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1. Introduction
1.1 The Role of Process Dynamics and Control in Branches of Biology
1.2 The Role of Process Dynamics and Control in Drug-Delivery Systems
1.3 Instrumentation
1.4 Summary
2. Mathematical Models
2.1 Background
2.2 Dynamics of Bioreactors
2.3 One- and Two-Compartment Models
2.4 Enzyme Kinetics
2.5 Summary
3. Linearization and Deviation Variables
3.1 Computer Simulations
3.2 Linearization of Systems
3.3 Glycolytic Oscillation
3.4 Hodgkin-Huxley Model
3.5 Summary
4. Stability Considerations
4.1 Definition of Stability
4.2 Steady-State Conditions and Equilibrium Points
4.3 Phase-Plane Diagrams
4.4 Population Kinetics
4.5 Dynamics of Bioreactors
4.6 Glycolytic Oscillation
4.7 Hodgkin-Huxley Model
4.8 Summary
5. Laplace Transforms of Linear Systems
5.1 Definitions of Laplace Transforms
5.2 Properties of Laplace Transforms
5.3 Laplace Transforms of Functions, Derivatives and Integrals
5.4 Laplace Transforms of Linear Ordinary and Partial Differential Equations
5.5 Continuous Fermentation
5.6 Two-Compartment Models
5.7 Gene Regulation
5.8 Summary
6. Inverse Laplace Transforms
6.1 Heaviside Expansions
6.2 Residue Theorem
6.3 Continuous Fermentation
6.4 Degradation of Plasmid DNA
6.5 Constant-Rate Intravenous Infusion
6.6 Transdermal Drug-Delivery Systems
6.7 Summary
7. Transfer Functions
7.1 Input-Output Models
7.2 Derivation of Transfer Functions
7.3 One- and Two-Compartment Models: Michaelis-Menten Kinetics
7.4 Controlled-Release Systems
7.5 Summary
8. Dynamic Behaviors of Typical Plants
8.1 First-, Second- and Higher-Order Systems
8.2 Reduced-Order Models
8.3 Transcendental Transfer Functions
8.4 Time Responses of Systems with Rational Transfer Functions
8.5 Time Responses of Systems with Transcendental Transfer Functions
8.6 Bone Regeneration
8.7 Nitric Oxide Transport to Pulmonary Arterioles
8.8 Transdermal Drug Delivery
8.9 Summary
9. Closed-Loop Responses with P, PI and PID Controllers
9.1 Block Diagram of Closed-Loop Systems
9.2 Proportional Control
9.3 Proportional-Integral Control
9.4 Proportional-Integral-Derivative Control
9.5 Total Sugar Concentration in a Glutamic Acid Production
9.6 Temperature Control of Fermentations
9.7 Dissolved Oxygen Concentration
9.8 Summary
10. Frequency Response Analysis
10.1 Frequency Response for Linear Systems
10.2 Bode Diagrams
10.3 Nyquist Plots
10.4 Transdermal Drug Delivery
10.5 Compartmental Models
10.6 Summary
11. Stability Analysis of Feedback Systems
11.1 Routh-Hurwitz Stability Criterion
11.2 Root Locus Analysis
11.3 Bode Stability Criterion
11.4 Nyquist Stability Criterion
11.5 Cheyne-Stokes Respiration
11.6 Regulation of Biological Pathways
11.7 Pupillary Light Reflex
11.8 Summary
12. Design of Feedback Controllers
12.1 Tuning Methods for Feedback Controllers
12.2 Regulation of Glycemia
12.3 Dissolved Oxygen Concentration
12.4 Control of Biomass in a Chemostat
12.5 Controlled Infusion of Vasoactive Drugs
12.6 Bone Regeneration
12.7 Fed-Batch Biochemical Processes
12.8 Summary
13. Feedback Control of Dead-Time Systems
13.1 Smith Predictor-Based Methods
13.2 Control of Biomass
13.3 Zymomonas Mobilis Fermentation for Ethanol Production
13.4 Fed-batch Cultivation of Acinetobacter Calcoaceticus RAG-1
13.5 Regulation of Glycemia
13.6 Summary
14. Cascade and Feedforward Control Strategies
14.1 Cascade Control
14.2 Feedforward Control
14.3 Insulin Infusion
14.4 A Gaze Control System
14.5 Control of pH
14.6 Summary
15. Effective Time Constant
15.1 Linear Second-Order Ordinary Differential Equations
15.2 Sturm-Liouville Eigenvalue Problems
15.3 Relaxation Time Constant
15.4 Implementation in Mathematica?
15.5 Controlled-Release Devices
15.6 Summary
16. Optimal Control and Design
16.1 Orthogonal Collocation Techniques
16.2 Dynamic Programming
16.3 Optimal Control of Drug-Delivery Rates
16.4 Optimal Design of Controlled-Release Devices
16.5 Implementations in Mathematica?
16.6 Summary
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Add Control of Biological & Drug-Delivery Systems for Chemical, Biomedical, & Pharmaceutical Engineering, This book combines knowledge of process dynamics and basic control theory to analyze a range of bioprocesses and drug-release devices. The book addresses issues and solves problems that dominate both fields (i.e., biological sciences and release devices.), Control of Biological and Drug-Delivery Systems for Chemical, Biomedical, and Pharmaceutical Engineering to the inventory that you are selling on WonderClubX
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Add Control of Biological & Drug-Delivery Systems for Chemical, Biomedical, & Pharmaceutical Engineering, This book combines knowledge of process dynamics and basic control theory to analyze a range of bioprocesses and drug-release devices. The book addresses issues and solves problems that dominate both fields (i.e., biological sciences and release devices.), Control of Biological and Drug-Delivery Systems for Chemical, Biomedical, and Pharmaceutical Engineering to your collection on WonderClub |