Detection and reconstruction of error control codes for engineered and biological regulatory systems. Page: 4 of 42
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minimally errored engineered data stream and genomic regulatory DNA and RNA sequences.
The objective for the initial phase of this project is to construct solid parallels between biolog-
ical literature and fundamental elements of communication theory. In this light, the milestones
for FY2003 were focused on defining genetic channel characteristics and providing an initial
approximation for key parameters, including coding rate, memory length, and minimum dis-
tance values. A secondary objective addressed the question of determining similar parameters
for a received, noisy, error-control encoded data set. In addition to these goals, we initiated
exploration of algorithmic approaches to determine if a data set could be approximated with
an error-control code and performed initial investigations into optimization based methodolgies
for extracting the encoding algorithm given the coding rate of an encoded noise-free and noisy
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May, Elebeoba Eni; Rintoul, Mark Daniel; Johnston, Anna Marie; Pryor, Richard J.; Hart, William Eugene & Watson, Jean-Paul. Detection and reconstruction of error control codes for engineered and biological regulatory systems., report, October 1, 2003; United States. (digital.library.unt.edu/ark:/67531/metadc889138/m1/4/: accessed October 23, 2018), University of North Texas Libraries, Digital Library, digital.library.unt.edu; crediting UNT Libraries Government Documents Department.