Efficient Interest Forwarding for Vehicular Information-Centric Networks

Yu, Xiangshen

10 October 2018

Content Distribution in Vehicular Ad-hoc Networks (VANETs) has always been a critical challenge, due to the peculiar characteristics of VANETs, such as high mobility, intermittent connectivity, and dynamic topologies. In fact, traditional Host-Centric Networks have shown to be unable to handle the increasing demand for content distribution in VANETs. Recently, Information-Centric Networks (ICN) have been proposed to VANETs to cope with the existing issues and improve the content delivery. In Vehicular Information-Centric Networks, instead of communicating in a host-to-host pattern and maintaining host-to-host links during the communication, consumers opportunistically send the Interest requests to the neighbor vehicles, which may have the desired Data packets that can satisfy the Interest packets. However, uncontrolled Interest packet transmissions for content search will result in a waste of resources and diminish the performance of applications in VANETs. In the thesis, we focus on two daunting problems that have limited content distribution in Vehicular Information-Centric Networks when using Vehicle-to-Vehicle (V2V) communication: (i) unreliable content delivery and (ii) broadcast storm. We proposed a suite of protocols, OIFP, LISIC and LOCOS, destined to tackle these and other issues. In the proposed protocols, we have considered different metrics in VANETs that may influence the content distribution, such as distance, velocity, directions and the locations of the producers and consumers. By utilizing a small deferred timer, which is the time holden by the forwarding vehicles before sending the Interest packets out, priority is given to the selected vehicles to forward the Interest packets. Extensive simulations show that all the proposed protocols outperform the vanilla VNDN protocol regarding transmission delay, content satisfaction rate and the average number of Interest transmissions. Besides, we have also implemented several related works and compared with our protocols. The overall performance of the proposed LOCOS protocol outperforms the related works. Moreover, our protocols do alleviate the broadcast storm problem and improve the content delivery rate.

ICN

NDN

CDN

VANETs

Návrh IT infrastruktury pro provoz nadnárodního portálu

Ruprich, Tomáš

January 2013

No description available.

