Nanosensor location in the human circulatory system based on electric circuit representation of vessels

Gómez, Jorge Torres; Rios, Jorge Luis Gonzalez; Dressler, Falko

doi:10.1145/3558583.3558818

Cited by 5 publications

(4 citation statements)

References 13 publications

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“…Generally speaking, there is an inherent trade-off between the accuracy and complexity of the model. While some work [20], [21] deal with accurately modeling the spread of molecules over straight ducts of different shapes, other works aim at the prediction of flow rates in large-scale systems like the human body [22], the effect of branches and turning microfluidic channels [23] or the effects of fluid flow and the microfluidic channel parameters on molecular transport [24]. Nevertheless, the governing equations are the same for all cases and we introduce them in the following.…”

Section: Fundamental Microfluidic Principlesmentioning

confidence: 99%

“…Furthermore, all works assume, that the velocity might be a function of the position perpendicular to the direction of flow, but not of the axial location in the duct. However, while [20], [21], [26] use the actual flow field u(r), where r is a vector indicating the spatial position, to incorporate in their further models, [22], [27], [28] use the average flow velocity. The average flow velocity is given by u = 1 A duct A duct u(r)d A, where A duct represents the duct cross-section.…”

Section: Fundamental Microfluidic Principlesmentioning

confidence: 99%

See 1 more Smart Citation

Microfluidic Systems for Molecular Communications: A Review From Theory to Practice

Hamidović,

Angerbauer,

et al. 2024

IEEE Trans. Mol. Biol. Multi-Scale Commun.

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The paper presents the significance of microfluidic technology in advancing Molecular Communications (MC). It highlights the transition from theoretical MC models to practical applications, emphasizing the role of microfluidics in validating and advancing MC concepts. The paper covers various aspects including theoretical principles, simulation tools, practical realizations, and envisioned applications. We also present various microfluidic testbeds, detailing their design, capabilities, and applications in advancing MC. To bridge the gap between theoretical models and practical outcomes in MC, this work demonstrates the potential of microfluidics in the practical realization of MC systems.

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Section: Fundamental Microfluidic Principlesmentioning

confidence: 99%

Section: Fundamental Microfluidic Principlesmentioning

confidence: 99%

Microfluidic Systems for Molecular Communications: A Review From Theory to Practice

Hamidović,

Angerbauer,

et al. 2024

IEEE Trans. Mol. Biol. Multi-Scale Commun.

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“…The authors suggested that the proposed design can take advantage of the large number of nanonodes, surpassing the limitations of limited range of THz in-body propagation and severely confined nanonodes. Moreover, in [86], [87], the authors explore the potential for flowing nanosensors in the blood flow to identify and localize and report anomalies in the human body. This work focuses on the identification of quorum sensing molecules and evaluate their performance.…”

Section: Local Trust Zonesmentioning

confidence: 99%

Localization as a key enabler of 6G wireless systems: A comprehensive survey and an outlook

Trevlakis¹,

Boulogeorgos²,

Pliatsios³

et al. 2023

Preprint

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<p>When fully implemented, sixth generation (6G) wireless systems will constitute intelligent wireless networks that enable not only ubiquitous communication but also high-accuracy localization services. They will be the driving force behind this transformation by introducing a new set of characteristics and service capabilities in which location will coexist with communication while sharing available resources. To that purpose, this survey investigates the envisioned applications and use cases of localization in future 6G wireless systems, while analyzing the impact of the major technology enablers. Afterwards, system models for millimeter wave, terahertz and visible light positioning that take into account both line-of-sight (LOS) and non-LOS channels are presented, while localization key performance indicators are revisited alongside mathematical definitions. Moreover, a detailed review of the state of the art conventional and learningbased localization techniques is conducted. Furthermore, the localization problem is formulated, the wireless system design is considered and the optimization of both is investigated. Finally, insights that arise from the presented analysis are summarized and used to highlight the most important future directions for localization in 6G wireless systems.</p>

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“…The authors suggested that the proposed design can take advantage of the large number of nanonodes, surpassing the limitations of limited range of THz in-body propagation and severely confined nanonodes. Moreover, in [91], [92], the authors explore the potential for flowing nanosensors in the blood flow to identify and localize and report anomalies in the human body. This work focuses on the identification of quorum sensing molecules and evaluate their performance.…”

Section: ) Nanoscale Localizationmentioning

confidence: 99%

Localization as a Key Enabler of 6G Wireless Systems: A Comprehensive Survey and an Outlook

Trevlakis,

Boulogeorgos,

Pliatsios

et al. 2023

IEEE Open J. Commun. Soc.

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When fully implemented, sixth generation (6G) wireless systems will constitute intelligent wireless networks that enable not only ubiquitous communication but also high-accuracy localization services. They will be the driving force behind this transformation by introducing a new set of characteristics and service capabilities in which location will coexist with communication while sharing available resources. To that purpose, this survey investigates the envisioned applications and use cases of localization in future 6G wireless systems, while analyzing the impact of the major technology enablers. Afterwards, system models for millimeter wave, terahertz and visible light positioning that take into account both line-of-sight (LOS) and non-LOS channels are presented, while localization key performance indicators are revisited alongside mathematical definitions. Moreover, a detailed review of the state of the art conventional and learning-based localization techniques is conducted. Furthermore, the localization problem is formulated, the wireless system design is considered and the optimization of both is investigated. Finally, insights that arise from the presented analysis are summarized and used to highlight the most important future directions for localization in 6G wireless systems.

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Nanosensor location in the human circulatory system based on electric circuit representation of vessels

Cited by 5 publications

References 13 publications

Microfluidic Systems for Molecular Communications: A Review From Theory to Practice

Microfluidic Systems for Molecular Communications: A Review From Theory to Practice

Localization as a key enabler of 6G wireless systems: A comprehensive survey and an outlook

Localization as a Key Enabler of 6G Wireless Systems: A Comprehensive Survey and an Outlook

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