基于卡尔曼滤波的纳米生物医学体内纳米游泳者跟踪系统模型

2019 IEEE 13th International Conference on Nano/Molecular Medicine & Engineering (NANOMED) Pub Date : 2019-11-01 DOI:10.1109/NANOMED49242.2019.9130610

Zheng Gong, Yifan Chen, Shaolong Shi, Xiaoyou Lin, M. Cree, Neda Sharifi

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引用次数: 3

摘要

我们提出了一个新的框架来跟踪纳米游泳分子，用于癌症检测和微尺度下的靶向药物递送。该框架包括一个新的多模态复杂血管拓扑模型来模拟人体内的真实血管系统，以及一个能够在体内环境中跟踪纳米游泳者的有效系统模型。多模态血管模型由三个连续的子网络组成，分别代表正常动脉、正常皮下毛细血管和肿瘤血管，旨在建立肿瘤的运动轨迹。所提出的基于卡尔曼滤波的跟踪系统模型能够将各种噪声源引起的噪声显著降低约51.3% ~ 75%，从而提供准确的纳米游泳者位置信息。

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System Model for Tracking In Vivo Nanoswimmers Using Kalman Filter for Nanobiomedicine

We propose a new framework of tracking nanoswimmers for cancer detection and targeted drug delivery in microscale scenarios. The framework includes a novel multimodal complex vascular topological model to emulate the real vasculature inside the human body, and an efficient system model that is able to track nanoswimmers in an in vivo environment. The multimodal vascular model consists of three consecutive subnetworks to represent normal arteries, normal subcutaneous capillaries and tumor vasculature, aiming for setting up the trajectories towards tumors. The proposed tracking system model, based on Kalman filters, very significantly decreases the noise induced by a variety of sources by approximately 51.3%-75% to provide accurate position information of the nanoswimmers.

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来源期刊

2019 IEEE 13th International Conference on Nano/Molecular Medicine & Engineering (NANOMED)

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