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Molecular Communication.

By: Contributor(s): Material type: TextTextPublication details: Cambridge : Cambridge University Press, (c)2013.Description: 1 online resource (194 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781107291218
  • 9781107289611
  • 9781461944973
  • 9781139149693
Subject(s): Genre/Form: LOC classification:
  • TKĀ .M654 2013
Online resources: Available additional physical forms:
Contents:
Subject: A comprehensive guide written by pioneers in the field, providing a detailed introduction to the state of the art in molecular communication.
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Item type Current library Collection Call number URL Status Date due Barcode
Online Book (LOGIN USING YOUR MY CIU LOGIN AND PASSWORD) Online Book (LOGIN USING YOUR MY CIU LOGIN AND PASSWORD) G. Allen Fleece Library ONLINE Non-fiction TK (Browse shelf(Opens below)) Link to resource Available ocn861537953

A comprehensive guide written by pioneers in the field, providing a detailed introduction to the state of the art in molecular communication.

Cover; Half Title; Copyright; Title; Contents; Preface; 1 Introduction; 1.1 Molecular communication: Why, what, and how?; 1.1.1 Why molecular communication?; 1.1.2 What uses molecular communication?; 1.1.3 How does it work? A quick introduction; 1.2 A history of molecular communication; 1.2.1 Early history and theoretical research; 1.2.2 More recent theoretical research; 1.2.3 Implementational aspects; 1.2.4 Contemporary research; 1.3 Applications areas; 1.3.1 Biological engineering; 1.3.2 Medical and healthcare applications; 1.3.3 Industrial applications; 1.3.4 Environmental applications.

1.3.5 Information and communication technology applications1.4 Rationale and organization of the book; References; 2 Nature-made biological nanomachines; 2.1 Protein molecules; 2.1.1 Molecular structure; 2.1.2 Functions and roles; 2.2 DNA and RNA molecules; 2.2.1 Molecular structure; 2.2.2 Functions and roles; 2.3 Lipid membranes and vesicles; 2.3.1 Molecular structure; 2.3.2 Functions and roles; 2.4 Whole cells; 2.5 Conclusion and summary; References; 3 Molecular communication in biological systems; 3.1 Scales of molecular communication; 3.2 Modes of molecular communication.

3.3 Examples of molecular communication3.3.1 Chemotactic signaling; 3.3.2 Vesicular trafficking; 3.3.3 Calcium signaling; 3.3.4 Quorum sensing; 3.3.5 Bacterial migration and conjugation; 3.3.6 Morphogen signaling; 3.3.7 Hormonal signaling; 3.3.8 Neuronal signaling; 3.4 Conclusion and summary; References; 4 Molecular communication paradigm; 4.1 Molecular communication model; 4.2 General characteristics; 4.2.1 Transmission of information molecules; 4.2.2 Information representation; 4.2.3 Slow speed and limited range; 4.2.4 Stochastic communication; 4.2.5 Massive parallelization.

4.2.6 Energy efficiency4.2.7 Biocompatibility; 4.3 Molecular communication network architecture; 4.3.1 Physical layer; 4.3.2 Link layer; 4.3.3 Network layer; 4.3.4 Upper layers and other issues; 4.4 Conclusion and summary; References; 5 Mathematical modeling and simulation; 5.1 Discrete diffusion and Brownian motion; 5.1.1 Environmental assumptions; 5.1.2 The Wiener process; 5.1.3 Markov property; 5.1.4 Wiener process with drift; 5.1.5 Multi-dimensional Wiener processes; 5.1.6 Simulation; 5.2 Molecular motors; 5.3 First arrival times; 5.3.1 Definition and closed-form examples.

5.3.2 First arrival times in multiple dimensions5.3.3 From first arrival times to communication systems; 5.4 Concentration, mole fraction, and counting; 5.4.1 Small numbers of molecules: Counting and inter-symbol interference; 5.4.2 Large numbers of molecules: Towards concentration; 5.4.3 Concentration: random and deterministic; 5.4.4 Concentration as a Gaussian random variable; 5.4.5 Concentration as a random process; 5.4.6 Discussion and communication example; 5.5 Models for ligand-receptor systems; 5.5.1 Mathematical model of a ligand-receptor system; 5.5.2 Simulation.

Includes bibliographies and index.

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