-7 FPGA, featuring an Output Data Rate (ODR) of 365 kHz and achieving a power dissipation of 333 W/MHz. Logic synthesis has targeted TSMC CMOS 65 nm, 90 nm, and 130 nm standard cells. Best results achieved highlight a power consumption of 138 μW/MHz with an area occupation of 0.49 mm 2 when real-time operations are set. These results enable the integration of the complete neural accelerator in the CMOS circuitry that typically sits with the inertial MEMS on the same silicon die. Comparisons with the related works suggest that the proposed system is capable of state-of-the-art performances and accuracy.

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One-Class Classification in Images and Videos Using a Convolutional Autoencoder With Compact Embedding

Cited by 12 publications

References 44 publications

Deep-Compact-Clustering Based Anomaly Detection Applied to Electromechanical Industrial Systems

Deep-Compact-Clustering Based Anomaly Detection Applied to Electromechanical Industrial Systems

Intrusion Detection Systems for IoT: opportunities and challenges offered by Edge Computing and Machine Learning

Low-Power Detection and Classification for In-Sensor Predictive Maintenance Based on Vibration Monitoring

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