446 research outputs found
Bipartite electronic SLA as a business framework to support cross-organization load management of real-time online applications
Online applications such as games and e-learning applications fall within the broader category of real-time online interactive applications (ROIA), a new class of ‘killer’ application for the Grid that is being investigated in the edutain@grid project. The two case studies in edutain@grid are an online game and an e-learning training application. We present a novel Grid-based business framework that makes use of bipartite service level agreements (SLAs) and dynamic invoice models to model complex business relationships in a massively scalable and flexible way. We support cross-organization load management at the business level, through zone migration. For evaluation we look at existing and extended value chains, the quality of service (QoS) metrics measured and the dynamic invoice models that support this work. We examine the causal links from customer quality of experience (QoE) and service provider quality of business (QoBiz) through to measured quality of service. Finally we discuss a shared reward business ecosystem and suggest how extended service level agreements and invoice models can support this
Mobile Online Gaming via Resource Sharing
Mobile gaming presents a number of main issues which remain open. These are
concerned mainly with connectivity, computational capacities, memory and
battery constraints. In this paper, we discuss the design of a fully
distributed approach for the support of mobile Multiplayer Online Games (MOGs).
In mobile environments, several features might be exploited to enable resource
sharing among multiple devices / game consoles owned by different mobile users.
We show the advantages of trading computing / networking facilities among
mobile players. This operation mode opens a wide number of interesting sharing
scenarios, thus promoting the deployment of novel mobile online games. In
particular, once mobile nodes make their resource available for the community,
it becomes possible to distribute the software modules that compose the game
engine. This allows to distribute the workload for the game advancement
management. We claim that resource sharing is in unison with the idea of ludic
activity that is behind MOGs. Hence, such schemes can be profitably employed in
these contexts.Comment: Proceedings of 3nd ICST/CREATE-NET Workshop on DIstributed SImulation
and Online gaming (DISIO 2012). In conjunction with SIMUTools 2012.
Desenzano, Italy, March 2012. ISBN: 978-1-936968-47-
Middleware services for distributed virtual environments
PhD ThesisDistributed Virtual Environments (DVEs) are virtual environments which allow
dispersed users to interact with each other and the virtual world through the
underlying network.
Scalability is a major challenge in building a successful DVE, which is directly
affected by the volume of message exchange. Different techniques have been
deployed to reduce the volume of message exchange in order to support large
numbers of simultaneous participants in a DVE. Interest management is a
popular technique for filtering unnecessary message exchange between users.
The rationale behind interest management is to resolve the "interests" of users
and decide whether messages should be exchanged between them. There are
three basic interest management approaches: region-based, aura-based and
hybrid approaches. However, if the time taken for an interest management
approach to determine interests is greater than the duration of the interaction, it
is not possible to guarantee interactions will occur correctly or at all. This is
termed the Missed Interaction Problem, which all existing interest management
approaches are susceptible to.
This thesis provides a new aura-based interest management approach, termed
Predictive Interest management (PIM), to alleviate the missed interaction
problem. PIM uses an enlarged aura to detect potential aura-intersections and
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initiate message exchange. It utilises variable message exchange frequencies,
proportional to the intersection degree of the objects' expanded auras, to restrict
bandwidth usage. This thesis provides an experimental system, the PIM system,
which couples predictive interest management with the de-centralised server
communication model. It utilises the Common Object Request Broker
Architecture (CORBA) middleware standard to provide an interoperable
middleware for DVEs. Experimental results are provided to demonstrate that
PIM provides a scalable interest management approach which alleviates the
missed interaction problem
Middleware services for distributed virtual environments
PhD ThesisDistributed Virtual Environments (DVEs) are virtual environments which allow
dispersed users to interact with each other and the virtual world through the
underlying network.
Scalability is a major challenge in building a successful DVE, which is directly
affected by the volume of message exchange. Different techniques have been
deployed to reduce the volume of message exchange in order to support large
numbers of simultaneous participants in a DVE. Interest management is a
popular technique for filtering unnecessary message exchange between users.
