Bioelectrical Impedance Analysis by Multiple Frequencies for Health Care Refrigerator

Ryu, Bo-Rim; Jeong, Haeseong; Ryu, Heung‐Gyoon

doi:10.2529/piers091107220431

Cited by 16 publications

(15 citation statements)

References 3 publications

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“…Each EVC is defined by an S-VLAN ID which offers the required slice isolation. [6], Ryu [7], Floodlight [8] and ONOS [9]. We selected OpenDaylight because it delivers production-level performance, supports open, multivendor networking and has a vast community of developers and strong industry support.…”

Section: B Q-in-q For Slicing In Wireless Backhaulmentioning

confidence: 99%

SDN/NFV-based end to end network slicing for 5G multi-tenant networks

Chartsias¹,

Amiras²,

Plevrakis³

et al. 2017

2017 European Conference on Networks and Communications (EuCNC)

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The concept of network slicing opens the possibilities to address the complex requirements of multitenancy in 5G. To this end, SDN/NFV can act as technology enabler. This paper presents a centralised and dynamic approach for creating and provisioning network slices for virtual network operators' consumption to offer services to their end customers, focusing on an SDN wireless backhaul use case. We demonstrate our approach for dynamic end-to-end slice and service provisioning in a testbed.

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Section: B Q-in-q For Slicing In Wireless Backhaulmentioning

confidence: 99%

SDN/NFV-based end to end network slicing for 5G multi-tenant networks

Chartsias¹,

Amiras²,

Plevrakis³

et al. 2017

2017 European Conference on Networks and Communications (EuCNC)

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“…In addition, a second workstation hosts the open source Ryu [11] OpenFlow controller, which is connected to a WAN port that is not terminated on the hardware switch of the NXP board. For our tests, we used the L2 learning switch application, which reads the source MAC addresses of the received packets (sent to the OpenFlow controller using Packet-in messages) and installs a new forwarding rule in the hardware switch as soon as a new MAC address is recognized.…”

Section: A Experiments Setupmentioning

confidence: 99%

Partial offloading of OpenFlow rules on a traditional hardware switch ASIC

Miano

Risso

Woesner³

2017

2017 IEEE Conference on Network Softwarization (NetSoft)

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OpenFlow represents a new powerful paradigm that combines the flexibility of the software with the efficiency of a programmable hardware switch. However, such an approach is currently reserved for new hardware devices, specifically engineered for this paradigm. This paper presents our experience and findings about selectively offloading OpenFlow rules into a non-OpenFlow compatible hardware switch silicon, which enables existing (legacy) hardware ASICs to become compatible with the SDN paradigm. We describe our solution that transparently offloads the portion of OpenFlow rules supported by the hardware while keeping in software the remaining ones, and that is able to support the presence of multiple hardware tables although with limited capabilities in terms of matches and actions. Moreover, we illustrate the design choices used to implement all the basic functionalities required by the OpenFlow protocol (e.g., packet-in, packet-out messages) and then we demonstrate the considerable advantage in terms of performance that can be obtained by performing switching in hardware, while maintaining an SDNtype ability to program and to instantiate desired network operations from a central controller. Index Terms-Software Defined Networks, OpenFlow, Hardware Offloading.

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“…Este controlador también admite completamente las versiones 1.0, 1.1, 1.2, 1.3, 1.4 y 1.5 de OpenFlow [34]. Al ser una herramienta de código libre, cuenta con diferentes comunidades de ayuda como el Mailing List [35], manejo de repositorio de código fuente libre GitHub [36] y varios libros con información para el desarrollo de nuevas aplicaciones y el uso de las que incorpora de manera predeterminada.…”

Section: Controlador Ryuunclassified

“…Documentación como [52] publicada por RYU, las comunidades de ayuda en línea mediante el Mailing List [35] y el manejo de repositorio de código fuente libre GitHub [36] son algunas de las características que demuestran que el controlador RYU representa una gran oportunidad para la evaluación y despliegue de Redes Definidas por Software. En trabajos como [4], [53] y [54], se evidencian ejemplos de su uso y aportes específicos en el desarrollo y avance de este nuevo paradigma.…”

Section: Conclusionesunclassified

Uso de Mininet y Openflow 1.3 para la enseñanza e investigación en redes IPv6 definidas por software

et al. 2017

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Las redes definidas por software (SDN) son un nuevo paradigma en redes de datos que separan el plano de control del plano de datos, dicha separación proporciona grandes ventajas asociadas con el control y la gestión de redes; estas redes abren muchas oportunidades en investigación para proponer soluciones a los problemas existentes. Por otro lado, IPv6 es el protocolo de nueva generación y de la futura infraestructura global de Internet. El objetivo principal de este artículo es presentar una metodología sencilla para la emulación de una SDN configurada con el protocolo IPv6, usando OpenFlow 1.3 y el controlador RYU mediante la herramienta Mininet; esta combinación facilita la enseñanza e investigación en esta área. Para este propósito, en este documento se describe las características importantes de IPv6, SDNs el protocolo OpenFlow 1.3 y el controlador RYU. Además se describen los requerimientos y recomendaciones fundamentales para dicha emulación, y se presentan los resultados de pruebas sencillas con el fin de verificar la conectividad, transferencia de datos y operación sobre una topología de prueba.

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Bioelectrical Impedance Analysis by Multiple Frequencies for Health Care Refrigerator

Cited by 16 publications

References 3 publications

SDN/NFV-based end to end network slicing for 5G multi-tenant networks

SDN/NFV-based end to end network slicing for 5G multi-tenant networks

Partial offloading of OpenFlow rules on a traditional hardware switch ASIC

Uso de Mininet y Openflow 1.3 para la enseñanza e investigación en redes IPv6 definidas por software

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