09-14-2014, 08:36 PM
http://www.ploscompbiol.org/article/info...bi.1003828
Here we see a model that is identical to the unstructured model in IMMD (NoviBio): see equations 4),5),6) in this article and compare it with equations 4) and 6) in our article http://iopscience.iop.org/1758-5090/3/4/045006 Or 16a) and 20) in other our article:
http://scholar.google.com/scholar_host?q...89#P1%2CM1
Our equations for unstructured models back us to BERTALANFFY equations, but we have done some modifications.
However, our studies were completely independent and they concerned to microorganisms growth. In contrast to the authors' discussed in this post, where we see the other objects of the study.
Besides, we was the first who proposed a method for determining the parameters for such models (Victor Derbyshev and others) and other radical innovations. Please look ,this is interesting.
Also, see discussion in:
https://www.linkedin.com/groups/Id-like-...mr_4410338
Here we see a model that is identical to the unstructured model in IMMD (NoviBio): see equations 4),5),6) in this article and compare it with equations 4) and 6) in our article http://iopscience.iop.org/1758-5090/3/4/045006 Or 16a) and 20) in other our article:
http://scholar.google.com/scholar_host?q...89#P1%2CM1
Our equations for unstructured models back us to BERTALANFFY equations, but we have done some modifications.
However, our studies were completely independent and they concerned to microorganisms growth. In contrast to the authors' discussed in this post, where we see the other objects of the study.
Besides, we was the first who proposed a method for determining the parameters for such models (Victor Derbyshev and others) and other radical innovations. Please look ,this is interesting.
Also, see discussion in:
https://www.linkedin.com/groups/Id-like-...mr_4410338