ݺߣshows by User: HughCab / http://www.slideshare.net/images/logo.gif ݺߣshows by User: HughCab / Fri, 23 Sep 2016 17:46:44 GMT ݺߣShare feed for ݺߣshows by User: HughCab Mpls tp as packet platform for critical services in power transmission /slideshow/mpls-tp-as-packet-platform-for-critical-services-in-power-transmission-66352143/66352143 mpls-tpaspacketplatformforcriticalservicesinpowertransmission-160923174644
Beyond the trend of using IP as the “up to date technology” for SCADA (IEC 60870-5-104) and protections scheme integrated to a centralized management of the load (Sinchrophasors PMU), there is the need to approach the automatic switching and intrinsic autonomy of routing algorithms to provide smart capability to the communications network [1]. For long time IP equipment manufacturers have been trying to penetrate the electrical utilities with partial success, they were able to support only added value services as IP Video, VoIP and corporate IP traffic which is are not “critical” or essential to the electrical power system operation. On this paper is presented a theoretical-practical evaluation of the MPLS-TP protocol which offers an IP platform according to the complimentary services requirements (high bandwidth) as well for reliable channels features through the emulation of TDM systems with delay, symmetry and self-healing switching in order to warrant the correct operation of critical services as Teleprotection, Differential Relays and Sinchrophasors. Key time measurements will be presented which certifies the theoretical reliability of MPLS-TP as main IP communication platform in electrical transmission systems.]]>
Beyond the trend of using IP as the “up to date technology” for SCADA (IEC 60870-5-104) and protections scheme integrated to a centralized management of the load (Sinchrophasors PMU), there is the need to approach the automatic switching and intrinsic autonomy of routing algorithms to provide smart capability to the communications network [1]. For long time IP equipment manufacturers have been trying to penetrate the electrical utilities with partial success, they were able to support only added value services as IP Video, VoIP and corporate IP traffic which is are not “critical” or essential to the electrical power system operation. On this paper is presented a theoretical-practical evaluation of the MPLS-TP protocol which offers an IP platform according to the complimentary services requirements (high bandwidth) as well for reliable channels features through the emulation of TDM systems with delay, symmetry and self-healing switching in order to warrant the correct operation of critical services as Teleprotection, Differential Relays and Sinchrophasors. Key time measurements will be presented which certifies the theoretical reliability of MPLS-TP as main IP communication platform in electrical transmission systems.]]> Fri, 23 Sep 2016 17:46:44 GMT /slideshow/mpls-tp-as-packet-platform-for-critical-services-in-power-transmission-66352143/66352143 HughCab@slideshare.net(HughCab) Mpls tp as packet platform for critical services in power transmission HughCab Beyond the trend of using IP as the “up to date technology” for SCADA (IEC 60870-5-104) and protections scheme integrated to a centralized management of the load (Sinchrophasors PMU), there is the need to approach the automatic switching and intrinsic autonomy of routing algorithms to provide smart capability to the communications network [1]. For long time IP equipment manufacturers have been trying to penetrate the electrical utilities with partial success, they were able to support only added value services as IP Video, VoIP and corporate IP traffic which is are not “critical” or essential to the electrical power system operation. On this paper is presented a theoretical-practical evaluation of the MPLS-TP protocol which offers an IP platform according to the complimentary services requirements (high bandwidth) as well for reliable channels features through the emulation of TDM systems with delay, symmetry and self-healing switching in order to warrant the correct operation of critical services as Teleprotection, Differential Relays and Sinchrophasors. Key time measurements will be presented which certifies the theoretical reliability of MPLS-TP as main IP communication platform in electrical transmission systems. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/mpls-tpaspacketplatformforcriticalservicesinpowertransmission-160923174644-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Beyond the trend of using IP as the “up to date technology” for SCADA (IEC 60870-5-104) and protections scheme integrated to a centralized management of the load (Sinchrophasors PMU), there is the need to approach the automatic switching and intrinsic autonomy of routing algorithms to provide smart capability to the communications network [1]. For long time IP equipment manufacturers have been trying to penetrate the electrical utilities with partial success, they were able to support only added value services as IP Video, VoIP and corporate IP traffic which is are not “critical” or essential to the electrical power system operation. On this paper is presented a theoretical-practical evaluation of the MPLS-TP protocol which offers an IP platform according to the complimentary services requirements (high bandwidth) as well for reliable channels features through the emulation of TDM systems with delay, symmetry and self-healing switching in order to warrant the correct operation of critical services as Teleprotection, Differential Relays and Sinchrophasors. Key time measurements will be presented which certifies the theoretical reliability of MPLS-TP as main IP communication platform in electrical transmission systems.
