Yasar, O., (1998), "A Scalable Model for Complex Flows", Int. J. Computers & Mathematics with Applications, 35:117--128.  Home/Search   Document Not in Database   Summary   Related Articles

....References [1] D. Lockhart, H. Dong, M. Byrne, M. Follettie, M. Gallo, M. Chee, M. Mittmann, C. Wang, M. Kobayashi, H. Horton, and E. Brown. Expression monitoring by hybrdiziation to high density oligonucleotide arrays. Nature Biotechnology, 14:1675 1680, December 1996. [2] R. Cho, M. Campbell, E. Winzeler, L. Steinmetz, A. Conway, L. Wodicka, T. Wolfsberg, A. Gabrielian, D. Landsman, D. Lockhart, and R. Davis. A genome wide transcriptional analysis of the mitotic cell cycle. Molecular Cell, 2:65 73, July 1998. 3] S. Liang, S. Fuhrman, and R. Somogyi. Reveal: a ....

....n ) are known, and J i1 ; J in are to be determined. Equation 3 are linear equations with n variables and m equations. Generally they are under determined because n AE m, for example, the Budding Yeast has about 4,600 genes and the best time series measurements reported have only 17 samples [2]. However, it is well known that J i1 ; J in are sparse, and most of them are zero. In other words, a gene is regulated by only a small number of genes, ranging from 1 to 20, and the rest of the genes are not directly relevant to the expression of this gene. Therefore, only the solutions ....

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Yasar, O., (1998), "A Scalable Model for Complex Flows", Int. J. Computers & Mathematics with Applications, 35:117--128.

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