70,089 research outputs found
Robust Anomaly Detection in Dynamic Networks
We propose two robust methods for anomaly detection in dynamic networks in
which the properties of normal traffic are time-varying. We formulate the
robust anomaly detection problem as a binary composite hypothesis testing
problem and propose two methods: a model-free and a model-based one, leveraging
techniques from the theory of large deviations. Both methods require a family
of Probability Laws (PLs) that represent normal properties of traffic. We
devise a two-step procedure to estimate this family of PLs. We compare the
performance of our robust methods and their vanilla counterparts, which assume
that normal traffic is stationary, on a network with a diurnal normal pattern
and a common anomaly related to data exfiltration. Simulation results show that
our robust methods perform better than their vanilla counterparts in dynamic
networks.Comment: 6 pages. MED conferenc
Anomaly Detection in Multivariate Non-stationary Time Series for Automatic DBMS Diagnosis
Anomaly detection in database management systems (DBMSs) is difficult because
of increasing number of statistics (stat) and event metrics in big data system.
In this paper, I propose an automatic DBMS diagnosis system that detects
anomaly periods with abnormal DB stat metrics and finds causal events in the
periods. Reconstruction error from deep autoencoder and statistical process
control approach are applied to detect time period with anomalies. Related
events are found using time series similarity measures between events and
abnormal stat metrics. After training deep autoencoder with DBMS metric data,
efficacy of anomaly detection is investigated from other DBMSs containing
anomalies. Experiment results show effectiveness of proposed model, especially,
batch temporal normalization layer. Proposed model is used for publishing
automatic DBMS diagnosis reports in order to determine DBMS configuration and
SQL tuning.Comment: 8 page
Design of automatic vision-based inspection system for solder joint segmentation
Purpose: Computer vision has been widely used in the inspection of electronic components. This paper proposes a computer vision system for the automatic detection, localisation, and segmentation of solder joints on Printed Circuit Boards (PCBs) under different illumination conditions. Design/methodology/approach: An illumination normalization approach is applied to an image, which can effectively and efficiently eliminate the effect of uneven illumination while keeping the properties of the processed image the same as in the corresponding image under normal lighting conditions. Consequently special lighting and instrumental setup can be reduced in order to detect solder joints. These normalised images are insensitive to illumination variations and are used for the subsequent solder joint detection stages. In the segmentation approach, the PCB image is transformed from an RGB color space to a YIQ color space for the effective detection of solder joints from the background. Findings: The segmentation results show that the proposed approach improves the performance significantly for images under varying illumination conditions. Research limitations/implications: This paper proposes a front-end system for the automatic detection, localisation, and segmentation of solder joint defects. Further research is required to complete the full system including the classification of solder joint defects. Practical implications: The methodology presented in this paper can be an effective method to reduce cost and improve quality in production of PCBs in the manufacturing industry. Originality/value: This research proposes the automatic location, identification and segmentation of solder joints under different illumination conditions
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