The Impact of the Internet on Telecommunication Architectures

The ever-growing popularity of the Internet is dramatically changing the landscape of the communications market place. The two separate worlds of the Internet and Telecommunications are converging. The respective advantages of the two environments are being integrated to fulfill the promise of the information super-highways. In this paper, we examine the impact of the Internet on the main telecommunication architectures, namely the IN, the TMN and TINA. There are two new tendencies for implementing telephony services in combination with the Internet: running part of the control sys tem over the Internet, or conveying both the user data and the control information over the Internet. We examine these two trends, and elaborate on possible ways of salvaging the best parts of the work achieved by the TINA-Consortium in the Internet context

A Generic Network and System Management Framework

Networks and distributed systems have formed the basis of an ongoing communications revolution that has led to the genesis of a wide variety of services. The constantly increasing size and complexity of these systems does not come without problems. In some organisations, the deployment of Information Technology has reached a state where the benefits from downsizing and rightsizing by adding new services are undermined by the effort required to keep the system running. Management of networks and distributed systems in general has a straightforward goal: to provide a productive environment in which work can be performed effectively. The work required for management should be a small fraction of the total effort. Most IT systems are still managed in an ad hoc style without any carefully elaborated plan. In such an environment the success of management decisions depends totally on the qualification and knowledge of the administrator. The thesis provides an analysis of the state of the art in the area of Network and System Management and identifies the key requirements that must be addressed for the provisioning of Integrated Management Services. These include the integration of the different management related aspects (i.e. integration of heterogeneous Network, System and Service Management). The thesis then proposes a new framework, INSMware, for the provision of Management Services. It provides a fundamental basis for the realisation of a new approach to Network and System Management. It is argued that Management Systems can be derived from a set of pre-fabricated and reusable Building Blocks that break up the required functionality into a number of separate entities rather than being developed from scratch. It proposes a high-level logical model in order to accommodate the range of requirements and environments applicable to Integrated Network and System Management that can be used as a reference model. A development methodology is introduced that reflects principles of the proposed approach, and provides guidelines to structure the analysis, design and implementation phases of a management system. The INSMware approach can further be combined with the componentware paradigm for the implementation of the management system. Based on these principles, a prototype for the management of SNMP systems has been implemented using industry standard middleware technologies. It is argued that development of a management system based on Componentware principles can offer a number of benefits. INSMware Components may be re-used and system solutions will become more modular and thereby easier to construct and maintain

Network provider domain federation in TINA

Federation in TINA CMA (Connection Management Architecture) provides the mechanisms for cooperation between different interworking network domains possibly owned by different administrators. In order to be able to offer services to their users, these administrators must cooperate. We present an implemented and validated architecture including the federation techniques necessary. We illustrate the problem based on experience from a user trial, in which different operators, and suppliers with different equipment participate