Mpls tp as packet platform for critical services in power transmission from HughCab
]]> 487 2 https://cdn.slidesharecdn.com/ss_thumbnails/mpls-tpaspacketplatformforcriticalservicesinpowertransmission-160923174644-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 Mpls tp as packet platform for critical services in power transmission /slideshow/mpls-tp-as-packet-platform-for-critical-services-in-power-transmission/66193933 mpls-tpaspacketplatformforcriticalservicesinpowertransmission-160920024255
Beyond the trend of using IP as the “up to date technology” for SCADA (IEC 60870-5-104) and protections scheme integrated to a centralized management of the load (Sinchrophasors PMU), there is the need to approach the automatic switching and intrinsic autonomy of routing algorithms to provide smart capability to the communications network [1]. For long time IP equipment manufacturers have been trying to penetrate the electrical utilities with partial success, they were able to support only added value services as IP Video, VoIP and corporate IP traffic which is are not “critical” or essential to the electrical power system operation. On this paper is presented a theoretical-practical evaluation of the MPLS-TP protocol which offers an IP platform according to the complimentary services requirements (high bandwidth) as well for reliable channels features through the emulation of TDM systems with delay, symmetry and self-healing switching in order to warrant the correct operation of critical services as Teleprotection, Differential Relays and Sinchrophasors. Key time measurements will be presented which certifies the theoretical reliability of MPLS-TP as main IP communication platform in electrical transmission systems. ]]>
Beyond the trend of using IP as the “up to date technology” for SCADA (IEC 60870-5-104) and protections scheme integrated to a centralized management of the load (Sinchrophasors PMU), there is the need to approach the automatic switching and intrinsic autonomy of routing algorithms to provide smart capability to the communications network [1]. For long time IP equipment manufacturers have been trying to penetrate the electrical utilities with partial success, they were able to support only added value services as IP Video, VoIP and corporate IP traffic which is are not “critical” or essential to the electrical power system operation. On this paper is presented a theoretical-practical evaluation of the MPLS-TP protocol which offers an IP platform according to the complimentary services requirements (high bandwidth) as well for reliable channels features through the emulation of TDM systems with delay, symmetry and self-healing switching in order to warrant the correct operation of critical services as Teleprotection, Differential Relays and Sinchrophasors. Key time measurements will be presented which certifies the theoretical reliability of MPLS-TP as main IP communication platform in electrical transmission systems. ]]> Tue, 20 Sep 2016 02:42:55 GMT /slideshow/mpls-tp-as-packet-platform-for-critical-services-in-power-transmission/66193933 HughCab@slideshare.net(HughCab) Mpls tp as packet platform for critical services in power transmission HughCab Beyond the trend of using IP as the “up to date technology” for SCADA (IEC 60870-5-104) and protections scheme integrated to a centralized management of the load (Sinchrophasors PMU), there is the need to approach the automatic switching and intrinsic autonomy of routing algorithms to provide smart capability to the communications network [1]. For long time IP equipment manufacturers have been trying to penetrate the electrical utilities with partial success, they were able to support only added value services as IP Video, VoIP and corporate IP traffic which is are not “critical” or essential to the electrical power system operation. On this paper is presented a theoretical-practical evaluation of the MPLS-TP protocol which offers an IP platform according to the complimentary services requirements (high bandwidth) as well for reliable channels features through the emulation of TDM systems with delay, symmetry and self-healing switching in order to warrant the correct operation of critical services as Teleprotection, Differential Relays and Sinchrophasors. Key time measurements will be presented which certifies the theoretical reliability of MPLS-TP as main IP communication platform in electrical transmission systems. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/mpls-tpaspacketplatformforcriticalservicesinpowertransmission-160920024255-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Beyond the trend of using IP as the “up to date technology” for SCADA (IEC 60870-5-104) and protections scheme integrated to a centralized management of the load (Sinchrophasors PMU), there is the need to approach the automatic switching and intrinsic autonomy of routing algorithms to provide smart capability to the communications network [1]. For long time IP equipment manufacturers have been trying to penetrate the electrical utilities with partial success, they were able to support only added value services as IP Video, VoIP and corporate IP traffic which is are not “critical” or essential to the electrical power system operation. On this paper is presented a theoretical-practical evaluation of the MPLS-TP protocol which offers an IP platform according to the complimentary services requirements (high bandwidth) as well for reliable channels features through the emulation of TDM systems with delay, symmetry and self-healing switching in order to warrant the correct operation of critical services as Teleprotection, Differential Relays and Sinchrophasors. Key time measurements will be presented which certifies the theoretical reliability of MPLS-TP as main IP communication platform in electrical transmission systems.
