Capacity and throughput analysis of nanoscale machine communication through transparency windows in the terahertz band

Boronin, P.; Petrov, Vitaly; Moltchanov, Dmitri; Koucheryavy, Yevgeni; Jornet, Josep Miquel

doi:10.1016/j.nancom.2014.06.001

Cited by 120 publications

(62 citation statements)

References 15 publications

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“…where N + N is the sum of two discrete random variables representing the number of interfering vehicles whose mass function has been obtained in (39). Taking expectations from the both sides of (42) the mean interference created by LoS components is readily given by …”

Section: B Stochastic (Urban) Scenario Analysismentioning

confidence: 99%

The Impact of Interference From the Side Lanes on mmWave/THz Band V2V Communication Systems With Directional Antennas

Petrov

Kokkoniemi

Moltchanov

et al. 2018

IEEE Trans. Veh. Technol.

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Abstract-Communications systems operating in the millimeter-wave (mmWave) and terahertz band have been recently suggested to enable high data-rate vehicle-tovehicle communications in 5G and beyond wireless networks. However, massive deployment of such systems may lead to significant interference, affecting the performance of information transmission. While the multipath interference caused by the signal reflections from the road has been extensively discussed in literature, the interference caused by the vehicles on the side lanes has been insufficiently studied so far. In this paper, using a combination of measurement, simulation, and analytical methods we comprehensively characterize the interference from the side lanes in two typical deployments including highway and urban road environments for millimeter-wave and low terahertz bands. Both the multipath interference and direct interference from the transmitting vehicles on the side lanes is taken into account. As a result of our study, we reveal that: i) the interference from the side lanes can be well approximated using two-dimensional stochastic models without any significant loss of accuracy; and ii) even when highly directional antennas are used there are special spatial configurations, where the interference may greatly affect the performance of the communication systems. We lately apply the developed models to estimate the signal-to-interference ratio and link capacity of mmWave/THz band V2V communications.

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Section: B Stochastic (Urban) Scenario Analysismentioning

confidence: 99%

The Impact of Interference From the Side Lanes on mmWave/THz Band V2V Communication Systems With Directional Antennas

Petrov

Kokkoniemi

Moltchanov

et al. 2018

IEEE Trans. Veh. Technol.

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“…Both nanoantennae (CNTs and nanoribbons) are able to radiate in the terahertz band for an antenna length equal to 1 µm. The resonant frequency of the nanoribbon is, however, slightly lower than that for the CNT, which is an advantage to achieve less propagation losses [66]. …”

Section: Technical Backgroundmentioning

confidence: 99%

Conceptual Design of a Nano-Networking Device

Canovas-Carrasco

García-Sánchez

García‐Sánchez

et al. 2016

Sensors

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Nanotechnology is an emerging scientific area whose advances, among many others, have a positive direct impact on the miniaturization of electronics. This unique technology enables the possibility to design and build electronic components as well as complete devices (called nanomachines or nanodevices) at the nano scale. A nanodevice is expected to be an essential element able to operate in a nanonetwork, where a huge number of them would coordinate to acquire data, process the information gathered, and wirelessly transmit those data to end-points providing innovative services in many key scenarios, such as the human body or the environment. This paper is aimed at studying the feasibility of this type of device by carefully examining their main component parts, namely the nanoprocessor, nanomemory, nanoantenna, and nanogenerator. To this end, a thorough state-of-the-art review is conveyed to discuss, substantiate, and select the most suitable current technology (commercial or pre-commercial) for each component. Then, we further contribute by developing a complete conceptual nanodevice layout taking into consideration its ultra-small size (similar to a blood cell) and its very restricted capabilities (e.g., processing, memory storage, telecommunication, and energy management). The required resources as well as the power consumption are realistically estimated.

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“…Согласно имеющимся оценкам, емкость такого канала связи может достигать десятков терабит в секунду на дистанциях в несколько миллиметров [11]. Используя поддиапа-зон частот 0,1-0,54 ТГц и всего лишь 1·10 -19 Дж энергии на символ, можно достигнуть пропускной спо-собности в 2 Тбит/с на дистанциях до 3 см [12], что сопоставимо с физическим размером современных процессоров. Если учитывать только затраты на передачу непосредственно данных, то одна линия кэша в 64 Б может быть передана по терагерцовому каналу всего за 0,26 нс, что даже меньше, чем задержка при обращении к кэшу первого уровня в существующих процессорах (около 2 нс).…”

Section: модель взаимодействия между кэш-памятью второго и третьего уunclassified

Centralized MAC protocol for hierarchical caching processors

Antonov¹,

Ключев²,

Komar³

et al. 2015

Naučno-teh. vestn. inf. tehnol. meh. opt.

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Capacity and throughput analysis of nanoscale machine communication through transparency windows in the terahertz band

Cited by 120 publications

References 15 publications

The Impact of Interference From the Side Lanes on mmWave/THz Band V2V Communication Systems With Directional Antennas

The Impact of Interference From the Side Lanes on mmWave/THz Band V2V Communication Systems With Directional Antennas

Conceptual Design of a Nano-Networking Device

Centralized MAC protocol for hierarchical caching processors

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