Cisco Cisco IPCC Web Option Design Guide
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Cisco Unified Contact Center Enterprise 7.0, 7.1, and 7.2 SRND
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Chapter 9 Sizing Call Center Resources
Sizing Call Center Agents, IVR Ports, and Gateways or Trunks (Inbound Call Center)
These two outputs from the Erlang-C calculation are then used as inputs for the imbedded Erlang-B
function in the calculator to compute the number of IVR ports required for queuing (10 ports in this
example).
function in the calculator to compute the number of IVR ports required for queuing (10 ports in this
example).
PSTN Trunks (Voice Gateway Ports)
Similarly the calculator uses Erlang-B to calculate the required number of voice gateway ports (PSTN
trunks) based on the call load (answered calls) and the calls that have to queue when no agents are
available.
trunks) based on the call load (answered calls) and the calls that have to queue when no agents are
available.
Total trunks required to carry this total traffic load above is 103 trunks.
This calculation does not include trunks that might be needed for call scenarios that require all calls to
be treated first in the IVR before they are presented to available agents. That scenario is discussed in the
next example.
be treated first in the IVR before they are presented to available agents. That scenario is discussed in the
next example.
Call Treatment Example
This example builds upon the basic example in the preceding section. Again, all incoming calls to the
call center are presented to the voice gateway from the PSTN, then calls are immediately routed to the
Unified IP IVR for call treatment (such as an initial greeting or to gather account information via
prompt-and-collect) before they are presented to an agent, if available. If no agents are available, calls
are queued until an agent becomes available.
call center are presented to the voice gateway from the PSTN, then calls are immediately routed to the
Unified IP IVR for call treatment (such as an initial greeting or to gather account information via
prompt-and-collect) before they are presented to an agent, if available. If no agents are available, calls
are queued until an agent becomes available.
The impact of presenting all calls to the Unified IP IVR is that the PSTN trunks are held longer, for the
period of the call treatment holding time. More Unified IP IVR ports are also required to carry this extra
load, in addition to the ports required for queued calls.
period of the call treatment holding time. More Unified IP IVR ports are also required to carry this extra
load, in addition to the ports required for queued calls.
Call treatment (prompt and collect) in this example appears not to impact the number of required agents
because the traffic load presented to the agents (number of calls, talk time, and service level) is assumed
not to have changed. In reality, adding call treatment such as collecting information input form the
callers to identify them to agents using a CTI-Pop screen will reduce the average time a caller spends
with an agent, thus saving valuable resources, providing more accurate selection and routing of
appropriate agent, and improving customer service.
because the traffic load presented to the agents (number of calls, talk time, and service level) is assumed
not to have changed. In reality, adding call treatment such as collecting information input form the
callers to identify them to agents using a CTI-Pop screen will reduce the average time a caller spends
with an agent, thus saving valuable resources, providing more accurate selection and routing of
appropriate agent, and improving customer service.
Using a 15-second call treatment and keeping all other inputs the same,
shows the number of
PSTN trunks (112) and Unified IP IVR ports (16) required in addition to the existing 10 ports for
queuing.
queuing.