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00-anomaly-detection/index.html

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-<!doctype html><html lang=en class=no-js><head><meta charset=utf-8><meta http-equiv=x-ua-compatible content="IE=edge"><meta name=viewport content="width=device-width,initial-scale=1,viewport-fit=cover"><link rel=stylesheet href="/style.min.56ff6ea4aaee34035792dc752e429137eb80f83d06538d35ff0732d55aeaea77.css" integrity="sha256-Vv9upKruNANXktx1LkKRN+uA+D0GU401/wcy1Vrq6nc=" crossorigin=anonymous><script defer type=text/javascript src=https://sensorlab.github.io/scripts/app.min.a1e24ba7aed7aec0b2d60ce482dba1d500bfd50e415d2211415b56d4ca18a02c.js integrity="sha256-oeJLp67XrsCy1gzkgtuh1QC/1Q5BXSIRQVtW1MoYoCw="></script><meta name=generator content="Hugo 0.117.0"><meta name=author content="SensorLab"><meta name=description content="Time series anomaly detection is an important and yet unsolved challenge that is relevant for developing, maintaining and monitoring various aspects of smart infrastructures. One of our original contributions to the area consists in the definition of four types of anomalies relevant for monitoring the quality of the wireless links between various smart objects. A second original contribution consists of using time series to image transformations for advancing the state of the art in detection performance."><meta name=robots content="noindex,nofollow"><link rel=canonical href=https://sensorlab.github.io/00-anomaly-detection/><link rel=alternate hreflang=en href=https://sensorlab.github.io/00-anomaly-detection/><link rel=icon type=image/png href=https://sensorlab.github.io/images/favicon.png><meta property="og:title" content="Anomaly detection"><meta property="og:description" content="Time series anomaly detection is an important and yet unsolved challenge that is relevant for developing, maintaining and monitoring various aspects of smart infrastructures. One of our original contributions to the area consists in the definition of four types of anomalies relevant for monitoring the quality of the wireless links between various smart objects. A second original contribution consists of using time series to image transformations for advancing the state of the art in detection performance."><meta property="og:type" content="article"><meta property="og:url" content="https://sensorlab.github.io/00-anomaly-detection/"><meta property="article:section" content><meta name=twitter:card content="summary"><meta name=twitter:title content="Anomaly detection"><meta name=twitter:description content="Time series anomaly detection is an important and yet unsolved challenge that is relevant for developing, maintaining and monitoring various aspects of smart infrastructures. One of our original contributions to the area consists in the definition of four types of anomalies relevant for monitoring the quality of the wireless links between various smart objects. A second original contribution consists of using time series to image transformations for advancing the state of the art in detection performance."><title>Anomaly detection &mdash; SensorLab — Jozef Stefan Institute</title></head><body><header class="navbar navbar-expand-md"><div class=container><a class=navbar-brand href=https://sensorlab.github.io/><img src=https://sensorlab.github.io/images/sensorlab-white.min.svg alt="SensorLab logo" class="d-inline-block align-top me-2" height=42></a>
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-<span class=navbar-toggler-icon></span></button><nav class="collapse navbar-collapse" id=navbarToggler><ul class="navbar-nav ms-0 ms-md-auto ps-4"><li class=nav-item><a class=nav-link href=https://sensorlab.github.io/projects><span>Projects</span></a></li><li class=nav-item><a class=nav-link href=https://sensorlab.github.io/results><span>Results</span></a></li><li class=nav-item><a class=nav-link href=https://sensorlab.github.io/publications><span>Publications</span></a></li><li class=nav-item><a class=nav-link href=https://sensorlab.github.io/people><span>People</span></a></li><li class=nav-item><a class=nav-link href=https://sensorlab.github.io/opportunities><span>Join Us</span></a></li><li class=nav-item><a class=nav-link href=https://sensorlab.github.io/about><span>About</span></a></li></ul></nav></div></header><main class="flex-fill container post my-4" aria-role=main><aside class=my-4></aside><article class=mt-4><header><h1>Anomaly detection</h1><p><span>Published: <time datetime=0001-01-01T00:00:00Z>Monday, January 1, 1</time></span></p></header><section class=my-4><p>Time series anomaly detection is an important and yet unsolved challenge that is relevant for developing, maintaining and monitoring various aspects of smart infrastructures. One of our original contributions to the area consists in the definition of <a href=https://ieeexplore.ieee.org/document/9264175>four types of anomalies</a> relevant for monitoring the quality of the wireless links between various smart objects. A second original contribution consists of using <a href=https://arxiv.org/abs/2104.00972>time series to image transformations</a> for advancing the state of the art in detection performance.</p></section></article></main><footer class="container d-flex flex-wrap justify-content-between align-items-center py-3 my-4 border-top"><div class="col-md-6 d-flex align-items-center"><a href=https://sensorlab.github.io/ class="mb-3 me-2 mb-md-0 text-body-secondary text-decoration-none lh-1"><img src=https://sensorlab.github.io/images/sensorlab-color.min.svg style=height:2.5rem></a>
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+<!doctype html><html lang=en class=no-js><head><meta charset=utf-8><meta http-equiv=X-UA-Compatible content="IE=edge"><meta name=viewport content="width=device-width,initial-scale=1,viewport-fit=cover"><link rel=stylesheet href="/style.min.56ff6ea4aaee34035792dc752e429137eb80f83d06538d35ff0732d55aeaea77.css" integrity="sha256-Vv9upKruNANXktx1LkKRN+uA+D0GU401/wcy1Vrq6nc=" crossorigin=anonymous><script defer type=text/javascript src=https://sensorlab.github.io/scripts/app.min.8955820cd7195d5a41606384783fdab9f75fb66858a7d3abade0d9e96ab9253d.js integrity="sha256-iVWCDNcZXVpBYGOEeD/aufdftmhYp9OrreDZ6Wq5JT0="></script><meta name=generator content="Hugo 0.140.2"><meta name=author content="SensorLab"><meta name=description content="Time series anomaly detection is an important and yet unsolved challenge that is relevant for developing, maintaining and monitoring various aspects of smart infrastructures. One of our original contributions to the area consists in the definition of four types of anomalies relevant for monitoring the quality of the wireless links between various smart objects. A second original contribution consists of using time series to image transformations for advancing the state of the art in detection performance.
