Topic
IP Multimedia Subsystem
About: IP Multimedia Subsystem is a research topic. Over the lifetime, 4398 publications have been published within this topic receiving 43698 citations.
Papers published on a yearly basis
Papers
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TL;DR: An optimal deployment scenario will benefit users and operators as they move towards a new telecommunication framework for multimedia services.
Abstract: An optimal deployment scenario will benefit users and operators as we move towards a new telecommunication framework for multimedia services.
18 citations
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20 Dec 2002TL;DR: In this article, the authors propose an effective and efficient way to link multimedia sessions involving multimedia clients with a conference call involving telephony devices associated with the multimedia clients, where the telephony system will recognize a call directed to an audio bridge, as well as trigger a message indicating the same.
Abstract: The present invention provides an effective and efficient way to link multimedia sessions involving multimedia clients with a conference call involving telephony devices associated with the multimedia clients. In operation, the telephony system will recognize a call directed to an audio bridge, as well as trigger a message indicating the same. The message includes the telephony device's directory number, which is used to access an address for an associated multimedia client. The address for the multimedia client is sent to a multimedia bridge, which is associated with the audio bridge. The multimedia bridge will use the multimedia client's address to send the multimedia client the address for the multimedia bridge, addresses for other participating multimedia clients, and various types of information bearing on the multimedia aspect of the conference call.
18 citations
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TL;DR: A lightweight, robust, and architecture-compatible IMS authentication protocol is presented that implements a one-pass IMS procedure by promoting efficient key re-use for a mobile user and results in a user authentication delay decrease of more than 50 percent.
Abstract: The provision of IP Multimedia Subsystem (IMS) introduces important advantages for users of 3G-WLAN networks. However, a multi-pass authentication procedure needs to be performed before accessing the IMS, resulting in added overhead and possible Quality of Service (QoS) degradations. The problem is further compounded when the user moves from one Wireless Local Area Network (WLAN) domain into another, which requires the authentication procedure to be repeated. To mitigate this problem, we present a lightweight, robust, and architecture-compatible IMS authentication protocol that implements a one-pass IMS procedure by promoting efficient key re-use for a mobile user. The security of the proposed protocols is verified using the Automated Validation of Internet Security Protocols and Applications (AVISPA) security analyser. We also analyse the authentication delay of our proposed scheme. Numerical results reveal a reduction in user authentication delay of more than 50% compared to the existing authentication procedure.
18 citations
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31 Oct 2013TL;DR: In this paper, a mobile device detects a feature, on the mobile device, that supports presenting a priority call notification and initiates, via a first communication protocol, a pending call to the contact's mobile device.
Abstract: A network device receives, via a user interface, a selection to call a contact's mobile device. The mobile device detects a feature, on the contact's mobile device, that supports presenting a priority call notification and initiates, via a first communication protocol, a pending call to the contact's mobile device. The mobile device presents, prior to the pending call being connected and based on the detecting the feature set, a user interface to solicit a priority indicator option. The mobile device receives, via the user interface, a selection of the priority indicator option and sends, via a second communication protocol, a priority indication flag for the pending call.
17 citations
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02 Dec 2013TL;DR: A virtualization-based cloud platform for the IMS core network, with a novel load-balance and disaster recovery policy, is proposed and experimental results indicate that the proposed mechanism improves system performance by dynamic allocating resources according to current load.
Abstract: IP Multimedia Subsystem (IMS) has been accepted as the core control platform by 3GPP. It has been recognized as the vision beyond GSM for the Next Generation Network (NGN). The IMS framework delivers IP multimedia to mobile users through Session Initiation Protocol (SIP) and supports heterogeneous networks access. In this paper, we propose a virtualization-based cloud platform for the IMS core network, with a novel load-balance and disaster recovery policy. Experimental results indicate that the proposed mechanism improves system performance by dynamic allocating resources according to current load. The proposed cloud infrastructure is able to recover from a disaster in seconds by using live migration of virtual machines.
17 citations