Wander Queiroz scite author profile

A traffic matrix (TM) is a source of critical traffic throughput information for traffic engineering activities and network management tasks such as traffic prediction, capacity planning, network provisioning, and anomaly detection. However, estimating TM poses several challenges for network engineers. One of the challenges is that traffic data statistics are constantly changing, and their aggregation for real-time monitoring becomes a difficult task. This paper presents a near real-time TM estimation approach for OpenFlow (OF) networks. It makes use of Big Data techniques based on MapReduce operations to tackle the aggregation problem. The proposed method uses traffic data statistics collected from OF switches through an SDN controller as input and aggregates these data in a Big Data streaming processing environment. This paper explores the benefits of the distributed MapReduce computing model to provide an estimate of the TM for all origin-destination (OD) pairs of hosts in the network in two ways: 1) the accumulated throughput and 2) the throughput between two sequential TM estimates. This procedure enables network engineers to monitor the behavior and evolution of the throughput on each OD pair in the network and on each link in the path between each OD pair. The generated TM is persisted in a NoSQL database and can be made available for a variety of network traffic monitoring applications. The results of the simulations show the potential of the proposed MapReduce approach for TM estimation.

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A Blockchain Approach to Social Responsibility

Bedin

Queiroz

Capretz

et al. 2020

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As blockchain technology matures, more sophisticated solutions arise regarding complex problems. Blockchain continues to spread towards various niches such as government, IoT, energy, and environmental industries. One often overlooked opportunity for blockchain is the social responsibility sector. Presented in this paper is a permissioned blockchain model that enables enterprises to come together and cooperate to optimize their environmental and societal impacts. This is made possible through a private or permissioned blockchain. Permissioned blockchains are blockchain networks where all the participants are known and trust relationships among them can be fostered more smoothly. An example of what a permissioned blockchain would look like is described in this paper as well as its implementation, achieved using Hyperledger Fabric, which is a business-oriented blockchain framework. This study touches on the benefits available for companies that are willing to engage in socially responsible causes through blockchain. It states in what ways a permissioned blockchain can bring together businesses on common ground to increase their reach and provide better customer service. Finally, a use case is provided to bring to life a real-world situation where blockchain use improves service quality for all the parties involved, both the companies and their customers.

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Wander Queiroz

An approach for SDN traffic monitoring based on big data techniques

A MapReduce Approach for Traffic Matrix Estimation in SDN

A Blockchain Approach to Social Responsibility

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