50,937 research outputs found
An explainable AI-based intrusion detection system for DNS over HTTPS (DoH) attacks
Over the past few years, Domain Name Service (DNS) remained a prime target for hackers as it enables them to gain first entry into networks and gain access to data for exfiltration. Although the DNS over HTTPS (DoH) protocol has desirable properties for internet users such as privacy and security, it also causes a problem in that network administrators are prevented from detecting suspicious network traffic generated by malware and malicious tools. To support their efforts in maintaining a secure network, in this paper, we have implemented an explainable AI solution using a novel machine learning framework. We have used the publicly available CIRA-CIC-DoHBrw-2020 dataset for developing an accurate solution to detect and classify the DNS over HTTPS attacks. Our proposed balanced and stacked Random Forest achieved very high precision (99.91%), recall (99.92%) and F1 score (99.91%) for the classification task at hand. Using explainable AI methods, we have additionally highlighted the underlying feature contributions in an attempt to provide transparent and explainable results from the model
Impacts of the observed theta_{13} on the running behaviors of Dirac and Majorana neutrino mixing angles and CP-violating phases
The recent observation of the smallest neutrino mixing angle in
the Daya Bay and RENO experiments motivates us to examine whether at the electroweak scale can be generated from at a superhigh-energy scale via the radiative corrections. We find
that it is difficult but not impossible in the minimal supersymmetric standard
model (MSSM), and a relatively large may have some nontrivial
impacts on the running behaviors of the other two mixing angles and
CP-violating phases. In particular, we demonstrate that the CP-violating phases
play a crucial role in the evolution of the mixing angles by using the one-loop
renormalization-group equations of the Dirac or Majorana neutrinos in the MSSM.
We also take the "correlative" neutrino mixing pattern with , and at a
presumable flavor symmetry scale as an example to illustrate that the three
mixing angles can receive comparably small radiative corrections and thus
evolve to their best-fit values at the electroweak scale if the CP-violating
phases are properly adjusted.Comment: RevTeX 16 pages, 3 figures, 4 tables, more discussions added,
references updated. Accepted for publication in Phys. Rev.
Leading-Order Actions of Goldstino Fields
This paper starts with a self-contained discussion of the so-called
Akulov-Volkov action S_AV, which is traditionally taken to be the leading-order
action of Goldstino field. Explicit expressions for S_AV and its chiral version
S_AV^ch are presented. We then turn to the issue on how these actions are
related to the leading-order action S_NL proposed in the newly proposed
constrained superfield formalism. We show that S_NL may yield S_AV/S_AV^ch or a
totally different action S_KS, depending on how the auxiliary field in the
former is integrated out. However, S_KS and S_AV/S_AV^ch always yield the same
S-matrix elements, as one would have expected from general considerations in
quantum field theory.Comment: Minor changes, version to appear in European Physical Journal
Vacuum State of Lattice Gauge Theory with Fermions in 2+1 Dimensions
We investigate the vacuum state of the lattice gauge theory with fermions in
2+1 dimensions. The vacuum in the Hermite form for the fermion part is
obtained; the vacuum in the unitary form has been proposed by Luo and Chen. It
is shown that the Hermite vacuum has a lower energy than the unitary one
through the variational method.Comment: 16 pages, 5 embedded PS figures, LaTeX with special styl
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