Search for dissertations about: "A. hopf"
Showing result 16 - 20 of 21 swedish dissertations containing the words A. hopf.
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16. Role of potassium channels in regulating neuronal activity
Abstract : The firing behaviour of excitable cells is fundamental for the information processing in multicellular organisms, varying from single spikes to different forms of repetitive firing. Of the many regulators, voltage gated potassium channels play a major role. In this thesis some aspects of the potassium channel regulation of firing are explored. READ MORE
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17. Some studies within applied mathematics with focus on conditional symmetries of partial differential equations and bending waves in plates
Abstract : This is thesis in mathematics with special focus on applied mathematics and mathematical physics. There is an introduction (in Svedish), two papers and two addendums to the first paper. The second paper is published in an international journal. READ MORE
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18. Core-box Modelling - Theoretical Contributions and Applications to Glucose Homeostasis Related Systems
Abstract : The study of biological systems through a combination of in vitro characterisations, quantitative in vivo experiments, and mathematical modelling, is receiving an increasingly growing interest through the field system biology. Systems biology uses methods from many different research fields, but the existing methods need to be extended and adapted to fit the new situations. READ MORE
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19. Nonlinear Modeling and Feedback Control of Drug Delivery in Anesthesia
Abstract : General anesthesia is a drug-induced reversible state where neuromuscular blockade (NMB), hypnosis, and analgesia (jointly denoted by depth of anesthesia - DoA) are guaranteed. This thesis concerns mathematical modeling and feedback control of the effect of the muscle relaxants atracurium and rocuronium, the hypnotic propofol, and the analgesic remifentanil. READ MORE
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20. Robustness Analysis of Intracellular Oscillators with Application to the Circadian Clock
Abstract : Periodic oscillations underlie many intracellular functions, such as circadian time keeping, cell cycle control and locomotor pattern generation in nerve cells. These intracellular oscillations are generated in intricate biochemical reaction networks involving genes, proteins and other biochemical components. READ MORE