Scientific Paper / Technical Report Page - HOUSE_OVERSIGHT_013709

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Type: Scientific paper / technical report page

File Size: 1.96 MB

Summary

This document appears to be page 209 of a scientific paper or technical report included in a House Oversight Committee file (Bates stamp HOUSE_OVERSIGHT_013709). The text discusses statistical analysis methods for biological signals, specifically focusing on Hurst exponents, Fano factors, Allen factors, and Levy exponents in the context of neuron discharges, heartbeats, and DNA sequences. While extracted from a larger cache likely related to an investigation, this specific page contains purely academic references and mathematical theory regarding stochastic analysis and probability distributions.

People (5)

Name	Role	Context
Teich	Researcher/Author	Cited in text (Teich et al, 1996) regarding visual cortical neurons.
Peng	Researcher/Author	Cited in text (Peng et al, 1993; Peng et al, 1995) regarding stochastic analysis.
Hausdorff	Researcher/Author	Cited in text (Hausdorff et al, 1995) regarding stochastic analysis.
Shlesinger	Researcher/Author	Cited in text (Shlesinger, 1988; Shlesinger et al, 1995) regarding Levy exponents.
Mantegna	Researcher/Author	Cited in text (Mantegna, 1991) regarding distribution tails.

Organizations (1)

Name	Type	Context
House Oversight Committee		Inferred from Bates stamp 'HOUSE_OVERSIGHT_013709'

Relationships (4)

Teich → Academic/Research → Unspecified Co-authors

Citation 'Teich et al'

Peng → Academic/Research → Unspecified Co-authors

Citation 'Peng et al'

Hausdorff → Academic/Research → Unspecified Co-authors

Citation 'Hausdorff et al'

Shlesinger → Academic/Research → Unspecified Co-authors

Citation 'Shlesinger et al'

Key Quotes (3)

"An independent random system has a Hurst of 0.5."

Source

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Quote #1

"If a sequential increase or decrease in an amplitude or inter-event time tends to be followed by a change in the same direction, the Hurst > 0.5."

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HOUSE_OVERSIGHT_013709.jpg

Quote #2

"There is a relatively long history of the use of spike-number variance-to mean ratio in studies of response variability in visual cortical neurons"

Source

HOUSE_OVERSIGHT_013709.jpg

Quote #3

HOUSE_OVERSIGHT_013709.jpg

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People (5)

Organizations (1)

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Key Quotes (3)

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