Complex Event Analysis - Report

Complex Event Analysis - REPORT

Supporting narratives:

• challenge (Read more)
• A relatively bushy (more complex) branching structure such as a tree, for example, would have a higher fractal dimension than a leaner (less complex) one.
  Another common metric of complexity, known as "multiscale entropy," typically applies to processes, such as the beat-to-beat variability of your heart rate or the moment-to-moment postural shifts your body makes when balancing in a standing position. Multiscale entropy calculates the likelihood that a measured pattern repeats over various scales of time
• High Level Abstractions:
• (multiscale,postural)
• (balancing,postural)

• challenge (Read more)
• Patterns likely to have similarities across many different time scales, however, are more fractal-like, and hence more complex.
  A large and growing body of research suggests that biological complexity diminishes with aging, as various tissues and organs, and their communication pathways, gradually break down
• High Level Abstractions:
• (fractal-like,scales)
• (fractal-like,scales,various)
• Inferred entity relationships (2)

  (fractal-like,scales,various) [inferred]

  (fractal-like,scales) [inferred]

• challenge (Read more)
• Patterns likely to have similarities across many different time scales, however, are more fractal-like, and hence more complex.
  A large and growing body of research suggests that biological complexity diminishes with aging, as various tissues and organs, and their communication pathways, gradually break down.
• High Level Abstractions:
• (organs,scales,various)
• (fractal-like,organs)
• (pathways,scales,various)
• (pathways,scales)
• (organs,scales)
• (fractal-like,pathways)
• Inferred entity relationships (4)

  (organs,scales) [inferred]

  (pathways,scales) [inferred]

  (organs,scales,various) [inferred]

  (pathways,scales,various) [inferred]

• challenge (Read more)
• Neither are patterns with high likelihood of repetition over a single time scale, such as the sinusoidal tick of a metronome. Patterns likely to have similarities across many different time scales, however, are more fractal-like, and hence more complex.
  A large and growing body of research suggests that biological complexity diminishes with aging, as various tissues and organs, and their communication pathways, gradually break down
• High Level Abstractions:
• (metronome,scales)
• (scales,sinusoidal)
• (scales,tick)

• WIP (Read more)
• Contrary to what you might expect, these fluctuations don't follow regular, or periodic, patterns, but instead show a complex type of variability.what's known as "deterministic chaos." Although the oscillations are irregular, they appear self-similar when observed over seconds, minutes, hours, or days.
  One way to measure the complexity of a fractal-like structure is to compute its "fractal dimension." Fractals exhibit a property called "power-law scaling": The smaller the measuring scale, the larger an object's length
• High Level Abstractions:
• (fractal-like,fractals)
• (fractal-like,variability)
• (fractal-like,oscillations)
• (fractal-like,self-similar)

• WIP (Read more)
• Multiscale entropy calculates the likelihood that a measured pattern repeats over various scales of time. Patterns with very low likelihood of repetition, such as white noise or randomness, aren't very complex.
• High Level Abstractions:
• (repetition,scales)
• (repetition,scales,various)
• Inferred entity relationships (2)

  (repetition,scales,various) [inferred]

  (repetition,scales) [inferred]

Target rule match count: 19.0 Challenge: 0.34 Momentum: 0.00 WIP: 0.16