149 lines
4.4 KiB
Typst
149 lines
4.4 KiB
Typst
#import "@preview/polylux:0.3.1": *
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#import themes.metropolis: *
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#import "@preview/tablex:0.0.5": tablex, hlinex, vlinex, colspanx, rowspanx
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#show: metropolis-theme.with(
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footer: [CC BY-SA 4.0 Arthur Grisel-Davy]
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)
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#set text(font: "Fira Sans", weight: "light", size: 20pt)
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#show math.equation: set text(font: "Fira Math")
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#set strong(delta: 100)
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#set par(justify: true)
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#title-slide(
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author: [Arthur Grisel-Davy, Sebastian Fischmeister],
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title: "MAD: One-Shot Machine Activity Detector for Physics-Based Cyber Security",
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subtitle: "",
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date: "University of Waterloo",
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extra: "agriseld@uwaterloo.ca"
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)
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//#slide(title: "Table of contents")[
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// #metropolis-outline
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//]
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#slide(title: "Introduction")[
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#only(1)[#figure(image("images/wein_p1.svg", height: 100%))]
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#only(2)[#figure(image("images/wein_p2.svg", height: 100%))]
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#only(3)[#figure(image("images/wein_p3.svg", height: 100%))]
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#only(4)[#figure(image("images/wein_p4.svg", height: 100%))]
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#only(5)[#figure(image("images/wein_p5.svg", height: 100%))]
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]
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#slide(title: "Problem Statement")[
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#align(center)[Given a #text(fill: blue, weight:400 )[discretized time series $t$] and a #text(fill: red, weight:400)[set of patterns $P=\{P_1, dots.h, P_n\}$], identify a mapping $m: NN arrow.r P union lambda$ such that every sample $t[i]$ maps to a pattern in $P union lambda$ with the condition that the sample #text(fill: purple, weight: 400)[matches] an occurrence of the pattern in $t$.]
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]
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#slide(title: "Proposed Approach")[
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#only(1)[#figure(image("images/aproach_p1.svg", width: 100%))]
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#only(2)[#figure(image("images/aproach_p2.svg", width: 100%))]
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#only(3)[#figure(image("images/aproach_p3.svg", width: 100%))]
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#only(4)[#figure(image("images/aproach_p4.svg", width: 100%))]
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#only(5)[#figure(image("images/aproach_p5.svg", width: 100%))]
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#only(6)[#figure(image("images/aproach_p6.svg", width: 100%))]
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#only(7)[#figure(image("images/aproach_p7.svg", width: 100%))]
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#only(8)[#figure(image("images/aproach_p8.svg", width: 100%))]
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#only(9)[#figure(image("images/aproach_p9.svg", width: 100%))]
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]
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#slide(title: "Proposed Approcah")[
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#align(center)[
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#text(weight: "bold")[Metric:] The distance between a sample and a pattern is the minimum normalized distance between the pattern and any pattern-length substring that includes the samples.
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#v(1cm)
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#text(weight: "bold")[Decision:] Each sample receives the label of the closest training pattern.
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]
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]
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#slide(title: "2D Interpretation")[
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#only(1)[#figure(image("images/2d_p1.svg", width: 100%))]
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#only(2)[#figure(image("images/2d_p2.svg", width: 100%))]
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#only(3)[#figure(image("images/2d_p3.svg", width: 100%))]
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#only(4)[#figure(image("images/2d_p4.svg", width: 100%))]
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#only(5)[#figure(image("images/2d_p5.svg", width: 100%))]
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]
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#slide(title: "Question")[
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#align(center)[Should the algorithm #text(weight: "bold")[always] choose a label?]
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]
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#slide(title: "2D Interpretation")[
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#figure(image("images/2d_p6.svg", width: 100%))
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]
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#slide(title: "Parameter "+sym.alpha)[
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#figure(
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image("images/areas.svg", width: 100%)
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)
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#align(center)[With $alpha lt.triple 2$, the algorithm acquire novelty-detection capability.]
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]
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#slide(title: "Performance Metric")[
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#figure(
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image("images/metric.svg", width: 100%)
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)
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]
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#slide(title: "Case Study 1")[
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#align(center)[
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#tablex(
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columns: (auto, auto, auto),
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auto-vlines: false,
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repeat-header: false,
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align: (left+horizon,right+horizon,right+horizon),
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[#text(weight:"bold")[Dataset]], [#text(weight: "bold")[Length]], [#text(weight: "bold")[Number of Occurences]],
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[NUCPC-0], [22700], [11],
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[NUCPC-1], [7307], [8],
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[Generated], [15540], [18],
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[WAP-ASUS], [26880], [18],
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[WAP-LINKSYS], [22604], [18],
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[REFIT-H4A4], [5366], [17],
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[REFIT-H4A1], [100000], [142]
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)
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]
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]
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#slide(title: "Case Study 1 - Results")[
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#figure(
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image("images/dsd_acc.svg", height: 100%)
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)
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]
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#slide(title: "Case Study 2")[
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// add overview of the experiment pipeline
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]
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#slide(title: "Case Study 2")[
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#figure(
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image("images/2w_experiment.svg", width: 100%)
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)
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]
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#slide(title: "Case Study 2 - Results")[
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#figure(
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image("images/preds.svg", height: 100%)
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)
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]
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#slide(title: "Futur Work")[]
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#slide(title: "Conclusion")[
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]
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#focus-slide()[
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#align(center)[Thank you for your attention.]
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]
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//#new-section-slide([Second section])
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//
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//#focus-slide[
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// Wake up!
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//]
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