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LIPSNN: A Light Intrusion-Proving Siamese Neural Network Model for Facial Verification

  • Asier Alcaide [4] ; Miguel A. Patricio [1] Árbol académico ; Antonio Berlanga [1] ; Angel Arroyo [2] ; Juan J. Cuadrado Gallego [3] Árbol académico
    1. [1] Universidad Carlos III de Madrid

      Universidad Carlos III de Madrid

      Madrid, España

    2. [2] Universidad Politécnica de Madrid

      Universidad Politécnica de Madrid

      Madrid, España

    3. [3] Universidad de Alcalá

      Universidad de Alcalá

      Alcalá de Henares, España

    4. [4] Ultra Tendency International GmbH, Germany
  • Localización: IJIMAI, ISSN-e 1989-1660, Vol. 7, Nº. 4, 2022, págs. 121-131
  • Idioma: inglés
  • DOI: 10.9781/ijimai.2021.11.003
  • Enlaces
  • Resumen
    • Facial verification has experienced a breakthrough in recent years, not only due to the improvement in accuracy of the verification systems but also because of their increased use. One of the main reasons for this has been the appearance and use of new models of Deep Learning to address this problem. This extension in the use of facial verification has had a high impact due to the importance of its applications, especially on security, but the extension of its use could be significantly higher if the problem of the required complex calculations needed by the Deep Learning models, that usually need to be executed on machines with specialised hardware, were solved. That would allow the use of facial verification to be extended, making it possible to run this software on computers with low computing resources, such as Smartphones or tablets. To solve this problem, this paper presents the proposal of a new neural model, called Light Intrusion-Proving Siamese Neural Network, LIPSNN. This new light model, which is based on Siamese Neural Networks, is fully presented from the description of its two block architecture, going through its development, including its training with the well- known dataset Labeled Faces in the Wild, LFW; to its benchmarking with other traditional and deep learning models for facial verification in order to compare its performance for its use in low computing resources systems for facial recognition. For this comparison the attribute parameters, storage, accuracy and precision have been used, and from the results obtained it can be concluded that the LIPSNN can be an alternative to the existing models to solve the facet problem of running facial verification in low computing resource devices

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