@article {153,
title = {Differential Algebra for Control Systems Design. Computation of Canonical Forms.},
journal = {Control Systems Magazine},
volume = {33},
year = {2013},
pages = {52 - 62},
chapter = {52},
abstract = {Many systems can be represented using polynomial differential equations, particularly in process control, biotechnology, and systems biology [1], [2]. For example, models of chemical and biochemical reaction networks derived using the law of mass action have the form ẋ = Sv(k,x), (1) where x is a vector of concentrations, S is the stoichiometric matrix, and v is a vector of rate expressions formed by multivariate polynomials with real coefficients k . Furthermore, a model containing nonpolynomial nonlinearities can be approximated by such polynomial models as explained in \"Model Approximation\". The primary aims of differential algebra (DALG) are to study, compute, and structurally describe the solution of a system of polynomial differential equations,f (x,ẋ, ...,x^{(k)}) =0, (2) where f is a polynomial [3]-[6]. Although, in many instances, it may be impossible to symbolically compute the solutions, or these solutions may be difficult to handle due to their size, it is still useful to be able to study and structurally describe the solutions. Often, understanding properties of the solution space and consequently of the equations is all that is required for analysis and control design.

},
author = {Pic{\'o}-Marco, E}
}
@article {81,
title = {Nonlinear PI control of fed-batch processes for growth rate regulation},
journal = {Journal of Process Control},
volume = {22},
year = {2012},
pages = {789 - 797},
keywords = {Nonlinear observers},
issn = {0959-1524},
doi = {10.1016/j.jprocont.2012.02.011},
url = {http://www.sciencedirect.com/science/article/pii/S0959152412000601},
author = {Hern{\'a}n De Battista and J Pic{\'o} and Pic{\'o}-Marco, E}
}
@conference {DePiPiMa:07,
title = {{Adaptive sliding mode control of fed-batch processes using specific growth rate estimation feedback}},
booktitle = {procs. 10th IFAC Computer Applications in Biotechnology},
year = {2007},
author = {Hern{\'a}n De Battista and J Pic{\'o} and Pic{\'o}-Marco, E and Mazzone, V.}
}
@conference {DeBattista:2007wb,
title = {{Adaptive sliding mode control of fed-batch processes using specific growth rate estimation feedback}},
booktitle = {Proceedings of the 10th {\l}dots}},
year = {2007},
author = {Hern{\'a}n De Battista and J Pic{\'o} and Pic{\'o}-Marco, E}
}
@article {PiNaBr:06,
title = {{A closed loop exponential feeding law: Invariance and global stability analysis}},
journal = {Journal of Process Control},
volume = {16},
number = {4},
year = {2006},
pages = {395{\textendash}402},
author = {Pic{\'o}-Marco, E and Navarro, J.L. and Bruno-Barcena, JM}
}
@article {DeBattista:2006dd,
title = {{Globally stabilizing control of fed-batch processes with Haldane kinetics using growth rate estimation feedback}},
journal = {Journal of Process Control},
volume = {16},
number = {8},
year = {2006},
pages = {865{\textendash}875},
author = {Hern{\'a}n De Battista and J Pic{\'o} and Pic{\'o}-Marco, E}
}
@article {DePiPi:05,
title = {{On {\textquoteleft}Feedback stabilization of fed-batch bioreactors: non-monotonic growth kinetics{\textquoteright}}},
journal = {Biotechnology progress},
volume = {21},
year = {2005},
pages = {651{\textendash}652},
author = {Hern{\'a}n De Battista and Pic{\'o}-Marco, E and J Pic{\'o}}
}
@inbook {PiPiNaDe:05,
title = {{Nonlinear and Adaptive Control: Theory and Algorithms for the User}},
year = {2005},
publisher = {Imperial College Press},
organization = {Imperial College Press},
address = {London},
author = {J Pic{\'o} and Pic{\'o}-Marco, E and Navarro, J.L. and Hern{\'a}n De Battista},
editor = {Astolfi, A}
}
@article {PicoMarco:2005db,
title = {{Sliding mode scheme for adaptive specific growth rate control in biotechnological fed-batch processes}},
journal = {International Journal of Control},
volume = {78},
number = {2},
year = {2005},
pages = {128{\textendash}141},
author = {Pic{\'o}-Marco, E and J Pic{\'o} and Hern{\'a}n De Battista}
}
@mastersthesis {Pi:04,
title = {{Nonlinear Robust Control of Biotechnological Processes}},
year = {2004},
school = {Technical University of Valencia},
type = {phd},
address = {Valencia, Spain},
author = {Pic{\'o}-Marco, E}
}
@conference {PiPi:03,
title = {{Partial stability for specific growth rate control in biotechnological fed-batchprocesses}},
booktitle = {Proceedings of the IEEE Conference on Control Applications},
year = {2003},
pages = {724{\textendash}728},
address = {Istambul, Turkey},
author = {Pic{\'o}-Marco, E and J Pic{\'o}}
}