IT infrastruktura; CDN; IaaS

An adaptable storage slicing algorithm for content delivery networks

MOREIRA, André Luis Cavalcanti

28 August 2015

Submitted by Fabio Sobreira Campos da Costa (fabio.sobreira@ufpe.br) on 2016-07-12T12:20:38Z No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) Thesis - André Luis Cavalcanti Moreira.pdf: 3666881 bytes, checksum: 956e0e6be2bd9f076c0d30eea9d3ea25 (MD5) / Made available in DSpace on 2016-07-12T12:20:38Z (GMT). No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) Thesis - André Luis Cavalcanti Moreira.pdf: 3666881 bytes, checksum: 956e0e6be2bd9f076c0d30eea9d3ea25 (MD5) Previous issue date: 2015-08-28 / Several works study the performance of Content Delivery Networks (CDNs) under various network infrastructure and demand conditions. Many strategies have been proposed to deal with aspects inherent to the CDN distribution model. Though mostly very effective, a traditional CDN approach of statically positioned elements often fails to meet quality of experience (QoE) requirements when network conditions suddenly change. CDN adaptation is a key feature in this process and some studies go even further and try to also deal with demand elasticity by providing an elastic infrastructure (cloud computing) to such CDNs. Each Content Provider (CP) gets served only the amount of storage space and network throughput that it needs and pays only for what has been used. Some IaaS providers offer simple CDN services on top of their infrastructure. However, in general, there is a lack of PaaS tools to create rapidly a CDN. There is no standard or open source software able to deliver CDN as a service for each tenant through well-known managers. A PaaS CDN should be able to implement content delivery service in a cloud environment, provision and orchestrate each tenant, monitor usage and make decisions on planning and dimensioning of resources. This work introduces a framework for the allocation of resources of a CDN in a multi-tenant environment. The framework is able to provision and orchestrate multi-tenant virtual CDNs and can be seen as a step towards a PaaS CDN. A simple dot product based module for network change detection is presented and a more elaborate multi-tenant resource manager model is defined. We solve the resulting ILP problem using both branch and bound as well as an efficient cache slicing algorithm that employs a three phase heuristic for orchestration of multi-tenant virtual CDNs. We finally show that a distributed algorithm with limited local information may be also offer reasonable resource allocation while using limited coordination among the different nodes. A self-organization behavior emerges when some of the nodes reach consensus. / Vários trabalhos estudam o desempenho de Redes de Distribuição de Conteúdo (CDN) em diferentes condições e demanda e de infraestrutura. Muitas estratégias têm sido propostas para lidar com aspectos inerentes ao modelo de distribuição de CDN. Embora essas técnicas sejam bastante eficazes, uma abordagem tradicional de elementos estaticamente posicionados numa CDN muitas vezes não consegue atender os requisitos de qualidade de experiência (QoE) quando as condições da rede mudam repentinamente. Adaptação CDN é uma característica fundamental neste processo e alguns estudos vão ainda mais longe e tentam lidar com a elasticidade da demanda, proporcionando uma infraestrutura elástica (computação em nuvem) para a CDN. Cada provedor de conteúdo obtém apenas a quantidade de armazenamento e de rede necessários, pagando apenas pelo efetivo uso. Alguns provedores IaaS oferecem serviços de CDN sobre suas estruturas. No entanto, em geral, não existe padrão ou softwares de código aberto capazes de entregar serviços de CDN por meio de gerenciadores. Uma CDN PaaS deve ser capaz de fornecer um serviço de entrega de conteúdo em um ambiente de nuvem, provisionar e orquestrar cada tenant, monitorar uso e tomar decisões de planejamento e dimensionamento de recursos. Este trabalho apresenta um framework para alocação de recursos de uma CDN em ambiente multi-tenant. O framework é capaz de provisionar e orquestrar CDNs virtuais e pode ser visto como um passo em direção a uma PaaS CDN. Um módulo baseado em simples produto escalar para detecção de mudanças na rede é apresentado, bem como um modelo mais elaborado de gerenciamento de recursos. Resolvemos o problema ILP resultante dessa abordagem por meio de um algoritmo de divisão de cache que emprega uma heurística em três fases para a orquestração de CDN virtuais. Por fim, mostramos uma outra abordagem com algoritmo distribuído que usa informação local e que também oferece uma alocação razoável usando coordenação limitada entre os diferentes nós. Um comportamento de auto-organização surge quando alguns desses nós chegam a um consenso.

