Rendimiento de TCP y Cálculo de Rutas en Redes de Conmutación Óptica de Ráfagas

La tecnología de conmutación óptica de ráfagas (Optical Burst Switching, OBS) es una alternativa prometedora para la próxima generación de redes ópticas. Esta tesis estudia el comportamiento de flujos de datos que empleen el protocolo de transporte TCP (Transmission Control Protocol) sobre una red basada en la mencionada tecnología OBS. Así, la tesis estudia el impacto del asentimiento retardado en OBS, propone un modelo teórico que captura el funcionamiento de TCP sobre OBS con múltiples flujos y estudia el efecto de la sincronización de flujos TCP en una red OBS. Además, la tesis propone una técnica de encaminamiento adaptativa y multicamino para OBS, y diseña e implementa un elemento de cálculo de rutas basado en PCE (Path Computation Element) para redes de conmutación de ráfagas OBS con encaminamiento por longitud de onda, conocidas como WR-OBS (Wavelength-Routed OBS).Departamento de Teoría de la Señal y Comunicaciones e Ingeniería Telemátic

On local CAC schemes for scalability of high-speed networks

This article has been extended from the original: “On local CAC schemes for scalability of high-speed networks” by the same authors, which was presented on the International Conference on Transparent Optical Networks (ICTON) held in Athens, Greece, on June 22-26, 2008Next generation networks are required to provide bandwidth on-demand for sessions with fine-time granularity. In this sense, centralized CAC (Connection Admission Control) approaches could suffer from scalability problems if the number of requests for connections is excessive. In this paper we investigate local CAC schemes where the admission decisions are performed at the network edges, based on precalculated admission quotas.The authors would like to acknowledge the BONE Network of Excellence, partially funded by the European Union Seventh Framework Programme, the MUSE project, partially funded by the EU Sixth FP, and the RUBENS project as part of the EUREKA CELTIC initiativ

Migration strategies toward all optical metropolitan access rings

This paper was published in Journal of Lightwave Technology and is made available as an electronic reprint with the permission of OSA. The paper can be found at the following URL on the IEEE website: http://dx.doi.org/10.1109/JLT.2007.901325. Systematic or multiple reproduction or distribution to multiple locations via electronic or other means is prohibited and is subject to penalties under law.Nowadays, network operators are steadily deploying optical circuit switching (OCS) equipment in their metropolitan networks in order to cope with traffic increase and, most importantly, in order to reduce capital expenditures and operational expenditures of existing active technologies. On the other hand, optical burst switching (OBS) technology is expected to become mature in the medium term, and it may be used as an alternative to current OCS networks due to its potential advantages in terms of bandwidth allocation granularity. While OBS is being extensively studied in the literature, little attention has been paid in conducting a comparative analysis of OBS versus OCS, especially concerning cost analysis. In this paper, we provide a comparative analysis of OBS versus OCS as an evolutionary technology for all-optical rings in the metropolitan-access network. This paper is specifically targeted toward optimizing the number of optoelectronic receivers and wavelengths with real traffic matrices from the metropolitan rings in Madrid, Spain. Such matrices also include traffic projections of foreseeable broadband services, which are based on a market analysis from the largest operator in Spain. Our findings show that OCS might be more efficient than OBS in the metro-access segment, which is characterized by a highly centralized traffic pattern. However, the more distributed the traffic is, the more efficient the OBS is as well. Consequently, OBS might be better suited to metro-core networks, which show a more distributed and dynamic traffic pattern.The authors would like to thank the e-Photon/ONe+ network of excellenc

A resilience-based comparative study between optical burst switching and optical circuit switching technologies

Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works. J. A. Hernández, J. Aracil, V. López, J. F. Palacios, and O. G. de Dios, "A resilience-based comparative study between optical burst switching and optical circuit switching technologies", in International Conference on Transparent Optical Networks, 2006, p. 231-234Internet operators and ISP providers have traditionally designed network resources following an over-planning policy, on attempts to maintain a desired grade of service and network availability, regardless of network failures. This work presents a comparative study of two resilience mechanisms in the design of optical networks either based on optical burst switching (OBS) or optical circuit switching (OCS): the M:N protection scheme with dedicated backup channels. It is further analysed and discussed the benefits and disadvantages of such mechanism based on an analytical mode

2023 19th International Conference on the Design of Reliable Communication Networks (DRCN),