Mpls tp as packet platform for critical services in power transmission from HughCab
]]> 467 5 https://cdn.slidesharecdn.com/ss_thumbnails/mpls-tpaspacketplatformforcriticalservicesinpowertransmission-160920024255-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 SISTEMA DE COMUNICACIONES INTELIGENTE PARA REDES DE POTENCIA SISTEMA DE COMUNICACIONES INTELIGENTE PARA REDES DE POTENCIA (SMART COMMUNICATION SYSTEM SCS) (SMART COMMUNICATION https://es.slideshare.net/HughCab/gtl-22 gtl22-150516012429-lva1-app6891
Define la filosofía operativa y de interfaz común entre la nueva generación de equipos de onda portadora digital y los sistemas tradicionales de comunicación (fibra óptica o radio) existentes en las redes de comunicación establecidas sobre los sistemas de transmisión eléctricos. Esta integración permite el aprovechamiento de la estructura enmallada de la red eléctrica cual medio de transmisión se use en cada tramo (plc, fibra, radio) aportando inteligencia de enrutamiento a la voz y los datos. SCS representa el puente inteligente entre los sistemas de generación, centro de control y la distribución energía. Define la filosofía operativa y de interfaz común entre la nueva generación de equipos de onda portadora digital y tradicionales de comunicación (fibra óptica o radio) existentes en las redes de comunicación establecidas sobre los sistemas de transmisión eléctricos. Esta integración permite el aprovechamiento de la estructura enmallada de la red eléctrica cual medio de transmisión se use en cada tramo (plc, fibra, radio) aportando inteligencia de enrutamiento a la voz SCS representa el puente inteligente entre los sistemas de generación, centro de control y la distribución Define la filosofía operativa y de interfaz común entre la nueva generación de equipos de onda portadora digital y tradicionales de comunicación (fibra óptica o radio) existentes en las redes de comunicación Esta integración permite el aprovechamiento de la estructura enmallada de la red eléctrica independientemente de cual medio de transmisión se use en cada tramo (plc, fibra, radio) aportando inteligencia de enrutamiento a la voz SCS representa el puente inteligente entre los sistemas de generación, centro de control y la distribución de]]>
Define la filosofía operativa y de interfaz común entre la nueva generación de equipos de onda portadora digital y los sistemas tradicionales de comunicación (fibra óptica o radio) existentes en las redes de comunicación establecidas sobre los sistemas de transmisión eléctricos. Esta integración permite el aprovechamiento de la estructura enmallada de la red eléctrica cual medio de transmisión se use en cada tramo (plc, fibra, radio) aportando inteligencia de enrutamiento a la voz y los datos. SCS representa el puente inteligente entre los sistemas de generación, centro de control y la distribución energía. Define la filosofía operativa y de interfaz común entre la nueva generación de equipos de onda portadora digital y tradicionales de comunicación (fibra óptica o radio) existentes en las redes de comunicación establecidas sobre los sistemas de transmisión eléctricos. Esta integración permite el aprovechamiento de la estructura enmallada de la red eléctrica cual medio de transmisión se use en cada tramo (plc, fibra, radio) aportando inteligencia de enrutamiento a la voz SCS representa el puente inteligente entre los sistemas de generación, centro de control y la distribución Define la filosofía operativa y de interfaz común entre la nueva generación de equipos de onda portadora digital y tradicionales de comunicación (fibra óptica o radio) existentes en las redes de comunicación Esta integración permite el aprovechamiento de la estructura enmallada de la red eléctrica independientemente de cual medio de transmisión se use en cada tramo (plc, fibra, radio) aportando inteligencia de enrutamiento a la voz SCS representa el puente inteligente entre los sistemas de generación, centro de control y la distribución de]]> Sat, 16 May 2015 01:24:29 GMT https://es.slideshare.net/HughCab/gtl-22 HughCab@slideshare.net(HughCab) SISTEMA DE COMUNICACIONES INTELIGENTE PARA REDES DE POTENCIA SISTEMA DE COMUNICACIONES INTELIGENTE PARA REDES DE POTENCIA (SMART COMMUNICATION SYSTEM SCS) (SMART COMMUNICATION HughCab Define la filosofía operativa y de interfaz común entre la nueva generación de equipos de onda portadora digital y los sistemas tradicionales de comunicación (fibra óptica o radio) existentes en las redes de comunicación establecidas sobre los sistemas de transmisión eléctricos. Esta integración permite el aprovechamiento de la estructura enmallada de la red eléctrica cual medio de transmisión se use en cada tramo (plc, fibra, radio) aportando inteligencia de enrutamiento a la voz y los datos. SCS representa el puente inteligente entre los sistemas de generación, centro de control y la distribución energía. Define la filosofía operativa y de interfaz común entre la nueva generación de equipos de onda portadora digital y tradicionales de comunicación (fibra óptica o radio) existentes en las redes de comunicación establecidas sobre los sistemas de transmisión eléctricos. Esta integración permite el aprovechamiento de la estructura enmallada de la red eléctrica cual medio de transmisión se use en cada tramo (plc, fibra, radio) aportando inteligencia de enrutamiento a la voz SCS representa el puente inteligente entre los sistemas de generación, centro de control y la distribución Define la