Proposta 3GPP de indicadores de desempenho de rede - R4 CS Core Network

Mestrado em Engenharia Electrónica e TelecomunicaçõesO mercado de telecomunicações tem vindo a tornar-se cada vez mais competitivo e agressivo devido à diminuição das margens dos operadores de telecomunicações. Este facto é igualmente relevante no mercado das redes móveis em que este trabalho se foca. A maior parte dos actuais mercados de redes móveis pauta-se por uma consolidação da sua base instalada e por uma optimização dos recursos existentes. Por uma questão de estratégia comercial e técnica (não dependência de um único fornecedor) é frequente os operadores de redes móveis terem mais do que um fornecedor de equipamentos de telecomunicações para a sua rede. Devido a este facto, os problemas das redes com multi-fabricantes agudizou-se o que levou à premente necessidade de se arranjar uma linguagem comum através da qual se consiga ter uma ideia do nível global de desempenho alcançado e dos pontos críticos em que a rede pode melhorar o seu desempenho. É nesta problemática que o presente trabalho se foca. Neste momento, o 3GPP tem definidos uma quantidade vasta de indicadores de desempenho de rede para a área Circuit Switch (CS) Core Network (CN) mas ainda não tem definidos os seus Key Performance Indicators (KPIs). Tendo como base os indicadores de desempenho 3GPP existentes, esta Dissertação propõe um conjunto de KPIs que possibilitam a análise do desempenho da rede Core Network ao nível da sua parte CS. Esta Dissertação apresenta as propostas de KPIs para a rede CS, as quais estão divididas em três partes. Numa primeira parte são apresentados os KPIs relativos ao MSC Server (MSS) ao nível da análise de acessibilidade, utilização e mobilidade. Na segunda secção são apresentados os KPIs relativos ao Media Gateway (MGW) ao nível da análise de acessibilidade, integridade e utilização. Finalmente na terceira e última secção apresentam-se os KPIs associados ao HLR.The telecommunications market has become increasingly competitive and aggressive due to the decreasing margins of telecom operators. This fact is also relevant in the mobile networks market in which this Thesis is focused. Most of today's mobile networks is guided by a consolidation of its installed base and by optimizing existing resources. As a matter of business strategy and technique (not dependent on one supplier) it is common for the mobile network operators to have more than one telecommunications equipment supplier. Due to this, the problems of multi-vendor networks has worsened leading to the urgent need to find a common language that everyone speaks and, through which, can get an idea of overall performance level achieved and critical points where the network can improve its performance. This paper is focused on this issue. Currently, 3GPP has defined a wide range of network performance indicators for the Core Network (CN) Circuit Switch (CS) area but, nothing is yet set in what Key Performance Indicators (KPIs) is concerned. The purpose of this Thesis is, based on already existent 3GPP performance indicators, recommend a set of KPIs to enable the CS CN performance analysis. This Thesis present the CS KPI proposals which are divided in three main parts. In the first part, are presented the MSC Server (MSS) KPIs at accessibility analysis, usage and mobility levels. In the second part are presented the Media Gateway (MGW) related KPIs at accessibility analysis, integrity and usage levels. Finally we have the third and last part where the HLR related KPIs are presented

Operational support systems for satellite communications

The role of satellite communications is changing from providing bandwidth linking network operators interconnections towards providing IP enabled communications to end users. This migration from few high-value routes towards many low-value routes means that integration and automation of processes with terrestrial networks becomes critical in driving down unit costs. Integration and automation is necessary on all planes: user, control and management. In satellite communications, management aspects, underpinned by Operational Support Systems (OSS) have received the least research attention, making this a valuable topic for study. In most areas, OSS for satellite systems are similar to other domains. However there are some notable areas of difference which have been the focus of this research. The eTOM business framework, developed by the TMF, has been used to highlight aspects of OSS unique to satellite. Since satellite capacity represents the highest operational cost of a satellite route, effective management while minimising the overhead traffic is critical. The transmission of IP packets is assumed and the real-time measurement of QoS parameters such as packet delay and loss emerged as the most important differences. A number of approaches to QoS measurement are feasible, however the use of trace packets is most promising especially for high network loads. An experiment compares the results from simulations, mathematical models and from a test network, using Poisson and self-similar traffic flows. The relationship between measurement accuracy and trace packet intensity is explored and the measurement response time to steps in traffic load is estimated. It is discovered that measurement accuracy improves as the queue load increases, in contrast to alternative approaches such as sampling of user packets. The response time to steps depends upon the degree of self-similarity and is generally longer than the times recommended by standards. A pragmatic approach to management of different modes is proposed where the measurement method is changed depending on the load

