Nano Communication Networks
期刊基本信息
期刊名称:Nano Communication Networks
是否OA:No
期刊ISSN:1878-7789
涉及的研究方向:-
期刊数据表:
最新中科院JCR分区
|
大类(学科)
小类(学科)
JCR学科排名
工程技术
ENGINEERING, ELECTRICAL & ELECTRONIC(工程学,电气和电子) 3区
NANOSCIENCE & NANOTECHNOLOGY(纳米科学和纳米技术) 4区
TELECOMMUNICATIONS(电信) 3区
119/260
62/92
39/87
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最新的影响因子
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2.621 | |||||||
最新公布的期刊年发文量 |
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总被引频次 | 378 | |||||||
特征因子 | 0.000400 |
Nano Communication Networks英文简介:
The Nano Communication Networks Journal is an international, archival and multi-disciplinary journal providing a publication vehicle for complete coverage of all topics of interest to those involved in all aspects of nanoscale communication and networking. Theoretical research contributions presenting new techniques, concepts or analyses; applied contributions reporting on experiences and experiments; and tutorial and survey manuscripts are published.Nano Communication Networks is a part of the COMNET (Computer Networks) family of journals within Elsevier. The family of journals covers all aspects of networking except nanonetworking, which is the scope of this journal. Created in 2010, NANOCOMNET has four planned issues per year. In early 2016, the journal has been accepted by Thompson Reuters to have SCIE/ISI status, matching the status of the rest of the COMNET family.Topics of interest include but are not limited to:Molecular Communication•Passive Molecular Communication systems, including short-range molecular diffusion, guided molecular diffusion (e.g. circulatory systems communications, microfluidic communications), ion signaling, and pheromone communications.•Active Molecular Communication systems, such as molecular motors, bacteria-based nanonetworks.•Brain networks, neural circuits and nervous systems communications.•Synthetic biology for Molecular Communication development.Electromagnetic Nanoscale Communication•Plasmonic and nanophotonic devices for THz and optical communication based on nanomaterials (e.g., graphene) and metamaterials, including compact signal sources, modulators/demodulators, detectors and antennas and antenna arrays.•Ultra-broadband and Terahertz communications, with applications at the nano-, micro- and macro-scales.•Nanophotonic wired and wireless communications at infra-red, visible and ultra-violet spectrum ranges.Other nanoscale communication paradigms•Nano Communication for bio-therapeutic devices.•Quantum communications.•Ultrasonic communications.Nano communication engineering and networking•Architectures and systems for Nano Communications.•Propagation and channel modeling for Nano Communications.•Information Theory of Nano Communications.•Communication protocols for Nano networks.•Security in Nano Communications.•Energy models for Nano Communications.•Software-Defined Nanonetworks.Nano Communication experimental and simulation platforms•Tools for modeling and simulating Nano Communication Networks.•Wet lab experimental platforms for Molecular Communications.•New fabrication and assembly techniques for Electromagnetic nanoscale devices.•Synthetic Biology toolsets for engineering Molecular Communications (e.g. Openwetware, CRISPR).Applications of Nano Communications and networks•Internet of Nano Things and the Internet of Bio-Nano Things.•Network on Chip including RF and optical interconnects, as well as network architectures and topologies.•Nano-Sensor and Nano-Actuator Networks.•Nanomedicine applications: disease localization, targeted drug delivery, tissue engineering.
Nano Communication Networks中文简介:
《纳米通信网络杂志》是一本国际性、档案性和多学科期刊,它为涉及纳米通信和网络各个方面的人提供了一个完全覆盖所有感兴趣主题的出版工具。发表了理论研究贡献、新技术、新概念或新分析;应用贡献、经验和实验报告;指导和调查手稿。纳米通信网络是爱思唯尔的计算机网络期刊系列的一部分。杂志系列涵盖了网络的所有方面,除了纳米网络,这是本杂志的范围。创建于2010年的纳米Comnet每年有四个计划问题。2016年初,汤普森路透社(Thompson Reuters)接受了该期刊的SCIE/ISI地位,与Comnet家族其他成员的地位相匹配。感兴趣的主题包括但不限于:分子通讯•被动分子通信系统,包括短程分子扩散、引导分子扩散(例如循环系统通信、微流体通信)、离子信号和信息素通信。•活性分子通信系统,如分子马达、基于细菌的纳米网络。•大脑网络、神经回路和神经系统通信。•分子通信发展的合成生物学。电磁纳米通信•用于THZ和基于纳米材料(例如石墨烯)和超材料的光通信的等离子体和纳米光子器件,包括紧凑型信号源、调制器/解调器、探测器和天线以及天线阵列。•超宽带和太赫兹通信,应用于纳米、微和宏观范围。•红外、可见光和紫外线范围内的纳米光子有线和无线通信。其他纳米通信范例•生物治疗设备的纳米通信。•量子通信。•超声波通讯。纳米通信工程与网络•用于纳米通信的体系结构和系统。•纳米通信的传播和信道建模。•纳米通信的信息理论。•纳米网络通信协议。•纳米通信的安全性。•纳米通信的能源模型。•软件定义的纳米网络。纳米通信实验与仿真平台•建模和模拟纳米通信网络的工具。•分子通信湿实验室实验平台。•电磁纳米器件的新制造和组装技术。•用于工程分子通信的合成生物学工具集(如OpenWetware、Crispr)。纳米通信和网络的应用•纳米物联网和生物纳米物联网。•片上网络,包括射频和光学互连,以及网络架构和拓扑结构。•纳米传感器和纳米执行器网络。•纳米医学应用:疾病定位、靶向药物输送、组织工程。
历年影响因子
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