filosofía operativa y de interfaz común entre la nueva generación de equipos de onda portadora digital y tradicionales de comunicación (fibra óptica o radio) existentes en las redes de comunicación Esta integración permite el aprovechamiento de la estructura enmallada de la red eléctrica independientemente de cual medio de transmisión se use en cada tramo (plc, fibra, radio) aportando inteligencia de enrutamiento a la voz SCS representa el puente inteligente entre los sistemas de generación, centro de control y la distribución de <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/gtl22-150516012429-lva1-app6891-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Define la filosofía operativa y de interfaz común entre la nueva generación de equipos de onda portadora digital y los sistemas tradicionales de comunicación (fibra óptica o radio) existentes en las redes de comunicación establecidas sobre los sistemas de transmisión eléctricos. Esta integración permite el aprovechamiento de la estructura enmallada de la red eléctrica cual medio de transmisión se use en cada tramo (plc, fibra, radio) aportando inteligencia de enrutamiento a la voz y los datos. SCS representa el puente inteligente entre los sistemas de generación, centro de control y la distribución energía. Define la filosofía operativa y de interfaz común entre la nueva generación de equipos de onda portadora digital y tradicionales de comunicación (fibra óptica o radio) existentes en las redes de comunicación establecidas sobre los sistemas de transmisión eléctricos. Esta integración permite el aprovechamiento de la estructura enmallada de la red eléctrica cual medio de transmisión se use en cada tramo (plc, fibra, radio) aportando inteligencia de enrutamiento a la voz SCS representa el puente inteligente entre los sistemas de generación, centro de control y la distribución Define la filosofía operativa y de interfaz común entre la nueva generación de equipos de onda portadora digital y tradicionales de comunicación (fibra óptica o radio) existentes en las redes de comunicación Esta integración permite el aprovechamiento de la estructura enmallada de la red eléctrica independientemente de cual medio de transmisión se use en cada tramo (plc, fibra, radio) aportando inteligencia de enrutamiento a la voz SCS representa el puente inteligente entre los sistemas de generación, centro de control y la distribución de
from HughCab
]]> 1093 2 https://cdn.slidesharecdn.com/ss_thumbnails/gtl22-150516012429-lva1-app6891-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 Smart communication system scs /slideshow/smart-communication-system-scs/48210995 smartcommunicationsystemscs-150516012153-lva1-app6892
Smart Communication System (SCS) defines the operation philosophy for the interface of new generation power line carrier equipment PLC [1] with legacy fiber optic and radio communication systems converging all them in a homogeneous communication network allowing packet switching over the mesh grid using all existing point to point links even if they are TDM nature.]]>
Smart Communication System (SCS) defines the operation philosophy for the interface of new generation power line carrier equipment PLC [1] with legacy fiber optic and radio communication systems converging all them in a homogeneous communication network allowing packet switching over the mesh grid using all existing point to point links even if they are TDM nature.]]> Sat, 16 May 2015 01:21:53 GMT /slideshow/smart-communication-system-scs/48210995 HughCab@slideshare.net(HughCab) Smart communication system scs HughCab Smart Communication System (SCS) defines the operation philosophy for the interface of new generation power line carrier equipment PLC [1] with legacy fiber optic and radio communication systems converging all them in a homogeneous communication network allowing packet switching over the mesh grid using all existing point to point links even if they are TDM nature. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/smartcommunicationsystemscs-150516012153-lva1-app6892-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Smart Communication System (SCS) defines the operation philosophy for the interface of new generation power line carrier equipment PLC [1] with legacy fiber optic and radio communication systems converging all them in a homogeneous communication network allowing packet switching over the mesh grid using all existing point to point links even if they are TDM nature.
Smart communication system scs from HughCab
]]> 893 3 https://cdn.slidesharecdn.com/ss_thumbnails/smartcommunicationsystemscs-150516012153-lva1-app6892-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 https://public.slidesharecdn.com/v2/images/profile-picture.png https://cdn.slidesharecdn.com/ss_thumbnails/mpls-tpaspacketplatformforcriticalservicesinpowertransmission-160923174644-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/mpls-tp-as-packet-platform-for-critical-services-in-power-transmission-66352143/66352143 Mpls tp as packet plat... https://cdn.slidesharecdn.com/ss_thumbnails/mpls-tpaspacketplatformforcriticalservicesinpowertransmission-160920024255-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/mpls-tp-as-packet-platform-for-critical-services-in-power-transmission/66193933 Mpls tp as packet plat... https://cdn.slidesharecdn.com/ss_thumbnails/gtl22-150516012429-lva1-app6891-thumbnail.jpg?width=320&height=320&fit=bounds HughCab/gtl-22 SISTEMA DE COMUNICACIO...