Integrated PMR-Broadband-IP Network for Secure Real-time Multimedia Information Sharing
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Authors
Subik, Sebastian
Christian Wietfeld
Subjects
Advisors
Date of Issue
2012-05
Date
2012-05
Publisher
Monterey, California. Naval Postgraduate School
Center for Homeland Defense and Security
Center for Homeland Defense and Security
Language
en_US
Abstract
"In this paper, the authors present a novel solution for the integration of TETRA-based [Terrestrial Trunked Radio] PMR [Professional Mobile Radio] and IP [Internet Protocol] based wireless broadband networks through a novel inter-system interface. This solution enables secure group communications based on PMR standards using heterogeneous devices ranging from a traditional PMR device to smart phones such as the iPhone. Thereby a Smart-phone user will be enabled to leverage on one hand the multimedia data capabilities of 3G and 4G wireless networks (UMTS [Universal Mobile Telecommunications System], LTE [Long Term Evolution]) while at the same time be part of a PMR group communication. In other words, any authorized Smart-phone can become part of a PMR communication group by simply downloading the appropriate, dedicated Application. As a key benefit, homeland security personnel can be included in the disaster response actions instantaneously, without necessarily carrying around a PMR device and without the need for PMR coverage. In contrast to existing solutions, the proposed interface solution prevents the reduction of the voice quality when bridging system boundaries by tandem encoding with a TETRA-over-IP (ToIP) interconnection. The presented solutions include different interconnection setups including Trunked Mode (TMO) and Direct Mode (DMO) capabilities. To enable the group communications services as known in PMR systems, a dedicated protocol, the Push-to-X protocol developed by CNI [Communication Networks Institute], is leveraged. The results of performance evaluations show that the speech quality is still acceptable even under harsh conditions. The proposed system therefore paves the way towards a future, high performance PMR based on LTE, while preserving backwards compatibility with existing PMR systems."
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Article
Description
This article appeared in Homeland Security Affairs (May 2012), supplement 5, article 3
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Homeland Security Affairs (May 2012), supplement 5, article 3
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