Javier Silvestre-Blanes scite author profile

Software Defined Networks (SDN) have become a new way to make dynamic topologies. They have great potential in both the creation and development of new network protocols and the inclusion of distributed artificial intelligence in the network. There are few emulators, like Mininet, that allow emulating a SDN in a single personal computer, but there is lack of works showing its performance and how it performs compared with real cases. This paper shows a performance comparison between Mininet and a real network when multimedia streams are being delivered. We are going to compare them in terms of consumed bandwidth (throughput), delay and jitter. Our study shows that there are some important differences when these parameters are compared. We hope that this research will be the basis to show the difference with real deployments when Mininet is used.Keywords: Multimedia delivery; Multimedia streaming; Software Defined Networks (SDNs); Mininet.www.macrothink.org/npa 37 Network Protocols and Algorithms ISSN 1943-3581 2015 IntroductionDue to the substantial improvement in terms of hardware and software for computer networks and also the number of network devices available around the world, the interconnections of devices as well as the network complexity have increased. This fact has also enhanced the way we currently process the information transmitted through the network. Over the past 30 years, the Internet Engineering Task Force (IETF) has developed and built around 5500 Request for Comments (RFC) [1]. Nowadays, Internet and other networks are able to offer huge amount of functionalities suited to the requirements of users.In general, network devices perform two main functions, i.e., the transport function and the control function. On the one hand, the transport function (data plane) that is in charge of sending data through the routes previously calculated. This function is normally performed by specialized circuits known as Application Specific Integrated Circuits (ASICs). The control function (control plane) manages the transport operation thanks to the exchanged information between network devices and the calculation of optimal routes. This allows each device to independently treat the traffic. Network administrators have available few resources to manage and increase the efficiency of the data flows.A professional of networks often finds a big challenge the fact of configuring a network and installing the needed network elements to work properly. Due to the services and the features required by the applications currently require, it is possible to increase the network efficiency if we try to manage jointly the entire network. In this way, there appears the need of developing a new technology to reduce the costs and increase the efficiency by automating policy-based flows.Software-Defined networking (SDN) is a new approach for designing, building, and managing networks that separates the network's control and forwarding planes of a better network optimization [2]. The SDN architecture decouples the netw...

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A Public Fabric Database for Defect Detection Methods and Results

Silvestre-Blanes

Albero-Albero

Miralles

et al. 2019

110

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The use of image processing for the detection and classification of defects has been a reality for some time in science and industry. New methods are continually being presented to improve every aspect of this process. However, these new approaches are applied to a small, private collection of images, which makes a real comparative study of these methods very difficult. The objective of this paper was to compile a public annotated benchmark, that is, an extensive set of images with and without defects, and make these public, to enable the direct comparison of detection and classification methods. Moreover, different methods are reviewed and one of these is applied to the set of images; the results of which are also presented in this paper.

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A Joining Procedure and Synchronization for TSCH-RPL Wireless Sensor Networks

Vera-Pérez

Todolí-Ferrandis

Climent

et al. 2018

Sensors

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Wireless Sensor Networks have become a key enabler for Industrial Internet of Things (IoT) applications; however, to adapt to the derived robust communication requirements, deterministic and scheduled medium access should be used, along with other features, such as channel hopping and frequency diversity. Implementing these mechanisms requires a correct synchronization of all devices in the network, a stage in deployment that can lead to non-operational networks. The present article presents an analysis of such situations and possible solutions, including the common current approaches and recommendations, and proposes a new beacon advertising method based on a specific Trickle Timer for the Medium Access Control (MAC) Time-Slotted Channel Hopping (TSCH) layer, decoupling from the timers in the network and routing layers. With this solution, improvements in connection success, time to join, and energy consumption can be obtained for the widely extended IEEE802.15.4e standard.

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