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22 results on '"Molan, Martin"'

1. RUAD: unsupervised anomaly detection in HPC systems

Author

Molan, Martin, Borghesi, Andrea, Cesarini, Daniele, Benini, Luca, and Bartolini, Andrea

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, 68T07 (Primary) 68U01, 68T01 (Secondary), I.2, I.2.6
Abstract

The increasing complexity of modern high-performance computing (HPC) systems necessitates the introduction of automated and data-driven methodologies to support system administrators' effort toward increasing the system's availability. Anomaly detection is an integral part of improving the availability as it eases the system administrator's burden and reduces the time between an anomaly and its resolution. However, current state-of-the-art (SoA) approaches to anomaly detection are supervised and semi-supervised, so they require a human-labelled dataset with anomalies - this is often impractical to collect in production HPC systems. Unsupervised anomaly detection approaches based on clustering, aimed at alleviating the need for accurate anomaly data, have so far shown poor performance. In this work, we overcome these limitations by proposing RUAD, a novel Recurrent Unsupervised Anomaly Detection model. RUAD achieves better results than the current semi-supervised and unsupervised SoA approaches. This is achieved by considering temporal dependencies in the data and including long-short term memory cells in the model architecture. The proposed approach is assessed on a complete ten-month history of a Tier-0 system (Marconi100 from CINECA with 980 nodes). RUAD achieves an area under the curve (AUC) of 0.763 in semi-supervised training and an AUC of 0.767 in unsupervised training, which improves upon the SoA approach that achieves an AUC of 0.747 in semi-supervised training and an AUC of 0.734 in unsupervised training. It also vastly outperforms the current SoA unsupervised anomaly detection approach based on clustering, achieving the AUC of 0.548.

Published
2022

4. Machine Learning Methodologies to Support HPC Systems Operations: Anomaly Detection

Author

Molan, Martin, Borghesi, Andrea, Benini, Luca, Bartolini, Andrea, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Singer, Jeremy, editor, Elkhatib, Yehia, editor, Blanco Heras, Dora, editor, Diehl, Patrick, editor, Brown, Nick, editor, and Ilic, Aleksandar, editor

Published
2023
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21. Avtomatsko prepoznavanje vedenjskih vzorcev

Author

Molan, Martin and Bauer, Andrej

Subjects
udc:004.8, nadzorovano učenje, modeliranje vedenja, umetna inteligenca, naključni gozd, casino industry, unsupervised learning, artificial intelligence, supervised learning, strojno učenje, odločitveno drevo, segmentacija, machine learning, behavioral modeling, decision tree, nenadzorovano učenje, napovedno modeliranje, igralniška industrija, predictive modeling, random forest, clustering
Abstract

Naloga obravnava izgradnjo napovednih modelov na osnovi realnih podatkov. Cilj opisanih postopkov je modeliranje in napovedovanje obnašanja igralcev v igralniški industriji. Osnova za izdelavo napovednega modela je priprava podatkov za algoritme strojnega učenja. Uspešnost obdelave realnih podatkov z nečistočami in napakami pomembno vpliva na možnost izgradnje smiselnega napovednega modela. Prvi cilj modeliranja vedenja je izgradnja modela, ki napoveduje, ali bo igralec naredil drugi depozit. Natančnost razvitega modela zadostuje potrebam domene in je primerna za implementacijo v praksi. Drugi cilj modeliranja je izgradnja širšega napovednega modela, ki opisuje razvoj posameznikovih igralnih navad. Predstavljena je smiselnost drugega pristopa in njegova skladnost z zahtevami domene. Preizkus napovedne moči širšega napovednega modela presega okvire te naloge saj je dolgotrajna in zahteva veliko specifičnega domenskega znanja. This thesis explores development of predictive models on real life datasets. The goal of approaches, described in this thesis, is modeling and prediction of players' behavior in casino industry. The basis for creation of predictive model is preparation of real life datasets for machine learning algorithms. Sensible curation of real life datasets that include missing values, inaccuracies and other noise determines the possibility for development of accurate predictive models. First goal of predictive behavioral modeling is creation of automated prediction model that predicts if the player will make a second deposit. Accuracy of developed model is sufficient for implementation in real life casino operation. Second goal is to develop broader predictive model that describes and predicts development of player’s behavior. Sensibility of proposed approach and its compliance with domain demands is presented. Real predictive strength of proposed model is out of scope of this work as it requires a lot of additional domain knowledge.

Published
2018

22. MONITOOL : New tools for monitoring the Chemical status in transitional and coastal waters under the Water Framework Directive

Author

Molan, Martin, Amouroux, Isabelle, Arrate, Inaki, Belzunce Segarra, Maria Jesus, Blasco Lorenzo, Alberto, Bolam, Thi, Caetano, Miguel, Correia Dos Santos Romao, Margarida Maria, Cunningham, Darragh, Millan Gabet, Vanessa, Mchugh, Brendan, Merkel, Daniel, Moreno Deus, Enrique, Munes, Susana, Perceval, Olivier, Regan, Fiona, Robinson, Craig, Schintu, Marco, and White, Blanaid

Published
2018

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