Diseño e implementación de una solución de VoIP

El presente proyecto propone y compara diferentes diseños para dar solución a los requerimientos de comunicaciones de voz expuestos por un cliente de la empresa dedicada a la integración de soluciones de comunicación en la que actualmente trabajo. Debido a la implicación laboral con Siemens en los últimos 5 años, las soluciones de este proyecto se basan en las plataformas de este fabricante, tanto en sus sistemas para las comunicaciones tradicionales convergentes a IP, como en sus servidores para las Unified Communications

Diseño e implementación de una solución de VoIP

El presente proyecto propone y compara diferentes diseños para dar solución a los requerimientos de comunicaciones de voz expuestos por un cliente de la empresa dedicada a la integración de soluciones de comunicación en la que actualmente trabajo. Debido a la implicación laboral con Siemens en los últimos 5 años, las soluciones de este proyecto se basan en las plataformas de este fabricante, tanto en sus sistemas para las comunicaciones tradicionales convergentes a IP, como en sus servidores para las Unified Communications

SUBSURFACE REPOSITORY INTEGRATED CONTROL SYSTEM DESIGN

The primary purpose of this document is to develop a preliminary high-level functional and physical control system architecture for the potential repository at Yucca Mountain. This document outlines an overall control system concept that encompasses and integrates the many diverse process and communication systems being developed for the subsurface repository design. This document presents integrated design concepts for monitoring and controlling the diverse set of subsurface operations. The Subsurface Repository Integrated Control System design will be composed of a series of diverse process systems and communication networks. The subsurface repository design contains many systems related to instrumentation and control (I&C) for both repository development and waste emplacement operations. These systems include waste emplacement, waste retrieval, ventilation, radiological and air monitoring, rail transportation, construction development, utility systems (electrical, lighting, water, compressed air, etc.), fire protection, backfill emplacement, and performance confirmation. Each of these systems involves some level of I&C and will typically be integrated over a data communications network throughout the subsurface facility. The subsurface I&C systems will also interface with multiple surface-based systems such as site operations, rail transportation, security and safeguards, and electrical/piped utilities. In addition to the I&C systems, the subsurface repository design also contains systems related to voice and video communications. The components for each of these systems will be distributed and linked over voice and video communication networks throughout the subsurface facility. The scope and primary objectives of this design analysis are to: (1) Identify preliminary system-level functions and interfaces (Section 6.2). (2) Examine the overall system complexity and determine how and on what levels the engineered process systems will be monitored, controlled, and interfaced (Section 6.2). (3) Develop a preliminary design for the overall Subsurface Repository Integrated Control System functional architecture and graphically depict the operational features of this design through a series of control system functional block diagrams (Section 6.2). (4) Develop a physical architecture that presents a viable yet preliminary physical implementation for the Subsurface Repository Integrated Control System functional architecture (Section 6.3). (5) Develop an initial concept for an overall subsurface data communications network that can be used to integrate the various control systems comprising the Subsurface Repository Integrated Control System (Section 6.4). (6) Develop a preliminary central control room design for the Subsurface Repository Integrated Control System (Section 6.5). (7) Identify and discuss the general safety-related issues and design strategies with respect to development of the Subsurface Repository Integrated Control System (Section 6.6). (8) Discuss plans for the Subsurface Repository Integrated Control System's response to off-normal operations (Section 6.7). (9) Discuss plans and strategies for developing software for the Subsurface Repository Integrated Control System (Section 6.8)

High efficiency, character-oriented, local area networks

Imperial Users onl

ACUTA eNews June 1984, Vol. 13, No. 6

In This Issue President\u27s Message Party Line Bell Labs Won\u27t Have To Share ldeas As Much Why AT&T Will Lose More Long-Distance Business United Telecom Makes Long Distance Phone Plan AT&T Long Distance Plan Stirs Varied Reactions The lrony Of lt Al