918 research outputs found
Analytic modelling and resource dimensioning of optical burst switched networks
The realisation of optical network architectures may hold the key to delivering the enormous bandwidth demands of next generation Internet applications and services. Optical
Burst Switching (OBS) is a potentially cost-effective switching technique that can satisfy these demands by offering a high bit rate transport service that is bandwidth-efficient under dynamic Internet traffic loads. Although various aspects of OBS performance have been extensively investigated, there remains a need to systematically assess the cost/performance trade-offs involved in dimensioning OBS switch resources in a network. This goal is essential in enabling the future deployment of OBS but poses a significant challenge due to the complexity of obtaining tractable mathematical models applicable to OBS network optimisation. The overall aim of this thesis lies within this challenge.
This thesis firstly develops a novel analytic performance model of an OBS node where burst contention is resolved by combined use of Tuneable Wavelength Converters (TWCs)
and Fibre Delay Lines (FDLs) connected in an efficient share-per-node configuration. The model uses a two-moment traffic representation that gives a good trade-off between accuracy and complexity, and is suitable for extension to use in network modelling.
The OBS node model is then used to derive an approximate analytic model of an OBS network of switches equipped with TWCs and FDLs, again maintaining a two-moment traffic model for each end-to-end traffic path in the network. This allows evaluation of link/route loss rates under different offered traffic characteristics, whereas most OBS network
models assume only a single-moment traffic representation.
In the last part of this thesis, resource dimensioning of OBS networks is performed by solving single and multi-objective optimisation problems based on the analytic network model. The optimisation objectives relate to equipment cost minimisation and throughput maximisation under end-to-end loss rate constraints. Due to non-convexity of the network performance constraint equations, a search heuristic approach has been taken using a constraint-handling genetic algorithm
Telecommunications Networks
This book guides readers through the basics of rapidly emerging networks to more advanced concepts and future expectations of Telecommunications Networks. It identifies and examines the most pressing research issues in Telecommunications and it contains chapters written by leading researchers, academics and industry professionals. Telecommunications Networks - Current Status and Future Trends covers surveys of recent publications that investigate key areas of interest such as: IMS, eTOM, 3G/4G, optimization problems, modeling, simulation, quality of service, etc. This book, that is suitable for both PhD and master students, is organized into six sections: New Generation Networks, Quality of Services, Sensor Networks, Telecommunications, Traffic Engineering and Routing
A hybrid queueing model for fast broadband networking simulation
PhDThis research focuses on the investigation of a fast simulation method for broadband
telecommunication networks, such as ATM networks and IP networks. As a result of
this research, a hybrid simulation model is proposed, which combines the analytical
modelling and event-driven simulation modelling to speeding up the overall
simulation.
The division between foreground and background traffic and the way of dealing with
these different types of traffic to achieve improvement in simulation time is the major
contribution reported in this thesis. Background traffic is present to ensure that proper
buffering behaviour is included during the course of the simulation experiments, but
only the foreground traffic of interest is simulated, unlike traditional simulation
techniques. Foreground and background traffic are dealt with in a different way.
To avoid the need for extra events on the event list, and the processing overhead,
associated with the background traffic, the novel technique investigated in this
research is to remove the background traffic completely, adjusting the service time of
the queues for the background traffic to compensate (in most cases, the service time
for the foreground traffic will increase). By removing the background traffic from the
event-driven simulator the number of cell processing events dealt with is reduced
drastically.
Validation of this approach shows that, overall, the method works well, but the
simulation using this method does have some differences compared with experimental
results on a testbed. The reason for this is mainly because of the assumptions behind
the analytical model that make the modelling tractable.
Hence, the analytical model needs to be adjusted. This is done by having a neural
network trained to learn the relationship between the input traffic parameters and the
output difference between the proposed model and the testbed. Following this
training, simulations can be run using the output of the neural network to adjust the
analytical model for those particular traffic conditions.
The approach is applied to cell scale and burst scale queueing to simulate an ATM
switch, and it is also used to simulate an IP router. In all the applications, the method
ensures a fast simulation as well as an accurate result
Hastily Formed Networks (HFN) As an Enabler for the Emergency Response Community
The effects of natural or manmade disasters in communications infrastructures are so severe that immediately after the disaster the emergency responders are unable to use them. In addition, some areas do not have any useful infrastructure at all. To bridge this gap in communications, a need exists for a reliable technology not dependent on the existing infrastructure. This thesis focuses on first identifying the problem of communications gaps during natural or manmade disasters and reviewing the impact and potential benefit of implementing a solution based on the Hastily Formed Networks (HFN) model. The research explores the different technological solutions to solve this problem by evaluating documentation for commercial off-the-shelf technologies (COTS). Additionally, the thesis reviews the results of field experimentation conducted to evaluate the performance of these technologies in the field. The ultimate goal is to introduce the HFN concept as an enabler for the Emergency Response Community (ERC). Throughout this research, the focus revolves around testing COTS technologies. The research provides emergency responders with the background knowledge to make decisions on how to best bridge the gap of lack of communications under austere environments, and therefore enable them to provide better response.http://archive.org/details/hastilyformednet109456762Lieutenant Commander, United States Nav
Performance measurement methodology for integrated services networks
With the emergence of advanced integrated services networks, the need for effective
performance analysis techniques has become extremely important. Further
advancements in these networks can only be possible if the practical performance
issues of the existing networks are clearly understood. This thesis is concerned with
the design and development of a measurement system which has been implemented on
a large experimental network.