dynamic CDN

storage slicing

self-adaptation

PaaS CDN

CDN dinâmica

divisão do armazenamento

autoadaptação

PaaS CDN

Estudio, análisis y desarrollo de una red de distribución de contenido y su algoritmo de redirección de usuarios para servicios web y streaming

Molina Moreno, Benjamin

02 September 2013

Esta tesis se ha creado en el marco de la línea de investigación de Mecanismos de Distribución de Contenidos en Redes IP, que ha desarrollado su actividad en diferentes proyectos de investigación y en la asignatura ¿Mecanismos de Distribución de Contenidos en Redes IP¿ del programa de doctorado ¿Telecomunicaciones¿ impartido por el Departamento de Comunicaciones de la UPV y, actualmente en el Máster Universitario en Tecnologías, Sistemas y Redes de Comunicación. El crecimiento de Internet es ampliamente conocido, tanto en número de clientes como en tráfico generado. Esto permite acercar a los clientes una interfaz multimedia, donde pueden concurrir datos, voz, video, música, etc. Si bien esto representa una oportunidad de negocio desde múltiples dimensiones, se debe abordar seriamente el aspecto de la escalabilidad, que pretende que el rendimiento medio de un sistema no se vea afectado conforme aumenta el número de clientes o el volumen de información solicitada. El estudio y análisis de la distribución de contenido web y streaming empleando CDNs es el objeto de este proyecto. El enfoque se hará desde una perspectiva generalista, ignorando soluciones de capa de red como IP multicast, así como la reserva de recursos, al no estar disponibles de forma nativa en la infraestructura de Internet. Esto conduce a la introducción de la capa de aplicación como marco coordinador en la distribución de contenido. Entre estas redes, también denominadas overlay networks, se ha escogido el empleo de una Red de Distribución de Contenido (CDN, Content Delivery Network). Este tipo de redes de nivel de aplicación son altamente escalables y permiten un control total sobre los recursos y funcionalidad de todos los elementos de su arquitectura. Esto permite evaluar las prestaciones de una CDN que distribuya contenidos multimedia en términos de: ancho de banda necesario, tiempo de respuesta obtenido por los clientes, calidad percibida, mecanismos de distribución, tiempo de vida al utilizar caching, etc. Las CDNs nacieron a finales de la década de los noventa y tenían como objetivo principal la eliminación o atenuación del denominado efecto flash-crowd, originado por una afluencia masiva de clientes. Actualmente, este tipo de redes está orientando la mayor parte de sus esfuerzos a la capacidad de ofrecer streaming media sobre Internet. Para un análisis minucioso, esta tesis propone un modelo inicial de CDN simplificado, tanto a nivel teórico como práctico. En el aspecto teórico se expone un modelo matemático que permite evaluar analíticamente una CDN. Este modelo introduce una complejidad considerable conforme se introducen nuevas funcionalidades, por lo que se plantea y desarrolla un modelo de simulación que permite por un lado, comprobar la validez del entorno matemático y, por otro lado, establecer un marco comparativo para la implementación práctica de la CDN, tarea que se realiza en la fase final de la tesis. De esta forma, los resultados obtenidos abarcan el ámbito de la teoría, la simulación y la práctica. / Molina Moreno, B. (2013). Estudio, análisis y desarrollo de una red de distribución de contenido y su algoritmo de redirección de usuarios para servicios web y streaming [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/31637 / TESIS

