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\@writefile{toc}{\contentsline {section}{\numberline {1}Mapping of the Visual Pathway}{1}}
\@writefile{lof}{\contentsline {figure}{\numberline {1}{\ignorespaces \textbf  {A.} Stimulus used for mapping the retinotopic projection onto striate cortex (V1). \textbf  {B.} Pattern of 2-DG uptake in macaque striate cortex produced by the stimulus pattern.}}{2}}
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\@writefile{lof}{\contentsline {figure}{\numberline {2}{\ignorespaces Retinal physiology. The horizontal cells provide summing over many photoreceptors, while the bipolars get information from very few receptors.}}{3}}
\@writefile{lof}{\contentsline {figure}{\numberline {3}{\ignorespaces Schematic of possible recpetive field wiring.}}{3}}
\@writefile{lof}{\contentsline {figure}{\numberline {4}{\ignorespaces Response of edge detecting receptive fields to a stimulus.}}{4}}
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\@writefile{toc}{\contentsline {section}{\numberline {4}Linear, Shift-Invariant Systems}{4}}
\@writefile{lof}{\contentsline {figure}{\numberline {5}{\ignorespaces Example of receptive fields derived from a normalized Gaussian (G).}}{5}}
\@writefile{toc}{\contentsline {section}{\numberline {5}Impulse Response of LSI Systems}{5}}
\@writefile{lof}{\contentsline {figure}{\numberline {6}{\ignorespaces \textbf  {A.} LSI System. \textbf  {B.} Role of Impulse Response Function.}}{6}}
\@writefile{lof}{\contentsline {figure}{\numberline {7}{\ignorespaces \textbf  {A.} Impulse Response Function. \textbf  {B.} The dirac delta function is the limit of a normalized Gaussian (area = 1) as the sigma of the Gaussian tends toward zero.}}{6}}
\@writefile{lof}{\contentsline {figure}{\numberline {8}{\ignorespaces Functions can be considered as a summation of scaled and shifted dirac delta functions.}}{7}}
\@writefile{toc}{\contentsline {section}{\numberline {6}The Power of Convolutions}{7}}
\@writefile{toc}{\contentsline {section}{\numberline {7}Convolutions : The Basics}{7}}