IEEE Transactions on Molecular, Biological, and Multi-Scale Communications | 2024 Impact Factor: 2.3 | Cite Score:4.2 | Q2

Cite Score and Journal Rank of IEEE Transactions on Molecular, Biological, and Multi-Scale Communications

• About: IEEE Transactions on Molecular, Biological, and Multi-Scale Communications (IEEE T-MBMC) is a peer-reviewed journal focusing on advanced research in molecular, biological, and multi-scale communication systems. It covers a broad spectrum of topics including molecular communications, biological networks, and multi-scale modeling and simulation techniques. The journal aims to provide a platform for researchers and practitioners to share innovative research findings and technological advancements at the intersection of communication systems and biological sciences.
• Objective:
  The primary objective of IEEE T-MBMC is to advance the field of molecular, biological, and multi-scale communications by publishing high-quality research that explores new methodologies, technologies, and applications. The journal seeks to address the challenges and opportunities associated with communication systems operating at molecular and biological levels, as well as the integration of multi-scale modeling approaches. IEEE T-MBMC aims to foster collaboration among researchers and practitioners and to contribute to the development of cutting-edge technologies and solutions in these emerging areas.
• Interdisciplinary Approach:
  The journal adopts an interdisciplinary approach, welcoming contributions from fields such as communication systems, molecular biology, bioengineering, nanotechnology, and computational modeling. This approach ensures a comprehensive examination of communication systems across various scales, integrating theoretical, experimental, and computational perspectives. By promoting interdisciplinary research, IEEE T-MBMC aims to address complex challenges and develop innovative solutions that bridge the gap between communication technologies and biological systems.
• Impact:
  IEEE T-MBMC has a significant impact on both academic research and practical applications in the fields of molecular and biological communications. It is widely cited by researchers, engineers, and practitioners who are involved in the development and application of advanced communication technologies. The research published in the journal contributes to the advancement of new communication paradigms, technologies, and applications, influencing a wide range of disciplines including bioengineering, molecular communications, and multi-scale modeling. The journal also serves as a valuable resource for educators and students in these fields.
• Significance:
  IEEE T-MBMC plays a crucial role in advancing the study and application of molecular, biological, and multi-scale communication systems by publishing high-quality research that addresses key challenges and explores new opportunities. Its contributions support the development of innovative technologies and methodologies that enhance communication capabilities across molecular and biological scales. The journals interdisciplinary focus and commitment to excellence make it an essential resource for anyone involved in the research, development, and application of communication systems in these emerging and interdisciplinary fields. Through its rigorous scholarship and comprehensive coverage, IEEE T-MBMC helps shape the future of molecular, biological, and multi-scale communications.

• Journal Home:  Journal Homepage

• Editor-in-Chief:  Sasitharan Balasubramaniam

• Scope: The IEEE Transactions on Molecular, Biological, and Multi-Scale Communications (TMBMC) focuses on research and advancements in communications technologies and methodologies applied to molecular, biological, and multi-scale systems. Its scope includes, but is not limited to:
• Molecular Communications: Research on the use of molecular signaling for communication in biological systems, including the development of molecular communication protocols and technologies.
• Biological Communications: Studies on communication processes in biological systems, such as cell signaling, neural communication, and microbial communication.
• Multi-Scale Modeling and Simulation: Application of multi-scale modeling techniques to understand and simulate communication processes across different scales, from molecular to macroscopic levels.
• Bioinformatics and Computational Biology: Research on computational methods and tools for analyzing and interpreting biological data, including the development of algorithms for molecular and biological communications.
• Biomedical Engineering and Communications: Studies on the integration of communication technologies with biomedical systems, including medical diagnostics, therapeutic devices, and bioengineering applications.
• Network Theory and Design: Exploration of network theories and design principles applied to biological and molecular communication systems, including network modeling and performance analysis.
• Signal Processing for Molecular and Biological Systems: Techniques for processing and analyzing signals in molecular and biological communications, including noise reduction, signal detection, and data interpretation.
• Wearable and Implantable Devices: Research on communication technologies used in wearable and implantable biomedical devices, including data transmission, energy harvesting, and interface design.
• Environmental and Ecological Communication Systems: Studies on communication systems in environmental and ecological contexts, including the impact of environmental factors on biological communications.
• Health Monitoring and Diagnostics: Application of communication technologies to health monitoring and diagnostics, including real-time data acquisition, remote monitoring, and telemedicine.
• Artificial Intelligence and Machine Learning: Integration of AI and machine learning techniques with molecular and biological communication systems for enhanced data analysis, pattern recognition, and system optimization.
• Security and Privacy in Biomedical Communications: Research on security and privacy issues related to the communication of sensitive biological and medical data, including encryption and access control.
• Interdisciplinary Research and Applications: Encouragement of interdisciplinary research that bridges molecular biology, biomedical engineering, and communication technologies.
• Theoretical Foundations and Algorithms: Exploration of the theoretical foundations and development of algorithms for molecular and biological communication systems.
• Case Studies and Practical Implementations: Real-world case studies and practical implementations demonstrating the application of communication technologies in molecular and biological systems.
• Future Trends and Emerging Technologies: Research on future trends and emerging technologies in molecular, biological, and multi-scale communications.
• The journal provides a platform for researchers, practitioners, and engineers to share their contributions to the field of molecular, biological, and multi-scale communications, fostering advancements and innovations across these interdisciplinary domains.
• Latest Research Topics for PhD in Computer Science

• Print ISSN:  23327804

  Electronic ISSN:  

• Abstracting and Indexing:  Scopus

• Imapct Factor 2024:  2.3

• Subject Area and Category:   Biochemistry, Genetics and Molecular Biology, Biotechnology, Chemical Engineering, Bioengineering, Computer Science, Computer Networks and Communications, Engineering, Electrical and Electronic Engineering, Mathematics, Modeling and Simulation

• Publication Frequency:  

• H Index:  26

• Best Quartile:

  Q1:  

  Q2:  Bioengineering

  Q3:  

  Q4:  

• Cite Score:  4.2

• SNIP:  0.975

• Journal Rank(SJR):  0.560

• Latest Articles:   Latest Articles in IEEE Transactions on Molecular, Biological, and Multi-Scale Communications

• Guidelines for Authors: IEEE Transactions on Molecular, Biological, and Multi-Scale Communications Author Guidelines

• Paper Submissions: Paper Submissions in IEEE Transactions on Molecular, Biological, and Multi-Scale Communications

• Publisher:  IEEE-Institute of Electrical and Electronics Engineers Inc.

  Country:  United States

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