Dynamic channel allocation in electromagnetic nanonetworks for high resolution monitoring of plants

Afsharinejad, Armita; Davy, Alan; Jennings, Brendan

doi:10.1016/j.nancom.2015.01.001

Cited by 37 publications

(23 citation statements)

References 40 publications

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“…c) Agriculture/Industry Monitoring: Fig. 4 shows an example of using nanonetworks for crop-monitor [55]. Since the plants would release typical chemical compound which would be used to analyse the environment conditions and plant growth condition.…”

Section: B Applications Of Nanonetworkmentioning

confidence: 99%

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A Comprehensive Survey on Hybrid Communication in Context of Molecular Communication and Terahertz Communication for Body-Centric Nanonetworks

Yang

Deng

et al. 2020

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

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Section: B Applications Of Nanonetworkmentioning

confidence: 99%

“…Since the plants would release typical chemical compound which would be used to analyse the environment conditions and plant growth condition. The structure of such monitor network is described in [55], shown in Fig. 4a.…”

Section: B Applications Of Nanonetworkmentioning

confidence: 99%

A Comprehensive Survey on Hybrid Communication in Context of Molecular Communication and Terahertz Communication for Body-Centric Nanonetworks

Yang

Deng

et al. 2020

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

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“…the lines obtained when one of the coordinates is kept constant) are confocal ellipses and hyperbolas. Coordinates (x, y) in SLR system of origins A 1 (0, 0, a) and A 2 (0, 0, −a) can be obtained from elliptic coordinates (u, v) as follows: (x, y) = (a(u + v), a(u − v)) (1) and reciprocally:…”

Section: Localization-coordinate Systems For Wireless Networkmentioning

confidence: 99%

Packet routing in 3D nanonetworks: A lightweight, linear-path scheme

Tsioliaridou

Liaskos

Dedu

et al. 2017

Nano Communication Networks

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Packet routing in nanonetworks requires novel approaches, which can cope with the extreme limitations posed by the nano-scale. Highly lossy wireless channels, extremely limited hardware capabilities and non-unique node identifiers are among the restrictions. The present work offers an addressing and routing solution for static 3D nanonetworks that find applications in material monitoring and programmatic property tuning. The addressing process relies on virtual coordinates from multiple, alternative anchor point sets that act as viewports. Each viewport offers different address granularity within the network space, and its selection is optimized by a packet sending node using a novel heuristic. Regarding routing, each node can deduce whether it is located on the linear segment connecting the sender to the recipient node. This deduction is made using integer calculations, node-local information and in a stateless manner, minimizing the computational and storage overhead of the proposed scheme. Most importantly, the nodes can regulate the width of the linear path, thus trading energy efficiency (redundant transmissions) for increased path diversity. This trait can enable future adaptive routing schemes. Extensive evaluation via simulations highlights the advantages of the novel scheme over related approaches.

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“…One possibility to accelerate the corresponding process is to use a second communication channel at a lower frequency allowing antennas with larger beamwidths to have a rough estimation of the positions of TX and RX.ȃ First simulation-based studies of such concepts applied to simple environments have been published in [31]. Due to the impact of atmospheric absorption across the THz spectrum, optimal frequency selection strategies in a frequency division medium access regime can reduce path loss and improve throughput [32].…”

Section: F Demonstration Of Novel Higher Layer Thz Communications Prmentioning

confidence: 99%

Building an end user focused THz based ultra high bandwidth wireless access network: The TERAPOD approach

Davy

Pessoa²,

Renaud

et al. 2017

2017 9th International Congress on Ultra Modern Telecommunications and Control Systems and Workshops (ICUMT)

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Abstract-The TERAPOD project aims to investigate and demonstrate the feasibility of ultra high bandwidth wireless access networks operating in the Terahertz (THz) band. The proposed TERAPOD THz communication system will be developed, driven by end user usage scenario requirements and will be demonstrated within a first adopter operational setting of a Data Centre. In this article, we define the full communications stack approach that will be taken in TERAPOD, highlighting the specific challenges and aimed innovations that are targeted.

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Dynamic channel allocation in electromagnetic nanonetworks for high resolution monitoring of plants

Cited by 37 publications

References 40 publications

A Comprehensive Survey on Hybrid Communication in Context of Molecular Communication and Terahertz Communication for Body-Centric Nanonetworks

A Comprehensive Survey on Hybrid Communication in Context of Molecular Communication and Terahertz Communication for Body-Centric Nanonetworks

Packet routing in 3D nanonetworks: A lightweight, linear-path scheme

Building an end user focused THz based ultra high bandwidth wireless access network: The TERAPOD approach

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