Optimal control in bioprocesses : Pontryagin's maximum principle in practice
tarafından
Harmand, Jérôme, author.
Başlık
:
Optimal control in bioprocesses : Pontryagin's maximum principle in practice
Yazar
:
Harmand, Jérôme, author.
ISBN
:
9781119427520
9781119597377
Fiziksel Tanımlama
:
1 online resource
Seri
:
Chemical engineering series. Chemostat and bioprocesses set ; volume 3
Chemical engineering series (ISTE Ltd). Chemostat and bioprocesses set ; v. 3.
İçerik
:
Cover -- Half-Title Page -- Title Page -- Copyright Page -- Contents -- Introduction -- PART 1: Learning to use Pontryagin's Maximum Principle -- 1. The Classical Calculus of Variations -- 1.1. Introduction: notations -- 1.2. Minimizing a function -- 1.2.1. Minimum of a function of one variable -- 1.2.2. Minimum of a function of two variables -- 1.3. Minimization of a functional: Euler-Lagrange equations -- 1.3.1. The problem -- 1.3.2. The differential of J -- 1.3.3. Examples -- 1.4. Hamilton's equations -- 1.4.1. Hamilton's classical equations -- 1.4.2. The limitations of classical calculus of variations and small steps toward the control theory -- 1.5. Historical and bibliographic observations -- 2. Optimal Control -- 2.1. The vocabulary of optimal control theory -- 2.1.1. Controls and responses -- 2.1.2. Class of regular controls -- 2.1.3. Reachable states -- 2.1.4. Controllability -- 2.1.5. Optimal control -- 2.1.6. Existence of a minimum -- 2.1.7. Optimization and reachable states -- 2.2. Statement of Pontryagin's maximum principle -- 2.2.1. PMP for the "canonical" problem -- 2.2.2. PMP for an integral cost -- 2.2.3. The PMP for the minimum-time problem -- 2.2.4. PMP in fixed terminal time and integral cost -- 2.2.5. PMP for a non-punctual target -- 2.3. PMP without terminal constraint -- 2.3.1. Statement -- 2.3.2. Corollary -- 2.3.3. Dynamic programming and interpretation of the adjoint vector -- 3. Applications -- 3.1. Academic examples (to facilitate understanding) -- 3.1.1. The driver in a hurry -- 3.1.2. Profile of a road -- 3.1.3. Controlling the harmonic oscillator: the swing (problem) -- 3.1.4. The Fuller phenomenon -- 3.2. Regular problems -- 3.2.1. A regular Hamiltonian and the associated shooting method -- 3.2.2. The geodesic problem (seen as a minimum-time problem) -- 3.2.3. Regularization of the problem of the driver in a hurry.
Özet
:
Optimal control is a branch of applied mathematics that engineers need in order to optimize the operation of systems and production processes. Its application to concrete examples is often considered to be difficult because it requires a large investment to master its subtleties. The purpose of Optimal Control in Bioprocesses is to provide a pedagogical perspective on the foundations of the theory and to support the reader in its application, first by using academic examples and then by using concrete examples in biotechnology. The book is thus divided into two parts, the first of which outlines the essential definitions and concepts necessary for the understanding of Pontryagin's maximum principle - or PMP - while the second exposes applications specific to the world of bioprocesses. This book is unique in that it focuses on the arguments and geometric interpretations of the trajectories provided by the application of PMP.
Notlar
:
John Wiley and Sons
Konu Terimleri
:
Control theory.
Mathematical optimization.
Théorie de la commande.
Optimisation mathématique.
TECHNOLOGY & ENGINEERING -- Engineering (General)
Control theory
Mathematical optimization
Yazar Ek Girişi
:
Lobry, C. (Claude),
Rapaport, Alain,
Sari, Tewfik,
Elektronik Erişim
:
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