Topic
Telecom infrastructure sharing
About: Telecom infrastructure sharing is a research topic. Over the lifetime, 442 publications have been published within this topic receiving 2727 citations.
Papers published on a yearly basis
Papers
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01 Jan 2007TL;DR: This paper evaluates benefits and drawbacks of Web Service applications within a Telecom domain, analyzing current standardization proposals for asynchronous web services, which are a necessary evolution towards a fully interoperable telecommunication service oriented architecture.
Abstract: Web Services are often used for providing and composing business services but this approach does not scale easily for telecommunication services and for value added ones, composing services offered by IT providers with telecom operators ones.
The typical request-response interaction style is the main bottleneck when applying web services protocols to the telecom domain, which requires higher performances and needs efficient ways to handle notifications of events produced by different network resources in the telecommunication infrastructure.
This paper evaluates benefits and drawbacks of Web Service applications within a Telecom domain, analyzing current standardization proposals for asynchronous web services, which are a necessary evolution towards a fully interoperable telecommunication service oriented architecture.
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01 Jan 2014-International Journal of Advanced Research in Electrical, Electronics and Instrumentation Energy
TL;DR: Smart-phones, interoperable between the telecom networks and the Internet, are dangerous conduits for Internet security threats to reach the telecom infrastructure.
Abstract: Internet has been permeating into every corner of the world and every aspect of our lives, empowering us with anywhere, anytime remote access and control over information, personal communications (e.g., through smart-phones), and our environment (e.g., through the use of sensors, actuators, and RFIDs). While enabling interoperation with the Internet brings tremendous opportunities in service creation and information access. In this paper, we wish to alarm the community that the longrealized risk of interoperation with the Internet is becoming a reality: Smart-phones, interoperable between the telecom networks and the Internet, are dangerous conduits for Internet security threats to reach the telecom infrastructure.
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27 Jul 2014TL;DR: In this paper, a collection of slides covers the following topics: Indian telecom market; and telecommunication policy, and the authors present a set of slides for each of the topics.
Abstract: Presents a collection of slides covers the following topics: Indian telecom market; and telecommunication policy.
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01 Jan 2012TL;DR: In this paper, the authors present an Indefeasible Right of Use (IRU) as a possible remedy for telecom infrastructure delays in Poland, and propose a game theory model with payoffs depending on regulator's and incumbent's strategies.
Abstract: The aim of this paper is to present an Indefeasible Right of Use (IRU) as a possible
remedy for telecom infrastructure EU projects that (in Poland) have been lagged
behind the time. Thanks for IRU, Beneficiaries of these EU projects will be able
to save both: time and money and will finish projects successfully. The author
discusses two possible methods of implementing IRU: via regulatory obligation and
via incumbent’s goodwill. The author proposes a game theory model with payoffs
depending on regulator’s and incumbent’s strategies. Using a game theory tree,
the author shows that if only the incumbent is willing to offer his own network,
IRU may be signed and most delays in EU projects disappear. The success is not
so obvious while implementing IRU as an obligation – in this case EU projects
will probably fail.
01 Jan 2009
TL;DR: In this paper, the authors focus on how to use context in defining call flows within a Telecom services infrastructure, and assume a Next Generation Network (NGN) infrastructure for the Telecom Services Provider to ensure a common IP backbone for all services.
Abstract: As telecom carriers migrate their networks to a common IP Multimedia Subsystem (IMS) based infrastructure, they face a challenge of providing services to their customers based on the current need or situation of the customer. We have seen how Web 2.0 allows a user to build situational applications or mashups. We have used the concept of Context to provide a framework to service providers for providing such services. Context can be defined with attributes such as presence and location. A SOA based services infrastructure would help Telecom service providers to use context in providing composite services to their customers. This paper focuses on how to use context in defining call flows within a Telecom services infrastructure. We assume a Next Generation Network (NGN) infrastructure for the Telecom Services Provider, which would ensure a common IP backbone for all services. Based on our industry implementations, we will describe a generic call flow for one of the context attributes.