Performance Analysis of RR and FQ Algorithms in Reconfigurable Routers

Currently, we are witnessing a trend in network routers to include reconfigurable hardware structures to provide flexibility at improved performance levels when compared to software-only implementations. This permits the run-time reconfiguration of the hardware resources, i.e., to change their functionality (for example, from one scheduling algorithm to another), to adapt to changing network scenarios. In particular, different scheduling algorithms are more efficient in handling a specific mix of incoming packet traffic in terms of various criteria (e.g., delay, jitter, throughput, and packet loss). Therefore, reconfigurable hardware is able to provide improved performance levels and to allow more efficient algorithms to be utilized when different incoming packet traffic patterns are encountered. This project investigates the possibilities to improve upon end-to-end delays, jitter, throughput, and packet loss by exploiting the availability of a flexible hardware structure such as an field-programmable gate array (FPGA). The aim of the project is to provide an overview on adaptive scheduling using reconfigurable hardware. Consequently, we investigate different scheduling algorithms that provide QoS provisioning for traffic streams that are sensitive to packet delay and jitter, e.g., mpeg video traffic. The investigation utilizes the NS-2 simulator for which we generate realistic network scenarios. Our approach is based on understanding which kind of traffic is passing in the network, and subsequently change the scheduling algorithm accordingly in the core router to meet specific performance requirements. The investigated scheduling algorithms are taken from two well-known families, i.e., Round Robin (RR) and Fair Queuing (FQ). Our investigation confirmed the idea on the behavior of the two investigated scheduling algorithm: WFQ outperforms WRR in terms of end-to-end delay, jitter and throughput but it is more expensive than it at a computational level. Nonetheless, it is possible to find a tradeoff between the required area in FPGA and the level of performance desired for a kind of stream

Network emulation focusing on QoS-Oriented satellite communication

This chapter proposes network emulation basics and a complete case study of QoS-oriented Satellite Communication

Intelligent Network Infrastructures: New Functional Perspectives on Leveraging Future Internet Services

The Internet experience of the 21st century is by far very different from that of the early '80s. The Internet has adapted itself to become what it really is today, a very successful business platform of global scale. As every highly successful technology, the Internet has suffered from a natural process of ossification. Over the last 30 years, the technical solutions adopted to leverage emerging applications can be divided in two categories. First, the addition of new functionalities either patching existing protocols or adding new upper layers. Second, accommodating traffic grow with higher bandwidth links. Unfortunately, this approach is not suitable to provide the proper ground for a wide gamma of new applications. To be deployed, these future Internet applications require from the network layer advanced capabilities that the TCP/IP stack and its derived protocols can not provide by design in a robust, scalable fashion. NGNs (Next Generation Networks) on top of intelligent telecommunication infrastructures are being envisioned to support future Internet Services. This thesis contributes with three proposals to achieve this ambitious goal. The first proposal presents a preliminary architecture to allow NGNs to seamlessly request advanced services from layer 1 transport networks, such as QoS guaranteed point-to-multipoint circuits. This architecture is based on virtualization techniques applied to layer 1 networks, and hides from NGNs all complexities of interdomain provisioning. Moreover, the economic aspects involved were also considered, making the architecture attractive to carriers. The second contribution regards a framework to develop DiffServ-MPLS capable networks based exclusively on open source software and commodity PCs. The developed DiffServ-MPLS flexible software router was designed to allow NGN prototyping, that make use of pseudo virtual circuits and assured QoS as a starting point of development. The third proposal presents a state of the art routing and wavelength assignment algorithm for photonic networks. This algorithm considers physical layer impairments to 100% guarantee the requested QoS profile, even in case of single network failures. A number of novel techniques were applied to offer lower blocking probability when compared with recent proposed algorithms, without impacting on setup delay time

Satellite Communications

This study is motivated by the need to give the reader a broad view of the developments, key concepts, and technologies related to information society evolution, with a focus on the wireless communications and geoinformation technologies and their role in the environment. Giving perspective, it aims at assisting people active in the industry, the public sector, and Earth science fields as well, by providing a base for their continued work and thinking

Telemedicine

Telemedicine is a rapidly evolving field as new technologies are implemented for example for the development of wireless sensors, quality data transmission. Using the Internet applications such as counseling, clinical consultation support and home care monitoring and management are more and more realized, which improves access to high level medical care in underserved areas. The 23 chapters of this book present manifold examples of telemedicine treating both theoretical and practical foundations and application scenarios