Redes de distribución de contenido

Content delivery networks

CDN

Web caching

Multimedia

Algoritmo de redirección

Implementación CDN

Modelo CDN

Simulacion CDN

INGENIERIA TELEMATICA

Performance Evalution and Optimization of Content Delivery Networks / Leistungsbewertung und Optimierung von Content Delivery Networks

Burger, Valentin

January 2017

Content Delivery Networks (CDNs) are networks that distribute content in the Internet. CDNs are increasingly responsible for the largest share of traffic in the Internet. CDNs distribute popular content to caches in many geographical areas to save bandwidth by avoiding unnecessary multihop retransmission. By bringing the content geographically closer to the user, CDNs also reduce the latency of the services. Besides end users and content providers, which require high availability of high quality content, CDN providers and Internet Service Providers (ISPs) are interested in an efficient operation of CDNs. In order to ensure an efficient replication of the content, CDN providers have a network of (globally) distributed interconnected datacenters at different points of presence (PoPs). ISPs aim to provide reliable and high speed Internet access. They try to keep the load on the network low and to reduce cost for connectivity with other ISPs. The increasing number of mobile devices such as smart phones and tablets, high definition video content and high resolution displays result in a continuous growth in mobile traffic. This growth in mobile traffic is further accelerated by newly emerging services, such as mobile live streaming and broadcasting services. The steep increase in mobile traffic is expected to reach by 2018 roughly 60% of total network traffic, the majority of which will be video. To handle the growth in mobile networks, the next generation of 5G mobile networks is designed to have higher access rates and an increased densification of the network infrastructure. With the explosion of access rates and number of base stations the backhaul of wireless networks will become congested. To reduce the load on the backhaul, the research community suggests installing local caches in gateway routers between the wireless network and the Internet, in base stations of different sizes, and in end-user devices. The local deployment of caches allows keeping the traffic within the ISPs network. The caches are organized in a hierarchy, where caches in the lowest tier are requested first. The request is forwarded to the next tier, if the requested object is not found. Appropriate evaluation methods are required to optimally dimension the caches dependent on the traffic characteristics and the available resources. Additionally methods are necessary that allow performance evaluation of backhaul bandwidth aggregation systems, which further reduce the load on the backhaul. This thesis analyses CDNs utilizing locally available resources and develops the following evaluations and optimization approaches: Characterization of CDNs and distribution of resources in the Internet, analysis and optimization of hierarchical caching systems with bandwidth constraints and performance evaluation of bandwidth aggregation systems. / Netzwerke über die Inhalte im Internet verteilt werden, sogenannte „Content Delivery Networks“ (CDNs), sind für den Großteil des Datenverkehrs im Internet verantwortlich. Sie verteilen häufig angefragte Inhalte an Datenzentren und Zwischenspeicher, sogenannte „Caches“, die geographisch über viele Regionen verteilt sind. So erzielen CDNs Einsparungen in der Bandbreite, indem der Pfad von der Quelle des Inhalts zu den Caches entlastet wird. Da die Inhalte näher zu den Endnutzern gebracht werden, verringern CDNs außerdem die Latenz der Verbindung zu den bereitgestellten Diensten. Neben den Nutzern und Anbietern von Inhalten, die eine hohe Verfügbarkeit von qualitativ hochwertigen Inhalten fordern, sind CDN-Betreiber und Internetdienstanbieter an einem effizienten Betrieb von CDNs interessiert. Um eine effiziente Verteilung der Inhalte zu gewährleisten, erstellen CDN-Betreiber ein Netzwerk von Datenzentren, das global auf unterschiedliche wichtige Standorte verteilt ist. So versuchen CDN-Betreiber die Inhalte entsprechend der regionalen Nachfrage kosteneffizient an den verschiedenen Standorten vorzuhalten. Internetdienstanbieter ermöglichen, durch Bereitstellung von Breitband-anschlüssen, den Transport der Inhalte zu den Endnutzern. Sie versuchen die Last auf ihre Netze und die Kosten für Transitverbindungen gering zu halten. Durch die steigende Anzahl von mobilen Endgeräten, hochauflösenden Videoinhalten und Displays steigt der Datenverkehr in mobilen Verbindungsnetzwerken stetig an, wodurch sich neue Herausforderungen für CDNs ergeben. Zudem begünstigen neue Dienste, wie mobile Live-Videoübertragungen, das zunehmende Wachstum des mobilen Datenverkehrs. Laut aktueller Prognosen soll der mobile Datenverkehr im Jahr 2018 bereits zu 60% zum Gesamtverkehr des Internets beitragen. Um die erwartete Zunahme des mobilen Datenverkehrs zu kompensieren, wird die nächste Generation der mobilen Netzwerke entworfen, die eine höhere Dichte an Mobilfunkbasisstationen mit höheren Datenraten vorsieht. Es zeichnet sich ab, dass der starke Anstieg der Datenraten und die höhere Anzahl an Basisstationen dazu führen, dass es zu Bandbreitenengpässen in der Anbindung der Zugriffsnetze, dem sogenannten „Backhaul“, kommt. Um die Last auf den Backhaul zu verringern, sehen verschiedene Ansätze vor, lokale Caches in den Verbindungsknoten zwischen den mobilen Netzen, dem Internet und auf Endgeräten einzurichten. Die lokale Bereitstellung der Inhalte ermöglicht den Datenverkehr innerhalb der Zugriffsnetze zu halten. Die Caches werden hierarchisch angeordnet, wobei die lokalen Caches mit geringer Kapazität, nahe am Nutzer die unterste Hierarchiestufe bilden. Eine Anfrage an einen Inhalt, die in einer Hierarchiestufe nicht bedient werden kann, wird an die nächste Hierarchiestufe weitergeleitet. Es werden Mechanismen benötigt, die die Inhalte optimal auf die lokalen Caches verteilen, um die begrenzten Ressourcen effizient zu nutzen. Die richtige Dimensionierung der Caches abhängig von den Verkehrscharakteristiken und der verfügbaren Ressourcen setzen passende Evaluierungsmethoden voraus. Darüber hinaus werden Bewertungsmechanismen benötigt um zu beurteilen, wie die verfügbare Bandbreite im Backhaul, durch Aggregation der Zugriffsverbindungen, erhöht werden kann. Diese Doktorarbeit analysiert CDNs unter der Nutzung lokal verfügbarer Ressourcen und erarbeitet die folgenden Auswertungen und Optimierungsmöglichkeiten. Charakterisierung von CDNs und Verteilung der Ressourcen im Internet, Analyse und Optimierung von hierarchischen Caching Systemen unter Berücksichtigung von Bandbreitenbeschränkungen und Leistungsbewertung von Aggregationssystemen zur Bestimmung der verfügbaren Bandbreite durch Aggregation der Zugriffsverbindungen.

