Citas bibligráficas
Adrianzen, J., (2021). Diseño e implementación de una plataforma VoIP basada en el protocolo SIP para el call center de una entidad bancaria nacional [Universidad Tecnológica del Perú]. https://hdl.handle.net/20.500.12867/4870
Adrianzen, J., Diseño e implementación de una plataforma VoIP basada en el protocolo SIP para el call center de una entidad bancaria nacional []. PE: Universidad Tecnológica del Perú; 2021. https://hdl.handle.net/20.500.12867/4870
@misc{renati/804587,
title = "Diseño e implementación de una plataforma VoIP basada en el protocolo SIP para el call center de una entidad bancaria nacional",
author = "Adrianzen Solis, Jose Edmundo",
publisher = "Universidad Tecnológica del Perú",
year = "2021"
}
The project of Design and Implementation of a VoIP platform based on the SIP protocol for the call centerof a national bank, consists of implementing the Pure Engage product from the manufacturer Genesys on a virtualized infrastructure to replace a modular Telephone System that is technologicallyoutdated.In the development of theproject, two call centerinfrastructures were implemented in two geographically distant locations, on which the SIP Server and Genesys Voice Platform solutions were installed, which will be in charge of signaling SIP traffic and controlling the establishment of calls between the network. publictelephony PSTN and the internal elements of the platform. In addition, the GIA (Genesys Intelligent Automation) solution was implemented that will provide the logical services of the IVR andtraceability on the calls self-managed by the client, which currently stands at between 60% and 70%. On the other hand, Pulse and Info Mart reporting solutions were implemented that will provide visibility on the operational management and performance indicators of the call center.The installed call centertechnological platform has the necessary resource capacity to meet the call demand, with a system occupancy of 45%; as well as, problems related to hardware dependencies and integrations with obsolete components were overcome, achieving a scalable and flexible infrastructure with business applications. In addition, an architecture of local high availability and geographic redundancy was designed to provide operational continuity to the business in the face of a massive failure scenario with an expected annual service level of 99.99% service availability.
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