The measurement system is based on dedicated traffic generators which have been
designed and implemented on the Project Unison network. The Unison project is a
multisite networking experiment for conducting research into the interconnection and
interworking of local area network based multi-media application systems. The traffic
generators were first developed for the Cambridge Ring based Unison network. Once
their usefulness and effectiveness was proven, high performance traffic generators
using transputer technology were built for the Cambridge Fast Ring based Unison
network. The measurement system is capable of measuring the conventional
performance parameters such as throughput and packet delay, and is able to
characterise the operational performance of network bridging components under
various loading conditions. In particular, the measurement system has been used in a
'measure and tune' fashion in order to improve the performance of a complex bridging
device.
Accurate measurement of packet delay in wide area networks is a recognised problem.
The problem is associated with the synchronisation of the clocks between the distant
machines. A chronological timestamping technique has been introduced in which the
clocks are synchronised using a broadcast synchronisation technique. Rugby time
clock receivers have been interfaced to each generator for the purpose of
synchronisation.
In order to design network applications, an accurate knowledge of the expected
network performance under different loading conditions is essential. Using the
measurement system, this has been achieved by examining the network characteristics
at the network/user interface. Also, the generators are capable of emulating a variety
of application traffic which can be injected into the network along with the traffic
from real applications, thus enabling user oriented performance parameters to be
evaluated in a mixed traffic environment.
A number of performance measurement experiments have been conducted using the
measurement system. Experimental results obtained from the Unison network serve to
emphasise the power and effectiveness of the measurement methodology
GUIDELINES FOR THE DESIGN OF ENHANCED, COST EFFECTIVE NETWORKS IN A MANUFACTURING ENVIRONMENT
Investigations into the transmission of real-time interactive speech over local area
networks (LAN) in an industriai/commerciai environment to eventually obviate the
need for a private automatic branch exchange and ultimately prepare the way for a
single interactive integrated information system (PS) that provides work stations, which
are networked via a LAN, with a fully interactive speech and graphics facility
commensurate with the future requirements in computer integrated manufacturing
(CIM).
The reasons for conducting this programme of research were that existing LANs do not
offer a real time interactive speech facility. Any verbal communication between
workstation users on the LAN has to be carried out over a telephone network (PABX).
This necessitates the provision of a second completely separate network with its
associated costs. Initial investigations indicate that there is sufGcient capacity on
existing LANs to support both data and real-time speech provided certain data packet
delay criteria can be met.
Earlier research work (in the late 1980s) has been conducted at Bell Labs and MIT.
[Ref 25, 27 & 28], University of Strathclyde [Ref 24] and at BTRL [Ref 22 and 37].
In all of these cases the real time implementation issues were not fijlly addressed. In
this thesis the research work reported provides the main criteria for the implementation
of real-time interactive speech on both existing and newly installed networks.
With such enhanced communication facilities, designers and engineers on the shop
floor can be projected into their suppliers, providing a much greater integration
between manufacturer and supplier which will be beneficial as Concurrent and
Simultaneous Engineering Methodologies are further developed.
As a result, various LANs have been evaluated as to their suitability for the
transmission of real time interactive speech. As LANs, in general, can be separated
into those with either deterministic or stochastic access mechanisms, investigations were
carried out into the ability of both the:
(i) Token Passing Bus LANs supporting the Manufacturing and
Automation Protocol (MAP)âDeterministic
and
(u) Carrier Sense Multiple Access/Collision Detection (CSMA/CD) LANs
supporting the Technical Office Protocol (TOP)â Stochastic
to support real time interactive speech, as both are used extensively in commerce and
manufacturing.
The thesis that real time interactive speech can be transmitted over LANs employed in
a computer integrated manufacturing environment has to be moderated following the
tests carried out in this work, as follows:-
The Token Passing LAN presents no serious problems under normal
traffic conditions, however, the CSMA/CD LAN can only be used in
relatively light traffic conditions i.e. below 30% of its designed
maximum capacity, providing special arrangements are made to
minimise the access, transmission and processing delays of speech
packets.
Given that a certain amount of delay is inevitable in packet switched systems (LANs),
investigations have been carried out into techniques for reducing the subjective efifect
of speech packet loss on real-time interactive systems due to the unacceptable delays
caused by the conditions mentioned above
Campus Telecommunications Systems: Managing Change
The purpose of this book is to provide a broadbased understanding of the rapidly changing environment of campus telecommunications. The anticipated audience for this material is the non-technical university administrator who may not have direct responsibility for telecommunications, but has a need to understand the general environment in which his telecommunications manager functions and the basic concepts of the technology. Five topic areas were selected that best cover the preponderance of issues. No attempt has been made to associate or closely coordinate materials from one chapter\u27s subject to that of any other. Each chapter generally stands alone. In total, however, the five chapters address the topics and issues that most often generate inquiries from university administrators outside the telecommunications department.
Introduction
1 The Changing Telecommunications Environment
2 Telecommunications Technology and the Campus
3 Student Services
4 Financing a New Telecommunications System .
5 Selecting a Consultant
Glossary
Inde
Resonant Behaviour of Pulse Generators for the Efficient Drive of Optical Radiation Sources Based on Dielectric Barrier Discharges
Dielectric barrier discharge (DBD) excimer lamps emit vacuum-UV optical radiation. This work presents novel methods for efficiently operating DBDs with short, high-voltage pulses. Transformer-less systems utilising SiC power semiconductor switches are presented. Pulse frequencies of up to 3.1 MHz and peak inverter efficiencies of 92 % were achieved. The work encloses both mathematical backgrounds of pulsed resonant circuits and practical implementation of low-inductive power stages
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