IDMEC Institute of Mechanical Engineering, Instituto Superior Técnico, University of Lisbon
Listing 18 models
Title | Description | |
---|---|---|
Exponential | goto | |
Seminar | goto | |
Richards (log y = false) | M. H. Zwietering, I. Jongenburger, F. M. Rombouts, and K. van t Riet. Modeling of the bacterial g... | goto |
Richards | This model will transform your data to y* = ln(y/y0) and fit the transformed data to the model. An... | goto |
Reversible Hills Equation | Reversible Hills equation with fixed parameters <br/> <br/>PEP = 2 <br/>ADP = 5 <br/>ATP = 2 <br/>PYR = 0 <br/>A =... | goto |
Parabolic Regression | y(t) = A + B * t^2 (normal space) | goto |
New | goto | |
Logistics | This model will transform your data to y* = ln(y/y0) and fit the transformed data to the model. An... | goto |
Live cell fraction model | Milotti et al, Interplay between distribution of live cells and growth dynamics of solid tumours, ... | goto |
Linear Regression | y(t) = A + B * t | goto |
LENP type Ib (ode) | Roberts, C. J., Kinetics of Irreversible Protein Aggregation: Analysis of Extended Lumry-Eyring Mo... | goto |
Hyperbolastic growth model of type III<br/>H3 | Eby et al. BMC Cancer 2010. | goto |
Gompertz (log y = false) | This model will transform your data to y* = y - y0 and fit the transformed data to the model. And ... | goto |
Gompertz | This model will transform your data to y* = ln(y/y0) and fit the transformed data to the model. An... | goto |
Exponential decay | Exponential decay | goto |
Linear Regression2 | goto | |
Baranyi | Baranyi J. and Roberts T.A. (1994). A dynamic approach to predicting bacterial growth in food. In... | goto |
new_seminar | goto |