Book contents
- Frontmatter
- Contents
- Preface to the Second Edition
- Preface to the First Edition
- 1 Introduction
- 2 Natural Biological Nanomachines
- 3 Molecular Communication in Biological Systems
- 4 Molecular Communication Paradigm
- 5 A Layered Architecture of Molecular Communication
- 6 Mathematical Modelling and Simulation: Diffusion-Based Molecular Communication
- 7 Mathematical Modelling and Simulation: Biological Molecular Communication
- 8 Communication and Information Theory of Molecular Communication
- 9 Mobile Molecular Communication
- 10 Experimental Molecular Communication: Macroscale Systems
- 11 Design and Engineering of Molecular Communication Components
- 12 Design and Engineering of Molecular Communication Systems
- 13 Targeted Cluster Formation of Bio-nanomachines
- 14 Large-Scale Structure Formation of Bio-nanomachines
- 15 Externally Controllable Molecular Communication
- 16 Standardization in Molecular Communication
- 17 Conclusion
- Appendix Review of Probability Theory
- Index
7 - Mathematical Modelling and Simulation: Biological Molecular Communication
Published online by Cambridge University Press: 12 December 2024
Book contents
- Frontmatter
- Contents
- Preface to the Second Edition
- Preface to the First Edition
- 1 Introduction
- 2 Natural Biological Nanomachines
- 3 Molecular Communication in Biological Systems
- 4 Molecular Communication Paradigm
- 5 A Layered Architecture of Molecular Communication
- 6 Mathematical Modelling and Simulation: Diffusion-Based Molecular Communication
- 7 Mathematical Modelling and Simulation: Biological Molecular Communication
- 8 Communication and Information Theory of Molecular Communication
- 9 Mobile Molecular Communication
- 10 Experimental Molecular Communication: Macroscale Systems
- 11 Design and Engineering of Molecular Communication Components
- 12 Design and Engineering of Molecular Communication Systems
- 13 Targeted Cluster Formation of Bio-nanomachines
- 14 Large-Scale Structure Formation of Bio-nanomachines
- 15 Externally Controllable Molecular Communication
- 16 Standardization in Molecular Communication
- 17 Conclusion
- Appendix Review of Probability Theory
- Index
Summary
This chapter introduces detailed mathematical modelling for biological molecular communication systems, particularly for ligand–receptor systems. Models for chemical kinetics are introduced, including the master equation, and these are applied to membrane ion channels. Simulation of these systems is also discussed.
- Type
- Chapter
- Information
- Molecular Communication , pp. 119 - 134Publisher: Cambridge University PressPrint publication year: 2024