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分子通信最新研究进展综述
Review of Recent Advancement of Molecular Communication

查看参考文献236篇

林林 1   黄莉 1   孔磊 2   刘富强 1   闫浩 3 *  
文摘 分子通信是一种利用微小粒子编码、传输和接收信息的通信范式,具有生物兼容性好、尺寸小等特点,是用来构建纳米网络的非常有潜力的通信方案之一.分子通信的概念一经提出就吸引了广泛关注,众多学者的参与使其迅猛发展.目前,分子通信理论已经被广泛研究,相关实验也有了进展.尽管如此,构建实际的分子通信系统还有大量问题亟须解决.为促进分子通信领域更好发展,对分子通信的理论基础和当前研究进展进行系统性的总结是必要的.因此,本文对基于扩散的分子通信的基本概念和研究进展进行了阐述,包括信道模型、信号的编码调制机制以及接收机制;此外,还介绍了分子通信系统的同步机制、移动分子通信系统,以及分子通信实验系统的最新研究进展,并对分子通信未来的研究方向进行了展望.
其他语种文摘 Molecular communication, which uses tiny particles to encode, transmit and receive information, is a communication paradigm with good biological compatibility and small size, and is the one of the most promising communication schemes for the realization of nanonetwork engineering. The concept of molecular communication has attracted wide attention since it was put forward. At present, the theory of molecular communication has been widely studied, and the related experiments have also made progress. However, there are still many problems to be solved in the construction of practical molecular communication systems. To promote the development of molecular communication, it is necessary to systematically summarize the theories and current research progress of molecular communication. In this paper, the basic concepts and research progress of diffusion-based molecular communication are described, including channel models, signal encoding, modulation, and receiving mechanisms. In addition, the latest research progress of the synchronization mechanisms of molecular communication systems, mobile molecular communication systems, and molecular communication experiment systems are introduced. Finally, future works and research directions are given.
来源 电子学报 ,2022,50(6):1492-1520 【核心库】
DOI 10.12263/DZXB.20210822
关键词 分子通信 ; 信道 ; 编码 ; 调制 ; 检测 ; 同步 ; 移动分子通信 ; 实验
地址

1. 同济大学电子与信息工程学院, 上海, 201804  

2. 中国移动通信有限公司研究院, 北京, 100053  

3. 上海交通大学电子信息与电气工程学院, 上海, 200240

语种 中文
文献类型 综述型
ISSN 0372-2112
学科 电子技术、通信技术
基金 国家自然科学基金 ;  上海市自然科学基金 ;  上海市科委一带一路国际合作项目
文献收藏号 CSCD:7240141

参考文献 共 236 共12页

1.  Akyildiz I F. 6G and beyond: The future of wireless communications systems. IEEE Access,2020,8:133995-134030 CSCD被引 22    
2.  张平. 6G移动通信技术展望. 通信学报,2019,40(1):141-148 CSCD被引 52    
3.  彭木根. 智简6G无线接入网:架构、技术和展望. 北京邮电大学学报,2020,43(3):1-10 CSCD被引 2    
4.  易芝玲. 从5G到6G的思考:需求、挑战与技术发展趋势. 北京邮电大学学报,2020,43(2):1-9 CSCD被引 11    
5.  尤肖虎. 6G与广域物联网. 物联网学报,2020,4(1):3-11 CSCD被引 23    
6.  魏克军. 全球6G研究进展综述. 移动通信,2020,44(3):34-36,42 CSCD被引 2    
7.  Akyildiz I F. Nanonetworks: A new communication paradigm. Computer Networks,2008,52(12):2260-2279 CSCD被引 19    
8.  Akyildiz I F. Nanonetworks. Communications of the ACM,2011,54(11):84-89 CSCD被引 6    
9.  Nakano T. Molecular Communication,2013 CSCD被引 6    
10.  Guo W S. Molecular versus electromagnetic wave propagation loss in macro-scale environments. IEEE Transactions on Molecular, Biological and Multi-Scale Communications,2015,1(1):18-25 CSCD被引 3    
11.  Stojanovic M. Acoustic(Underwater) Communications,2003 CSCD被引 1    
12.  Suda T. Exploratory research on molecular communication between nanomachines. Genetic and Evolutionary Computation Conference(GECCO),2005:29-34 CSCD被引 1    
13.  Nakano T. Molecular communication and networking: Opportunities and challenges. IEEE Transactions on NanoBioscience,2012,11(2):135-148 CSCD被引 11    
14.  Hiyama S. Molecular communication: Harnessing biochemical materials to engineer biomimetic communication systems. Nano Communication Networks,2010,1(1):20-30 CSCD被引 4    
15.  Darchini K. Molecular communication via microtubules and physical contact in nanonetworks: A survey. Nano Communication Networks,2013,4(2):73-85 CSCD被引 2    
16.  Nakano T. Molecular communication among biological nanomachines: A layered architecture and research issues. IEEE Transactions on Nanobioscience,2014,13(3):169-197 CSCD被引 3    
17.  Farsad N. A comprehensive survey of recent advancements in molecular communication. IEEE Communications Surveys & Tutorials,2016,18(3):1887-1919 CSCD被引 14    
18.  Wang J X. Diffusion Based Molecular Communication: Principle, Key Technologies, and Challenges. China Communications,2017,14(2):1-18 CSCD被引 6    
19.  Soldner C A. A survey of biological building blocks for synthetic molecular communication systems. IEEE Communications Surveys & Tutorials,2020,22(4):2765-2800 CSCD被引 1    
20.  Bush S F. Nanoscale Communication Networks,2010 CSCD被引 3    
引证文献 1

1 孟令国 基于磁性纳米粒子的分子通信研究 电子学报,2024,52(6):1878-1887
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