Volume 2 (2021), Issue 3 – Internet of Bio-Nano Things for health applications
EDITORIAL BOARD
TABLE OF CONTENTS
LIST OF ABSTRACTS
INTERNET OF BIO‑NANO THINGS: A REVIEW OF APPLICATIONS, ENABLING TECHNOLOGIES AND KEY CHALLENGES
     1. INTRODUCTION
     2. FRAMEWORK
          2.1 Natural IoBNT
               2.1.1 Human‑body nanonetworks
               2.1.2 Bacterial nanonetworks
               2.1.3 Plant networks
          2.2 Bio‑Nano Things
          2.3 IoBNT Applications
               2.3.1 Biomedical Applications
               2.3.2 Smart Agriculture
               2.3.3 Environmental Applications
     3. CHALLENGES
          3.1 Communication Methods for IoBNT
               3.1.1 Molecular Communications
               3.1.2 Human Body as IoBNT Infrastructure
               3.1.3 Other Nanocommunication Modalities for IoBNT
          3.2 Bio‑Cyber and Nano‑Macro Interfaces
               3.2.1 Electrical Interfaces
               3.2.2 Optical Interfaces
               3.2.3 Other Interfacing Methods
          3.3 Energy Harvesting, Power Transfer, and Energy Efficiency
               3.3.1 Energy Harvesting
               3.3.2 Wireless Power Transfer
               3.3.3 Energy Storage
          3.4 Biocompatibility and Co‑existence
     4. CONCLUSION
     ACKNOWLEDGEMENT
     REFERENCES
     AUTHORS
ENABLING MOLECULAR COMMUNICATION THROUGH CHIRALITY OF ENANTIOMERS
     1 Introduction
     2 Chiral Molecules
          2.1 Features of chiral molecules
     3 Chirality Transfer Effect
     4 Chiral Optical Channel
     5 Conclusions
     REFERENCES
     AUTHORS
TRANSMISSION AND DETECTION TECHNIQUES FOR INTERNET OF BIO‑NANO THINGS APPLICATIONS WITH STATIC AND MOBILE MOLECULAR COMMUNICATION: A SURVEY
     1. INTRODUCTION
          1.1 Related works
     2. TRANSMISSION AND DETECTION WITH STATIC NANO‑MACHINES
          2.1 Static nano‑machines in pure diffusive channel
          2.2 Static nano‑machines in flow‑induced diffusive channel
          2.3 Performance and complexity comparison of different detection techniques for static MC
          2.4 Challenges in detection and possible solutions
     3. TRANSMISSION AND DETECTION WITH MOBILE NANO‑MACHINES
          3.1 Mobile nano‑machines in pure diffusive channel
          3.2 Mobile nano‑machines in flow‑induced diffusive channel
          3.3 Performance and complexity comparison of different detection techniques for mobile MC
          3.4 Challenges in detection and possible solutions
     4. EXPERIMENTAL WORKS
          4.1 Microscale experiments
          4.2 Macroscale experiments
     5. CHALLENGES IN PRACTICAL DESIGN OF TRANSMITTER AND RECEIVER, AND FUTURE RESEARCH DIRECTIONS
          5.1 Transmitter design
          5.2 Receiver design
          5.3 Future research directions
     6. CONCLUSION
     REFERENCES
     AUTHORS
BRAINWAVE ASSISTIVE SYSTEM FOR PARALYZED INDIVIDUALS
     1. INTRODUCTION
     2. MOTIVATION AND CONTRIBUTION
     3. PROPOSED METHODOLOGY
          3.1 Data acquisition
          3.2 Data processing
          3.3 Data implementation
     4. EXPERIMENTAL FEEDBACK GENERATION
          4.1 Hardware implementation
          4.2 Software control observation
          4.3 Parameter settings
     5. RESULT AND DISCUSSION
     6.  CONCLUSION
     ACKNOWLEDGEMENTS
     REFERENCES
     AUTHORS
RATE CONTROL FOR THERAPEUTIC APPLICATIONS IN INTERNET OF BIO‑NANO THINGS USING MOLECULAR COMMUNICATION: A SURVEY
     1. INTRODUCTION
     2. RATE CONTROL IN MOLECULAR COMMUNICATION
     2.1 Flow control
     2.2 Congestion control
     3. THERAPEUTIC APPLICATIONS OF RATE CONTROL
     3.1 Targeted drug delivery
     3.2 Immune system
     3.3 Tissue engineering
     4. CURRENT RESEARCH ON RELEASING RATE CONTROL IN LOCAL DDS
     5. RESEARCH OPPORTUNITIES
     6. CONCLUSION
     REFERENCES
     AUTHORS
INFORMATION THEORETIC MODELING OF PARANODAL REGIONS IN MYELINATED AXONS
     1. INTRODUCTION
     2. SYSTEM MODEL
          2.1 The cable equation
          2.2 The discrete axonal cable
          2.3 Multilayer cell membrane
     3. INTERNODAL CHANNEL CAPACITY
     4. PERFORMANCE EVALUATION
          4.1 Leakage resistance and capacitance
          4.2 Frequency response analysis of internode
     5. CONCLUSION AND FUTURE DIRECTIONS
     ACKNOWLEDGEMENT
     REFERENCES
     AUTHORS
EVOLUTIONARY GAME THEORETIC RESOURCE ALLOCATION SIMULATION FOR MOLECULAR COMMUNICATION
     1. INTRODUCTION
     2. SYSTEM MODEL
          2.1 Organism
          2.2 Molecular communication model
          2.3 Evolution
     3. EVOLUTIONARY GAME THEORY
          3.1 Problem description
          3.2 Analytic solution
          3.3 Evolutionary solution
     4. VESICLE COUNT OPTIMIZATION
     5. CONCLUSION
     ACKNOWLEDGEMENT
     REFERENCES
     AUTHORS
ELECTRIC MANIFESTATIONS AND SOCIAL IMPLICATIONS OF BACTERIA AGGREGATION FROM THE BESSEL-KELLER-SEGEL EQUATION
     1. INTRODUCTION
     2. EXTENSION OF the KELLER-SEGEL EQUATION
          2.1 Essential Assumptions
          2.2 Charged Bacteria Density
          2.3 The Bessel-Keller-Segel (BKS) Equation
     3. Electrodynamics analysis of bessel-keller-segel equation
          3.1 Biophysics Interpretation of Electrical Currents
     4. CONCLUSION
     REFERENCES
     AUTHOR
INDEX OF AUTHORS