CDN-Netzwerk

Leistungsbewertung

ddc:000

網際網路資源標識與位址解析技術研究 / Research on Internet Resource Identifiers and Address Resolution Technologies

黃勝雄, Huang, Kenny

Unknown Date

Internet is the information space with the collection of resources, network protocols, resource identifiers and addresses. The resources include not only the physical resources but also the virtual resources such as information services. How to build the efficient identifier mapping mechanism and discover these resources is crucial for efficient use of all kinds of resources. The DNS is the most prevalent means of initiating a network transaction. It is the core of Internet and virtually forwards messages to desired destinations. With the growth of Internet, there are more and more applications and services are innovated with new identifier requirements. DNS simply isn’t capable to identify and resolve these resources. This study describes the DNS technology and its disadvantages. Several technical approaches are evaluated. The study proposes a new Partial match mechanism for resource naming and addressing, which improves the DNS service features, supports the demands for advanced resource identification and resolution. The main contributions of this research are: 1. Research on the issues of equal of simple Chinese characters and traditional Chinese characters; propose a solution based on the algorithm of IDN-Admin to implement the equal of simple Chinese characters (SC) and traditional Chinese (TC) characters, and design TC/SC conversion computing algorithm. 2. Evaluate directory service model in the DNS infrastructure 3. Propose internationalized domain name (IDN) administrative guideline for managing locality IDN implementation and operation. 4. Propose Partial Match Mechanism and multifaceted model. Partial Match Mechanism enhances naming service features and backward integrated with the existing DNS infrastructure. 5. Explore business considerations for multilingual name identifiers.

DNS

Domain Name

IDN

CDN

IDNA

Content Delivery Networks as a Service (CDNaaS) / Les réseaux de diffusion de contenu

Yala, Louiza

23 November 2018

Le but de cette thèse est d’étudier et d’évaluer le rôle de la virtualisation des réseau de diffusion de contenu. Nous proposons une implémentation d’une architecture CDN permettant à un opérateur de réseau de virtualiser son infrastructure CDN et de la louer à des fournisseurs de contenu. Afin d’avoir une allocation optimale des ressources, nous proposons une méthode qui combine les informations fournies lors de la demande par le fournisseur de contenu avec les données du réseau et de l’infrastructure de calcul. Nous avons modélisé ce problème d’allocation de ressources en problème d’optimisation, résolu par un algorithme. Les résultats obtenues donnent suite à la proposition d’algorithmes et d’heuristiques de placement pour l’allocation conjointe de vCPU-à-VM et le placement des VMs dans les Pms. / The goal of this thesis is to study and evaluate the role a Virtual CDNs in improving the end-users QoE while saving on service providers’ costs and service availability. First, we present the design and implementation of an architecture for on-demand deployment of a vCDN infrastructure over a telco cloud. Second, we propose different algorithms for solving the Virtual Network Function (VNF) placement problem. We propose a polynomialtime heuristic algorithms to solve a relaxed version of the problem’s assumptions, we show experimentally that the derived solutions are close to the optimal. Finally, we study and evaluate solutions for the placement of VNF at the edge, by moving from the traditional central cloud to the edge one. We have also shown how our method can reduce delays and still provide a highly-available service.

CDN

CDNaaS

Réseaux de diffusion de contenu

CDN

CDNaaS

VCDN

NFV

VNF placement

Efficient, Reliable and Secure Content Delivery

Lin, Yin

January 2014

<p>Delivering content of interest to clients is one of the most important tasks of the Internet </p><p>and an everlasting research question of today's networking. Content distribution networks(CDNs) </p><p>emerged in response to the rising demand of content providers to deliver contents to clients efficiently, </p><p>reliably, and securely at relatively low cost.</p><p>This dissertation explores how CDNs can achieve major performance benefits by adopting better </p><p>caching strategies without changing the network, or by collaboration with ISPs and taking advantage of their </p><p>better knowledge of network status and topology. It discusses the emerging trends of hybrid CDN architectures </p><p>and solutions to reliability problems introduced by them. Finally, it demonstrates how CDNs could better </p><p>protect both content providers and consumers from attacks and other malicious behaviors.</p> / Dissertation

Computer science

CDN

hybrid network

network security

overlay network

Request Routing In Content Delivery Networks

Hussein, Alzoubi A.

06 February 2015

No description available.

Computer Engineering

Computer Science

The State of Adoption of DNS ECS Extension on the Internet

Sudrajat, Fajar Ujian

05 June 2017

No description available.

Computer Science

DNS

ECS

client subnet

CDN

internet measurement