Use of a Sprayed Fibrin Hemostatic Sealant after Laser Therapy for Hereditary Hemorrhagic Telangiectasia Epistaxis

With the explosive growth of mobile data demand, the fifth generation (5G) mobile network would exploit the enormous amount of spectrum in the millimeter wave (mmWave) bands to greatly increase communication capacity. There are fundamental differences between mmWave communications and existing other communication systems, in terms of high propagation loss, directivity, and sensitivity to blockage. These characteristics of mmWave communications pose several challenges to fully exploit the potential of mmWave communications, including integrated circuits and system design, interference management, spatial reuse, anti-blockage, and dynamics control. To address these challenges, we carry out a survey of existing solutions and standards, and propose design guidelines in architectures and protocols for mmWave communications. We also discuss the potential applications of mmWave communications in the 5G network, including the small cell access, the cellular access, and the wireless backhaul. Finally, we discuss relevant open research issues including the new physical layer technology, software-defined network architecture, measurements of network state information, efficient control mechanisms, and heterogeneous networking, which should be further investigated to facilitate the deployment of mmWave communication systems in the future 5G networks.

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Security of the Internet of Things: perspectives and challenges

Jing

et al. 2014

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A survey on trust management for Internet of Things

Yan

Zhang

Vasilakos

2014

Journal of Network and Computer Applications

885

411

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A survey on the ietf protocol suite for the internet of things: standards, challenges, and opportunities

Sheng

Yang

et al. 2013

IEEE Wireless Commun.

653

344

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Technologies to support the Internet of Things are becoming more important as the need to better understand our environments and make them smart increases. As a result it is predicted that intelligent devices and networks, such as WSNs, will not be isolated, but connected and integrated, composing computer networks. So far, the IP-based Internet is the largest network in the world; therefore, there are great strides to connect WSNs with the Internet. To this end, the IETF has developed a suite of protocols and open standards for accessing applications and services for wireless resource constrained networks. However, many open challenges remain, mostly due to the complex deployment characteristics of such systems and the stringent requirements imposed by various services wishing to make use of such complex systems. Thus, it becomes critically important to study how the current approaches to standardization in this area can be improved, and at the same time better understand the opportunities for the research community to contribute to the IoT field. To this end, this article presents an overview of current standards and research activities in both industry and academia

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Big data analytics: a survey

Tsai

Lai

Chao

et al. 2015

Journal of Big Data

532

295

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Molecular Communication and Networking: Opportunities and Challenges

Nakano

Moore

Wei

et al. 2012

IEEE Trans.on Nanobioscience

500

300

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The ability of engineered biological nanomachines to communicate with biological systems at the molecular level is anticipated to enable future applications such as monitoring the condition of a human body, regenerating biological tissues and organs, and interfacing artificial devices with neural systems. From the viewpoint of communication theory and engineering, molecular communication is proposed as a new paradigm for engineered biological nanomachines to communicate with the natural biological nanomachines which form a biological system. Distinct from the current telecommunication paradigm, molecular communication uses molecules as the carriers of information; sender biological nanomachines encode information on molecules and release the molecules in the environment, the molecules then propagate in the environment to receiver biological nanomachines, and the receiver biological nanomachines biochemically react with the molecules to decode information. Current molecular communication research is limited to small-scale networks of several biological nanomachines. Key challenges to bridge the gap between current research and practical applications include developing robust and scalable techniques to create a functional network from a large number of biological nanomachines. Developing networking mechanisms and communication protocols is anticipated to introduce new avenues into integrating engineered and natural biological nanomachines into a single networked system. In this paper, we present the state-of-the-art in the area of molecular communication by discussing its architecture, features, applications, design, engineering, and physical modeling. We then discuss challenges and opportunities in developing networking mechanisms and communication protocols to create a network from a large number of bio-nanomachines for future applications.

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Full duplex techniques for 5G networks: self-interference cancellation, protocol design, and relay selection

et al. 2015

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Athanasios V. Vasilakos

Body Area Networks: A Survey

A survey of millimeter wave communications (mmWave) for 5G: opportunities and challenges

Security of the Internet of Things: perspectives and challenges

A survey on trust management for Internet of Things

A survey on the ietf protocol suite for the internet of things: standards, challenges, and opportunities

Big data analytics: a survey

Molecular Communication and Networking: Opportunities and Challenges

Full duplex techniques for 5G networks: self-interference cancellation, protocol design, and relay selection

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