Producción CientíficaLink failures have a significant negative impact on the availability of a network and should therefore be resolved as soon as possible. Because of the slow convergence time of routing protocols upon detection of a link failure, several IP Fast ReRoute (FRR) mechanisms have been developed to overcome this problem. Recently, segment routing, which is a flexible and scalable way of doing source routing, enabled a new FRR mechanism called Topology Independent Loop-Free Alternate (TI-LFA). As the name suggests, the key feature of TI-LFA is that it guarantees a loop-free detour against any link failure in any network topology. However, typically fast responses to failures only aim to restore the loop-free connection between the affected routers and do not consider the resulting delay or impact on network congestion. This paper presents an initial study on the selected TI-LFA backup paths and their effect on the overall network performance. By means of simulation, we evaluate how efficient TI-LFA reroutes traffic for a number of traffic engineering approaches. Our results quantify the impact of different traffic engineering approaches and network loads on the performance of TI-LFA. This suggests potential directions for improving the effectiveness of TI-LFA protection in segment routing.EU H2020 MSCA ITN-ETN IoTalentum (grant no. 953442)EU H2020-ICT-52-2020 TeraFlow Project (grant 101015857)Ministerio de Ciencia e Innovación y Agencia Estatal de Investigación (Proyecto PID2020-112675RB-C42 financiado por MCIN/AEI/10.13039/501100011033

Finding an objective cost for sliceable flexgrid transponders

We analyze the objective cost of SBVTs as a function of the traffic conveyed by IP/MPLS-over-flexgrid networks. Optimal results show that cost increment with respect to BVTs is related to the aggregation level.Postprint (published version

A techno-economic study of optical network disaggregation employing Open-Source Software business models for Metropolitan Area Networks

This work provides a techno-economic evaluation of optical disaggregation architectures in the context of metropolitan area networks. The study compares two optical disaggregation options (partial vs. total) against the legacy benchmark where optical equipment is subject to vendor lock-in, as it is deployed in most networks today. We show that emerging open source software projects within the software-defined networking ecosystem can potentially yield significant cost savings for medium- and large-size network operators, while they can introduce extra flexibility and agility to network operations and service deployments.This work has been supported by EU H2020 project Metro-Haul, grant no. 761727 (https://metro-haul.eu)

On capacity planning for the GMPLS network control plane

The final publication is available at Springer via http://dx.doi.org/10.1007/s11107-007-0107-9This paper presents capacity planning rules for the control plane of all-optical networks featuring GMPLS and RSVP-TE as a connection setup protocol. As per RSVP standard, a refresh message mechanism is incorporated to RSVP such that the state is periodically refreshed on a link per link basis. We provide analytical expressions for the bandwidth and buffer sizes to be provided such that no flows are torn down due to lack of refresh messages. Our findings show that small buffers (several KBytes) suffice to sustain the signaling load for as much as 400 RSVP flows per link, with the simplest RSVP refresh mechanism (neither using link bundling nor acknowledgments). On the other hand, we also find the packet drop probability per link for a given network topology for the case that the flow survival probability is larger than a given threshold. We provide numerical examples based on the COST 239 european network topology and real RSVP traffic traces from early-commercial switching equipment.This work was funded by EU Project NOBEL (FP6-506760), Project CELTIC-FIRM and the Spanish MEC (project CAPITAL subproject code: TEC2004- 05622-C04-04 and project PINTA

Coordinated Computation of Multi-layer Paths via Inter-layer PCE Communication: Standards, Interoperability and Deployment

The Path Computation Element (PCE) is positioned nowadays as one of the solutions that almost every carrier will eventually deploy. The PCE architecture as well as a number of components, including the PCE Communication Protocol (PCEP), have been standardized by the IETF. However, a number of challenges remain to be solved on its way from standards to deployment. In particular, the existing proposals for multilayer path computation within the PCE framework need to be further developed and tested, before considering their possible integration into operational networks. This is especially true for the interoperability of the various PCE implementations and the extensions such as the Virtual Network Topology Manager (VNTM) which cannot be taken for granted. This paper presents a functional implementation of coordinated computation of multilayer paths supported through inter-layer PCE communication, where one PCE is developed by industry and the other as an open-source effort. To this end, we consider an IP/MPLS network deployed over a Wavelength Switched Optical Network (WSON), each of which deploying its own PCE, in an attempt to create an inter-operable multilayer solution. We discuss the key challenges that the research community will face in this area, which in turn will drive a considerable part of the upcoming efforts in terms of standardizationPostprint (published version

On local CAC schemes for scalability of high-speed networks

Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works. J. Aracil, J. A. Hernández, A. J. Elizondo, R. Duque, and O. G de Dios, " in 10th Anniversary International Conference on Transparent Optical Networks, ICTON 2008. Volume 3. p. 175-177Next generation networks are required to provide bandwidth on-demand for fine granularity sessions. In this sense, centralized CAC (connection admission control) approaches could suffer from scalability problems if the number of requests for connections were very high. In this paper we investigate local CAC schemes where the decisions are performed at the network edges, based on pre-calculated admission quotas.The authors would like to acknowledge the BONE Network of Excellence, partially funded by the European Union Seventh Framework Programme, the MUSE project, partially funded by the EU Sixth FP, and the RUBENS project as part of the EUREKA CELTIC initiativ