Towards Automated Network Configuration Management

Modern networks are designed to satisfy a wide variety of competing goals related to network operation requirements such as reachability, security, performance, reliability and availability. These high level goals are realized through a complex chain of low level configuration commands performed on network devices. As networks become larger, more complex and more heterogeneous, human errors become the most significant threat to network operation and the main cause of network outage. In addition, the gap between high-level requirements and low-level configuration data is continuously increasing and difficult to close. Although many solutions have been introduced to reduce the complexity of configuration management, network changes, in most cases, are still manually performed via low--level command line interfaces (CLIs). The Internet Engineering Task Force (IETF) has introduced NETwork CONFiguration (NETCONF) protocol along with its associated data--modeling language, YANG, that significantly reduce network configuration complexity. However, NETCONF is limited to the interaction between managers and agents, and it has weak support for compliance to high-level management functionalities. We design and develop a network configuration management system called AutoConf that addresses the aforementioned problems. AutoConf is a distributed system that manages, validates, and automates the configuration of IP networks. We propose a new framework to augment NETCONF/YANG framework. This framework includes a Configuration Semantic Model (CSM), which provides a formal representation of domain knowledge needed to deploy a successful management system. Along with CSM, we develop a domain--specific language called Structured Configuration language to specify configuration tasks as well as high--level requirements. CSM/SCL together with NETCONF/YANG makes a powerful management system that supports network--wide configuration. AutoConf supports two levels of verifications: consistency verification and behavioral verification. We apply a set of logical formalizations to verifying the consistency and dependency of configuration parameters. In behavioral verification, we present a set of formal models and algorithms based on Binary Decision Diagram (BDD) to capture the behaviors of forwarding control lists that are deployed in firewalls, routers, and NAT devices. We also adopt an enhanced version of Dyna-Q algorithm to support dynamic adaptation of network configuration in response to changes occurred during network operation. This adaptation approach maintains a coherent relationship between high level requirements and low level device configuration. We evaluate AutoConf by running several configuration scenarios such as interface configuration, RIP configuration, OSPF configuration and MPLS configuration. We also evaluate AutoConf by running several simulation models to demonstrate the effectiveness and the scalability of handling large-scale networks

IP-based virtual private networks and proportional quality of service differentiation

IP-based virtual private networks (VPNs) have the potential of delivering cost-effective, secure, and private network-like services. Having surveyed current enabling techniques, an overall picture of IP VPN implementations is presented. In order to provision the equivalent quality of service (QoS) of legacy connection-oriented layer 2 VPNs (e.g., Frame Relay and ATM), IP VPNs have to overcome the intrinsically best effort characteristics of the Internet. Subsequently, a hierarchical QoS guarantee framework for IP VPNs is proposed, stitching together development progresses from recent research and engineering work. To differentiate IP VPN QoS, the proportional QoS differentiation model, whose QoS specification granularity compromises that of IntServ and Diffserv, emerges as a potential solution. The investigation of its claimed capability of providing the predictable and controllable QoS differentiation is then conducted. With respect to the loss rate differentiation, the packet shortage phenomenon shown in two classical proportional loss rate (PLR) dropping schemes is studied. On the pursuit of a feasible solution, the potential of compromising the system resource, that is, the buffer, is ruled out; instead, an enhanced debt-aware mechanism is suggested to relieve the negative effects of packet shortage. Simulation results show that debt-aware partially curbs the biased loss rate ratios, and improves the queueing delay performance as well. With respect to the delay differentiation, the dynamic behavior of the average delay difference between successive classes is first analyzed, aiming to gain insights of system dynamics. Then, two classical delay differentiation mechanisms, that is,proportional average delay (PAD) and waiting time priority (WTP), are simulated and discussed. Based on observations on their differentiation performances over both short and long time periods, a combined delay differentiation (CDD) scheme is introduced. Simulations are utilized to validate this method. Both loss and delay differentiations are based on a series of differentiation parameters. Though previous work on the selection of delay differentiation parameters has been presented, that of loss differentiation parameters mostly relied on network operators\u27 experience. A quantitative guideline, based on the principles of queueing and optimization, is then proposed to compute loss differentiation parameters. Aside from analysis, the new approach is substantiated by numerical results