+"><meta name=robots content="noindex,nofollow"><link rel=canonical href=https://sensorlab.github.io/00-anomaly-detection/><link rel=alternate hreflang=en href=https://sensorlab.github.io/00-anomaly-detection/><link rel=icon type=image/png href=https://sensorlab.github.io/images/favicon.png><meta property="og:url" content="https://sensorlab.github.io/00-anomaly-detection/"><meta property="og:site_name" content="SensorLab — Jozef Stefan Institute"><meta property="og:title" content="Anomaly detection"><meta property="og:description" content="Time series anomaly detection is an important and yet unsolved challenge that is relevant for developing, maintaining and monitoring various aspects of smart infrastructures. One of our original contributions to the area consists in the definition of four types of anomalies relevant for monitoring the quality of the wireless links between various smart objects. A second original contribution consists of using time series to image transformations for advancing the state of the art in detection performance."><meta property="og:locale" content="en"><meta property="og:type" content="article"><meta name=twitter:card content="summary"><meta name=twitter:title content="Anomaly detection"><meta name=twitter:description content="Time series anomaly detection is an important and yet unsolved challenge that is relevant for developing, maintaining and monitoring various aspects of smart infrastructures. One of our original contributions to the area consists in the definition of four types of anomalies relevant for monitoring the quality of the wireless links between various smart objects. A second original contribution consists of using time series to image transformations for advancing the state of the art in detection performance."><title>Anomaly detection &mdash; SensorLab — Jozef Stefan Institute</title></head><body><header class="navbar navbar-expand-md"><div class=container><a class=navbar-brand href=https://sensorlab.github.io/><img src=https://sensorlab.github.io/images/sensorlab-white.min.svg alt="SensorLab logo" class="d-inline-block align-top me-2" height=42>
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+<span class=navbar-toggler-icon></span></button><nav class="collapse navbar-collapse" id=navbarToggler><ul class="navbar-nav ms-0 ms-md-auto ps-4"><li class=nav-item><a class=nav-link href=https://sensorlab.github.io/projects><span>Projects</span></a></li><li class=nav-item><a class=nav-link href=https://sensorlab.github.io/results><span>Results</span></a></li><li class=nav-item><a class=nav-link href=https://sensorlab.github.io/publications><span>Publications</span></a></li><li class=nav-item><a class=nav-link href=https://sensorlab.github.io/people><span>People</span></a></li><li class=nav-item><a class=nav-link href=https://sensorlab.github.io/opportunities><span>Join Us</span></a></li><li class=nav-item><a class=nav-link href=https://sensorlab.github.io/about><span>About</span></a></li></ul></nav></div></header><main class="flex-fill container post my-4" aria-role=main><aside class=my-4></aside><article class=mt-4><header><h1>Anomaly detection</h1><p><span>Published: <time datetime=0001-01-01T00:00:00Z>Monday, January 1, 1</time></span></p></header><section class=my-4><p>Time series anomaly detection is an important and yet unsolved challenge that is relevant for developing, maintaining and monitoring various aspects of smart infrastructures. One of our original contributions to the area consists in the definition of <a href=https://ieeexplore.ieee.org/document/9264175>four types of anomalies</a> relevant for monitoring the quality of the wireless links between various smart objects. A second original contribution consists of using <a href=https://arxiv.org/abs/2104.00972>time series to image transformations</a> for advancing the state of the art in detection performance.</p></section></article></main><footer class="container d-flex flex-wrap justify-content-between align-items-center py-3 my-4 border-top"><div class="col-md-6 d-flex align-items-center"><a href=https://sensorlab.github.io/ class="mb-3 me-2 mb-md-0 text-body-secondary text-decoration-none lh-1"><img src=https://sensorlab.github.io/images/sensorlab-color.min.svg style=height:2.5rem>
+</a><span class=text-body-secondary>&copy; 2014&nbsp;&dash;&nbsp;2025 SensorLab, Jozef Stefan Institute</span></div><ul class="nav col-md-6 justify-content-center justify-content-xs-right list-unstyled d-flex flex-wrap"><li class=ms-3><a class=text-body-secondary target=_blank href=https://github.com/sensorlab>GitHub</a></li><li class=ms-3><a class=text-body-secondary target=_blank href=https://twitter.com/CommSysJSI>Twitter</a></li><li class=ms-3><a class=text-body-secondary target=_blank href=https://www.researchgate.net/institution/Joef_Stefan_Institute/department/Komunikacijski_sistemi>ResearchGate</a></li><li class=ms-3><a class=text-body-secondary target=_blank href=https://e6.ijs.si/>Department's site</a></li></ul></footer><script async src="https://www.googletagmanager.com/gtag/js?id=G-KQGSFFY1XV"></script><script>window.dataLayer=window.dataLayer||[];function gtag(){dataLayer.push(arguments)}gtag("js",new Date),gtag("config","G-KQGSFFY1XV")</script></body></html>