Special Session Ⅵ
Special Session Ⅵ
Molecualr Communciations and The internet of Bio-Nano Things (Submission Deadline: June 28, 2026)
分子通信及生物纳米物联网
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Co-chairs: |
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| Yue Sun |
Yong Jia |
Peng He |
Zheng Gong |
| Chengdu University of Technology, China |
Chengdu University of Technology, China |
Chongqing University of Posts and Telecommunications, China |
University of Electronic Science and Technology of China, China |
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| Keywords: |
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- Molecular Communications (分子通信)
- IoBNT (生物纳米物联网)
- Bio-Nanosensing (生物纳米传感)
- Swarm Intelligence (群体智能)
- DNA Computing Comunications and Storage (DNA计算通信存储)
- Micro-Nanomachines (微纳机器人)
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| Topics: |
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- Molecular Communication (分子通信)
- Internet of Bio-Nano Things (IoBNT) (生物纳米物联网(IoBNT))
- Bio-Nano Sensing and Biosensing Networks (生物纳米传感与生物传感网络)
- DNA-Based Molecular Communication (基于DNA的分子通信)
- DNA Computing and DNA Data Storage (DNA计算与DNA数据存储)
- Swarm Intelligence and Nanorobot Swarms (群体智能与纳米机器人集群)
- Targeted Drug Delivery and Nano-Medicine Engineering (靶向药物递送与纳米医学工程)
- AI-Enabled IoBNT (AI赋能的生物纳米通信系统)
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| Summary: |
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- 本专题主要聚焦于分子通信(Molecular Communication, MC)、生物纳米物联网(IoBNT)、生物纳米传感以及基于DNA的分子通信等前沿方向。该领域的重要性在于,传统电磁通信在复杂生物环境和纳米尺度场景下面临传播损耗大、能量受限及生物兼容性不足等问题,而分子通信与生物纳米物联网为生物纳米设备、微纳机器人 与智能生物医学平台之间的信息交互提供了全新的解决方案,在靶向药物递送、体内健康监测、纳米网络及精准医疗等方面具有广阔应用前景。
本专题旨在促进分子通信、生物纳米传感及DNA通信系统的最新理论与实验研究成果交流,探讨当前生物纳米网络面临的关键挑战,推动跨学科合作,并进一步探索未来智能生物医学通信系统的发展方向与实际应用潜力。
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- This special session focuses on emerging advances in Molecular Communication (MC), the Internet of Bio-Nano Things (IoBNT), Bio-Nano Sensing, and DNA-based Molecular Communication. These topics are becoming increasingly important because conventional electromagnetic communication faces significant limitations in complex biological and nano-scale environments. MC and IoBNT provide a promising framework for enabling information exchange among nano-devices, biological systems, and intelligent biomedical platforms, with potential applications in targeted drug delivery, in-body healthcare monitoring, nano-networking, and precision medicine.
The expected outcomes include the exchange of recent theoretical and experimental advances, the discussion of open challenges in bio-nano networking, sensing, and DNA communication systems, and the promotion of interdisciplinary collaborations. The session also aims to identify future research directions and accelerate the development of practical and bio-realistic communication systems for next-generation intelligent biomedical applications.
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