Essec\Faculty\Model\Contribution {#2188
  #_index: "academ_contributions"
  #_id: "13867"
  #_source: array:26 [
    "id" => "13867"
    "slug" => "simpler-pac-bayesian-bounds-for-hostile-data"
    "yearMonth" => "2018-05"
    "year" => "2018"
    "title" => "Simpler PAC-Bayesian bounds for hostile data"
    "description" => "ALQUIER, P. et GUEDJ, B. (2018). Simpler PAC-Bayesian bounds for hostile data. <i>Machine Learning</i>, 107(5), pp. 887-902."
    "authors" => array:2 [
      0 => array:3 [
        "name" => "ALQUIER Pierre"
        "bid" => "B00809923"
        "slug" => "alquier-pierre"
      ]
      1 => array:1 [
        "name" => "GUEDJ Benjamin"
      ]
    ]
    "ouvrage" => ""
    "keywords" => []
    "updatedAt" => "2023-03-21 09:36:32"
    "publicationUrl" => "https://link.springer.com/article/10.1007/s10994-017-5690-0"
    "publicationInfo" => array:3 [
      "pages" => "887-902"
      "volume" => "107"
      "number" => "5"
    ]
    "type" => array:2 [
      "fr" => "Articles"
      "en" => "Journal articles"
    ]
    "support_type" => array:2 [
      "fr" => "Revue scientifique"
      "en" => "Scientific journal"
    ]
    "countries" => array:2 [
      "fr" => "États-Unis"
      "en" => "United States of America"
    ]
    "abstract" => array:2 [
      "fr" => """
        PAC-Bayesian learning bounds are of the utmost interest to the learning community. Their role is to connect the generalization ability of an aggregation distribution ρ\n
         to its empirical risk and to its Kullback-Leibler divergence with respect to some prior distribution π\n
        . Unfortunately, most of the available bounds typically rely on heavy assumptions such as boundedness and independence of the observations. This paper aims at relaxing these constraints and provides PAC-Bayesian learning bounds that hold for dependent, heavy-tailed observations (hereafter referred to as hostile data). In these bounds the Kullack-Leibler divergence is replaced with a general version of Csiszár’s f-divergence. We prove a general PAC-Bayesian bound, and show how to use it in various hostile settings.
        """
      "en" => """
        PAC-Bayesian learning bounds are of the utmost interest to the learning community. Their role is to connect the generalization ability of an aggregation distribution ρ\n
         to its empirical risk and to its Kullback-Leibler divergence with respect to some prior distribution π\n
        . Unfortunately, most of the available bounds typically rely on heavy assumptions such as boundedness and independence of the observations. This paper aims at relaxing these constraints and provides PAC-Bayesian learning bounds that hold for dependent, heavy-tailed observations (hereafter referred to as hostile data). In these bounds the Kullack-Leibler divergence is replaced with a general version of Csiszár’s f-divergence. We prove a general PAC-Bayesian bound, and show how to use it in various hostile settings.
        """
    ]
    "authors_fields" => array:2 [
      "fr" => "Systèmes d’Information, Sciences de la Décision et Statistiques"
      "en" => "Information Systems, Decision Sciences and Statistics"
    ]
    "indexedAt" => "2024-04-25T15:22:11.000Z"
    "docTitle" => "Simpler PAC-Bayesian bounds for hostile data"
    "docSurtitle" => "Journal articles"
    "authorNames" => "<a href="/cv/alquier-pierre">ALQUIER Pierre</a>, GUEDJ Benjamin"
    "docDescription" => "<span class="document-property-authors">ALQUIER Pierre, GUEDJ Benjamin</span><br><span class="document-property-authors_fields">Information Systems, Decision Sciences and Statistics</span> | <span class="document-property-year">2018</span>"
    "keywordList" => ""
    "docPreview" => "<b>Simpler PAC-Bayesian bounds for hostile data</b><br><span>2018-05 | Journal articles </span>"
    "docType" => "research"
    "publicationLink" => "<a href="https://link.springer.com/article/10.1007/s10994-017-5690-0" target="_blank">Simpler PAC-Bayesian bounds for hostile data</a>"
  ]
  +lang: "en"
  +"_type": "_doc"
  +"_score": 8.910675
  +"parent": null
}