A virtual queuing system includes a server connected to a call center. The call center includes an automatic call distributor and a firewall. The server maintains virtual queues. User interfaces enqueu a call by a user of the call center to the virtual queues via the server. An application programming interface interfaces the user interfaces to the server. A virtual queuing connector module connects the automatic call distributor of the call center to the application programming interface across the firewall of the call center via requests or pulls initiated by the virtual queuing connector module. The virtual queuing connector module and the automatic call distributor are operated inside the firewall. The server, the application programming interface, and the user interfaces are operated outside the firewall. When a call is up, the call is connected as a prioritized call, assigned to a reserved IVR channel, and put through first.

A speaker identification system (system) automatically assigns a speaker to voiced segments in a conversation, without requiring any previously recorded voice sample or any other action by the speaker. The system enables unsupervised learning of speakers' fingerprints and using such fingerprints for identifying a speaker in a recording of a conversation. The system identifies one or more speakers, e.g., representatives of an organization, who are in conversation with other speakers, e.g., customers of the organization. The system processes recordings of conversations between a representative and one or more customers to generate multiple voice segments having a human voice, identifies the voice segments that have the same or a similar feature, and determines the voice in the identified voice segments as the voice of the representative.

A method for automatically routing a telephonic communication is provided, and includes receiving a customer identifier and communicating with a customer history database storing historic data and determining whether the received customer identifier corresponds to a stored customer identifier in the customer history database, wherein the customer profile included in the stored historic data is based on a portion of a customer's demographic identity. Historic data corresponding to the stored customer number is identified based on the comparison of the received customer identifier and the stored customer identifier. The telephonic communication is associated with a predetermined communication destination based on the identified historic data. The method and systems additionally generate a customer routing record for the customer that includes the analyzed historic data, and associate the customer routing record with each customer identifier and store the customer routing record in the customer history database to facilitate future customer call routing.

A system that supports multiple contact centers includes a communications network that is coupled between a private network (e.g. MPLS network) and a remote computing environment (e.g. cloud environment). A server system in the remote computing environment monitors health of different network segments (e.g. bandwidth of the connection between the communications network and the remote computing environment, bandwidth of a link used by a tenant to access the private network, etc.). When it is determined that quality of service for voice conversations for one or more contact centers is at risk due to a health status parameter of a network segment reaching a threshold, an appropriate system reaction is triggered. The system reaction may be to offload future calls to a peer remote computing environment to service future calls. The system reaction may also be to cancel outbound campaigns, provide pre-determined sorry messages, and the like.

An apparatus and methods for a call routing system is disclosed whereby the call routing service provider is associated with a series of partners. By providing a system supporting not only the main user, but also the partners, efficiencies are gained through cost-spreading. Agents can be qualified to field calls for multiple business entities. Cross-selling and proactive servicing based on caller demographic and profile data can be effectuated. The system employs a centralized or global bank of shared Interactive Voice Response (IVR) units so that unnecessary post-routing and call site interflow are reduced. The system comprises a central server system that interfaces with a long distance provider so that route requests are received, caller data is retrieved from one or more databases, routing and handling strategies are developed, load balancing is effectuated, and calls are appropriately routed to one of a plurality of geographically separated call center systems with queues staffed by agents. Each call center system is designed to support various queues, and agents may be qualified or assigned to various queues based on their skill sets and skill levels.

A virtual queuing system includes a server connected to a call center. The call center includes an automatic call distributor and a firewall. The server maintains virtual queues. User interfaces enqueu a call by a user of the call center to the virtual queues via the server. An application programming interface interfaces the user interfaces to the server. A virtual queuing connector module connects the automatic call distributor of the call center to the application programming interface across the firewall of the call center via requests or pulls initiated by the virtual queuing connector module. The virtual queuing connector module and the automatic call distributor are operated inside the firewall. The server, the application programming interface, and the user interfaces are operated outside the firewall. When a call is up, the call is connected as a prioritized call, assigned to a reserved IVR channel, and put through first.

A campaign strategy manager (CSM) component for a hosted communications campaign system allows users to define more granular and specific campaign strategies, including pass escalation for alternative channels (e.g., text and email) and/or based upon attempt results, contact attributes and response group data. The campaign strategy manager allows users to define pass strategies statically and dynamically, to manage lists across multiple campaigns, and to view results in real-time. A defined strategy is a static strategy created by a user for a particular campaign that, once created, typically is not modified. A dynamic strategy is one where, during the course of a day (e.g., as a sub-campaign is running), a user may alter the defined strategy, preferably just for that day (or portion thereof). The CSM may be used to implement a recovery strategy using a dialer pass.

Certain aspects of the disclosure are directed to customization of a contact center, using a data communications server. According to a specific example, the data communications server includes circuitry configured and arranged to provide data communications services to a plurality of remotely-situated client entities. The data communications server further provides a user interface for each respective remotely-situated client entity, the user interface including a display of communications-based campaigns, tools for contact center communications (e.g., interactive voice response (IVR) tools), and data analytics. Moreover, the data communications server provides a display on the user interface which may include selectable components to create for the associated remotely-situated client entity, a customized way for handling data communications by the data communications server. Accordingly, the data communications server may handle communications for the associated remotely-situated client entity according to the provided customization.

A method for automatically routing a telephonic communication is provided, and includes receiving a customer identifier and communicating with a customer history database storing historic data and determining whether the received customer identifier corresponds to a stored customer identifier in the customer history database, wherein the customer profile included in the stored historic data is based on a portion of a customer's demographic identity. Historic data corresponding to the stored customer number is identified based on the comparison of the received customer identifier and the stored customer identifier. The telephonic communication is associated with a predetermined communication destination based on the identified historic data. The method and systems additionally generate a customer routing record for the customer that includes the analyzed historic data, and associate the customer routing record with each customer identifier and store the customer routing record in the customer history database to facilitate future customer call routing.

An apparatus and methods for a call routing system is disclosed whereby the call routing service provider is associated with a series of partners. By providing a system supporting not only the main user, but also the partners, efficiencies are gained through cost-spreading. Agents can be qualified to field calls for multiple business entities. Cross-selling and proactive servicing based on caller demographic and profile data can be effectuated. The system employs a centralized or global bank of shared Interactive Voice Response (IVR) units so that unnecessary post-routing and call site interflow are reduced. The system comprises a central server system that interfaces with a long distance provider so that route requests are received, caller data is retrieved from one or more databases, routing and handling strategies are developed, load balancing is effectuated, and calls are appropriately routed to one of a plurality of geographically separated call center systems with queues staffed by agents. Each call center system is designed to support various queues, and agents may be qualified or assigned to various queues based on their skill sets and skill levels.