The rationale behind interest management is to resolve the "interests" of users
and decide whether messages should be exchanged between them. There are
three basic interest management approaches: region-based, aura-based and
hybrid approaches. However, if the time taken for an interest management
approach to determine interests is greater than the duration of the interaction, it
is not possible to guarantee interactions will occur correctly or at all. This is
termed the Missed Interaction Problem, which all existing interest management
approaches are susceptible to.
This thesis provides a new aura-based interest management approach, termed
Predictive Interest management (PIM), to alleviate the missed interaction
problem. PIM uses an enlarged aura to detect potential aura-intersections and
iii
initiate message exchange. It utilises variable message exchange frequencies,
proportional to the intersection degree of the objects' expanded auras, to restrict
bandwidth usage. This thesis provides an experimental system, the PIM system,
which couples predictive interest management with the de-centralised server
communication model. It utilises the Common Object Request Broker
Architecture (CORBA) middleware standard to provide an interoperable
middleware for DVEs. Experimental results are provided to demonstrate that
PIM provides a scalable interest management approach which alleviates the
missed interaction problem
Solving key design issues for massively multiplayer online games on peer-to-peer architectures
Massively Multiplayer Online Games (MMOGs) are increasing in both popularity and
scale on the Internet and are predominantly implemented by Client/Server architectures.
While such a classical approach to distributed system design offers many benefits, it suffers
from significant technical and commercial drawbacks, primarily reliability and scalability
costs. This realisation has sparked recent research interest in adapting MMOGs
to Peer-to-Peer (P2P) architectures.
This thesis identifies six key design issues to be addressed by P2P MMOGs, namely
interest management, event dissemination, task sharing, state persistency, cheating mitigation,
and incentive mechanisms. Design alternatives for each issue are systematically
compared, and their interrelationships discussed. How well representative P2P MMOG
architectures fulfil the design criteria is also evaluated. It is argued that although P2P
MMOG architectures are developing rapidly, their support for task sharing and incentive
mechanisms still need to be improved.
The design of a novel framework for P2P MMOGs, Mediator, is presented. It employs a
self-organising super-peer network over a P2P overlay infrastructure, and addresses the
six design issues in an integrated system. The Mediator framework is extensible, as it
supports flexible policy plug-ins and can accommodate the introduction of new superpeer
roles. Key components of this framework have been implemented and evaluated
with a simulated P2P MMOG.
As the Mediator framework relies on super-peers for computational and administrative
tasks, membership management is crucial, e.g. to allow the system to recover from
super-peer failures. A new technology for this, namely Membership-Aware Multicast
with Bushiness Optimisation (MAMBO), has been designed, implemented and evaluated.
It reuses the communication structure of a tree-based application-level multicast
to track group membership efficiently. Evaluation of a demonstration application shows
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that MAMBO is able to quickly detect and handle peers joining and leaving. Compared
to a conventional supervision architecture, MAMBO is more scalable, and yet incurs
less communication overheads. Besides MMOGs, MAMBO is suitable for other P2P
applications, such as collaborative computing and multimedia streaming.
This thesis also presents the design, implementation and evaluation of a novel task
mapping infrastructure for heterogeneous P2P environments, Deadline-Driven Auctions
(DDA). DDA is primarily designed to support NPC host allocation in P2P MMOGs, and
specifically in the Mediator framework. However, it can also support the sharing of computational
and interactive tasks with various deadlines in general P2P applications. Experimental
and analytical results demonstrate that DDA efficiently allocates computing
resources for large numbers of real-time NPC tasks in a simulated P2P MMOG with approximately
1000 players. Furthermore, DDA supports gaming interactivity by keeping
the communication latency among NPC hosts and ordinary players low. It also supports
flexible matchmaking policies, and can motivate application participants to contribute
resources to the system
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