纳米机器人通信技术:综合教程

2006 9th International Conference on Control, Automation, Robotics and Vision Pub Date : 2006-12-01 DOI:10.1109/ICARCV.2006.345457

A. Cavalcanti, T. Hogg, B. Shirinzadeh, H. C. Liaw

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引用次数: 59

摘要

这项工作提出了纳米机器人在与医疗应用相关的流体环境中觅食的化学通信技术。与大型机器人不同，粘性力和快速扩散主导着它们的行为。例子范围从改良微生物到纳米机器人，使用分子计算、传感器和马达的持续发展。纳米机器人使用一种创新的方法来实现分散控制，以对抗癌症的分布式集体行动。在识别小静脉中的单个肿瘤细胞作为医学治疗目标的背景下，描述了一种通信方法。因此，利用更高梯度的E-cadherin信号强度作为化学参数识别，指导纳米机器人识别恶性组织。纳米机器人可以有效地利用化学通讯来缩短干预时间以识别肿瘤细胞

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Nanorobot Communication Techniques: A Comprehensive Tutorial

This work presents chemical communication techniques for nanorobots foraging in fluid environments relevant for medical applications. Unlike larger robots, viscous forces and rapid diffusion dominate their behaviors. Examples range from modified microorganisms to nanorobots using ongoing developments in molecular computation, sensors and motors. The nanorobots use an innovative methodology to achieve decentralized control for a distributed collective action in the combat of cancer. A communication approach is described in the context of recognize a single tumor cell in a small venule as a target for medical treatment. Thus, a higher gradient of signal intensity of E-cadherin is used as chemical parameter identification in guiding nanorobots to identify malignant tissues. A nanorobot can effectively use chemical communication to improve intervention time to identify tumor cells

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2006 9th International Conference on Control, Automation, Robotics and Vision

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