Cisco Cisco E-Mail Manager Unity Integration Option Guida Alla Progettazione
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Cisco Unified Contact Center Enterprise 7.0, 7.1, and 7.2 SRND
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Chapter 1 Architecture Overview
Cisco Unified Customer Voice Portal (Unified CVP)
grouped into a cluster to provide for scalability and fault tolerance. Unified CM communicates with the
gateways using standard protocols such as H.323, Media Gateway Control Protocol (MGCP), and
Session Initiation Protocol (SIP). Unified CM communicates with the IP phones using SIP or Skinny
Call Control Protocol (SCCP). For details on Unified CM call processing capabilities and clustering
options, refer to the latest version of the Cisco Unified Communications Solution Reference Network
Design (SRND) guide, available at:
gateways using standard protocols such as H.323, Media Gateway Control Protocol (MGCP), and
Session Initiation Protocol (SIP). Unified CM communicates with the IP phones using SIP or Skinny
Call Control Protocol (SCCP). For details on Unified CM call processing capabilities and clustering
options, refer to the latest version of the Cisco Unified Communications Solution Reference Network
Design (SRND) guide, available at:
http://www.cisco.com/en/US/products/sw/voicesw/ps556/products_implementation_design_guides
_list.html
_list.html
A single Unified CM subscriber server is capable of supporting hundreds of agents. In a fault-tolerant
design, a Unified CM cluster is capable of supporting thousands of agents. However, the number of
agents and the number of busy hour call attempts (BHCA) supported within a cluster varies and must be
sized according to guidelines defined in the chapter on
design, a Unified CM cluster is capable of supporting thousands of agents. However, the number of
agents and the number of busy hour call attempts (BHCA) supported within a cluster varies and must be
sized according to guidelines defined in the chapter on
.
Typically, when designing a Unified CCE solution, you first define the deployment scenario, including
arrival point(s) for voice traffic and the location(s) of the contact center agents. After defining the
deployment scenario, you can determine the sizing of the individual components within the Unified CCE
design for such things as how many Unified CM servers are needed within a Unified CM cluster, how
many voice gateways are needed for each site and for the entire enterprise, how many servers and what
types of servers are required for the Unified ICM software, how many Unified IP IVR or Unified CVP
servers are needed, and so forth.
arrival point(s) for voice traffic and the location(s) of the contact center agents. After defining the
deployment scenario, you can determine the sizing of the individual components within the Unified CCE
design for such things as how many Unified CM servers are needed within a Unified CM cluster, how
many voice gateways are needed for each site and for the entire enterprise, how many servers and what
types of servers are required for the Unified ICM software, how many Unified IP IVR or Unified CVP
servers are needed, and so forth.
Cisco Voice Gateways
When you select voice gateways for a Unified CCE deployment, it is important to select voice gateways
that satisfy not only the number of required PSTN trunks but also the busy hour call completion rate on
those trunks. Busy hour call completion rates per PSTN trunk are typically higher in a contact center
than in a normal office environment. For Cisco Catalyst Communications Media Module (CMM) voice
gateways being used in pure contact center deployments, Cisco recommends provisioning a maximum
of four T1/E1 interfaces to ensure that the call processing capacity of the voice gateway is satisfactory.
that satisfy not only the number of required PSTN trunks but also the busy hour call completion rate on
those trunks. Busy hour call completion rates per PSTN trunk are typically higher in a contact center
than in a normal office environment. For Cisco Catalyst Communications Media Module (CMM) voice
gateways being used in pure contact center deployments, Cisco recommends provisioning a maximum
of four T1/E1 interfaces to ensure that the call processing capacity of the voice gateway is satisfactory.
Cisco Unified Customer Voice Portal (Unified CVP)
The Unified CVP provides prompting, collecting, queuing, and call control services using standard
web-based technologies. The Unified CVP architecture is distributed, fault tolerant, and highly scalable.
With the Unified CVP system, voice is terminated on Cisco IOS gateways that interact with the Unified
CVP application server (Microsoft Windows Server) using VoiceXML (speech) and H.323 (call control).
web-based technologies. The Unified CVP architecture is distributed, fault tolerant, and highly scalable.
With the Unified CVP system, voice is terminated on Cisco IOS gateways that interact with the Unified
CVP application server (Microsoft Windows Server) using VoiceXML (speech) and H.323 (call control).
The Unified CVP software is tightly integrated with the Cisco Unified ICM software for application
control. The Unified ICM scripting environment controls the execution of building-block functions such
as play media, play data, menu, and collect information. The Unified ICM script can also invoke external
VoiceXML applications to be executed by the Unified CVP VoiceXML Server, an Eclipse and J2EE-
based scripting and web server environment. VoiceXML Server is well suited for sophisticated and
high-volume IVR applications, and it can interact with custom or third-party J2EE-based services. These
applications can return results and control to the Unified ICM script when complete. Advanced load
balancing across all Unified CVP solution components can be achieved by Cisco Content Services
Switch (CSS) and Cisco IOS Gatekeepers.
control. The Unified ICM scripting environment controls the execution of building-block functions such
as play media, play data, menu, and collect information. The Unified ICM script can also invoke external
VoiceXML applications to be executed by the Unified CVP VoiceXML Server, an Eclipse and J2EE-
based scripting and web server environment. VoiceXML Server is well suited for sophisticated and
high-volume IVR applications, and it can interact with custom or third-party J2EE-based services. These
applications can return results and control to the Unified ICM script when complete. Advanced load
balancing across all Unified CVP solution components can be achieved by Cisco Content Services
Switch (CSS) and Cisco IOS Gatekeepers.
Unified CVP can support multiple grammars for prerecorded announcements in several languages.
Unified CVP can optionally provide automatic speech recognition and text-to-speech capability. Unified
CVP can also access customer databases and applications via the Cisco Unified ICM software.
Unified CVP can optionally provide automatic speech recognition and text-to-speech capability. Unified
CVP can also access customer databases and applications via the Cisco Unified ICM software.