A system for quickly deploying QM systems in contact centers is provided. A user or administrator can quickly install a QM application on a deployment server. The administrator can provide the QM application access to the contact center data where the QM application can import data from the contact center routing system about one or more customers, agents, queues, teams, and any other information or items typically associated with contact center routing systems. The imported data may also include presence data about the agents, teams, and customers. Based on the imported data, the QM application may execute one or more workflows to automatically determine information such as evaluation frequency and coaching frequency about the agents and teams, or to create or select quality forms to use for the evaluation one or more agents, teams, or contacts.

A system for quickly deploying QM systems in contact centers is provided. A user or administrator can quickly install a QM application on a deployment server. The administrator can provide the QM application access to the contact center data where the QM application can import data from the contact center routing system about one or more customers, agents, queues, teams, and any other information or items typically associated with contact center routing systems. The imported data may also include presence data about the agents, teams, and customers. Based on the imported data, the QM application may execute one or more workflows to automatically determine information such as evaluation frequency and coaching frequency about the agents and teams, or to create or select quality forms to use for the evaluation one or more agents, teams, or contacts.

A system for quickly deploying QM systems in contact centers is provided. A user or administrator can quickly install a QM application on a deployment server. The administrator can provide the QM application access to the contact center data where the QM application can import data from the contact center routing system about one or more customers, agents, queues, teams, and any other information or items typically associated with contact center routing systems. The imported data may also include presence data about the agents, teams, and customers. Based on the imported data, the QM application may execute one or more workflows to automatically determine information such as evaluation frequency and coaching frequency about the agents and teams, or to create or select quality forms to use for the evaluation one or more agents, teams, or contacts.

A system for scheduling deferred communications is provided. A workload requirement for a deferred queue for each interval of a set of intervals is determined. Each workload may indicate the amount of work predicted for the associated interval. A staffing requirement for an immediate queue is received and may indicate the number of agents needed to handle the immediate communications for the same intervals. The system, for each interval, may consider the number of agents needed for the interval in the immediate queue. Because the deferred communications do not have to be handled at any particular interval, the system may, based on the workloads, schedule agents for the deferred queue where the immediate queue is less busy (a smaller number of agents are scheduled). The goal of the system being to smooth the intervals such that the total number of agents scheduled for each interval across the immediate queue and the deferred queue remains fairly constant.

A system for scheduling deferred communications is provided. A workload requirement for a deferred queue for each interval of a set of intervals is determined. Each workload may indicate the amount of work predicted for the associated interval. A staffing requirement for an immediate queue is received and may indicate the number of agents needed to handle the immediate communications for the same intervals. The system, for each interval, may consider the number of agents needed for the interval in the immediate queue. Because the deferred communications do not have to be handled at any particular interval, the system may, based on the workloads, schedule agents for the deferred queue where the immediate queue is less busy (a smaller number of agents are scheduled). The goal of the system being to smooth the intervals such that the total number of agents scheduled for each interval across the immediate queue and the deferred queue remains fairly constant.

A system for scheduling deferred communications is provided. A workload requirement for a deferred queue for each interval of a set of intervals is determined. Each workload may indicate the amount of work predicted for the associated interval. A staffing requirement for an immediate queue is received and may indicate the number of agents needed to handle the immediate communications for the same intervals. The system, for each interval, may consider the number of agents needed for the interval in the immediate queue. Because the deferred communications do not have to be handled at any particular interval, the system may, based on the workloads, schedule agents for the deferred queue where the immediate queue is less busy (a smaller number of agents are scheduled). The goal of the system being to smooth the intervals such that the total number of agents scheduled for each interval across the immediate queue and the deferred queue remains fairly constant.

A system for scheduling deferred communications is provided. A workload requirement for a deferred queue for each interval of a set of intervals is determined. Each workload may indicate the amount of work predicted for the associated interval. A staffing requirement for an immediate queue is received and may indicate the number of agents needed to handle the immediate communications for the same intervals. The system, for each interval, may consider the number of agents needed for the interval in the immediate queue. Because the deferred communications do not have to be handled at any particular interval, the system may, based on the workloads, schedule agents for the deferred queue where the immediate queue is less busy (a smaller number of agents are scheduled). The goal of the system being to smooth the intervals such that the total number of agents scheduled for each interval across the immediate queue and the deferred queue remains fairly constant.

A call flow manager includes a graph of connected nodes implementing a call center routing flow, and corresponding views for examining and modifying the nodes and graph. The call flow manager implements a set of fundamental node types, with complexity and behavior encapsulated within the nodes. The nodes process calls and add tags to the calls that may be utilized in downstream nodes of the call flow.

A contact center queue is monitored to determine if the contact center queue meets an overload condition. For example, the contact center queue may be considered to be overloaded when there are ten voice calls on hold in the contact center queue . The contact center queue holds communication sessions in a first communication media (e.g., voice calls). In response to the first contact center queue meeting the first overload condition, a reserve agent group is identified that is associated with the contact center queue. The reserve agent group normally supports communication sessions in a second communication media (e.g., email). A communication session held in the first contact center queue in the first communication media is routed to a contact center resource (e.g., a contact center agent or contact center application) of the first reserve agent group.

Techniques for hybrid behavioral pairing in a contact center system are disclosed. In one embodiment, the techniques may be realized as a method for hybrid behavioral pairing in a contact center system comprising: determining a first ordering of a plurality of contacts according to a behavioral pairing strategy with a balanced contact utilization; determining a second ordering of the plurality of contacts according to a performance-based routing strategy with an unbalanced contact utilization; determining a third ordering of the plurality of agents according to a combination of the first ordering and the second ordering having a skewed contact utilization between the balanced contact utilization and the unbalanced contact utilization; and outputting a hybrid behavioral pairing model based on the third ordering for connecting an agent to a contact of the plurality of contacts in the contact center system.