A redirection and messaging system receives telephony information identifying a caller and call context from a telephony system. The system selects one of a plurality of messaging operators based on the call context, optionally sends an introductory message to the caller via a messaging service, and generates a message interface for the selected message operator. The message interface includes the caller and call context and any messages sent between the caller and the selected message operator, with an input interface allowing the selected message operator to input and send messages to the caller.

A method includes connecting a call from a client device to a destination having an interactive voice response service; transcribing audio from the destination during the call to identify menu options of the interactive voice response service; generating visualizations representing the menu options; and outputting the visualizations to a display associated with the client device. A system includes a telephony system, an automatic speech recognition processing tool, and a visualization output generation tool. The telephony system connects a call from a client device to a destination having an interactive voice response service. The automatic speech recognition processing tool transcribes audio from the destination during the call to identify menu options of the interactive voice response service. The visualization output generation tool generates visualizations representing the menu options. The telephony system outputs the visualizations to a display associated with the client device.

A first device may receive a request to establish a replication session between a second device and a third device, where the replication session is associated with replicating user interactions with a user interface of an application across a first instance and a second instance of the application. The first device may receive, after receiving the request, information identifying a set of interactions by a user of the second device with a first user interface provided for display by the first instance. The first device may determine, from the information, a set of instructions related to causing an indication for the set of interactions to be provided for display on a second user interface provided for display for the second instance based on the information being received from the second device. The first device may provide, after determining the set of instructions, the set of instructions to the third device.

Concepts and technologies are disclosed herein for communications network security for handling proxy voice calls that employ a voicebot. According to one aspect disclosed herein, a call handling system can intercept, from a communications network, a call request that is directed to a called target device. The call handling system can determine that the call request was generated by a voicebot on behalf of a user equipment. The call handling system can suspend the call request from being routed to the called target device. The call handling system can generate a voicebot confirmation request that identifies the voicebot and the user equipment. The call handling system can provide the voicebot confirmation request to the called target. The call request can be suspended while the voicebot confirmation request is provided to the called target device.

Aspects of the subject disclosure may include, for example, a method of receiving, by a processing system including a processor, a call for a subscriber; determining, by the processing system, that the call is from an interactive voice response (IVR) system; determining whether the IVR system is providing a query that requires a response; and responsive to a first determination that the IVR system requires the response, providing the response. Other embodiments are disclosed.

A system comprises a database configured to store a plurality of baseline scripts, an applications server communicatively coupled to the database, and an analytics engine. Each of the plurality of baseline scripts is associated with a client of a call center and comprises a plurality of questions for guiding a communication session between an agent and a party. The applications server is configured to monitor a plurality of communication sessions. Each of the plurality of communication sessions is guided by a respective one of the plurality of baseline scripts. The applications server is further configured to obtain information about an actual call flow of each of the communication sessions and send the obtained information about the actual call flow of each of the communication sessions to the analytics engine. The analytics engine is configured to determine one or more proposed changes to a baseline script.

The present invention is a system and method for projective channel hopping within a customer engagement center (CEC) system. The CEC system receives a customer through a system entry point and receives, from the customer, a communication in a current customer service representative (CSR) channel in the CEC system. The CEC system assesses its ability to connect the customer with a CSR on the current CSR channel using a smart routing engine (SRE), which also assesses its current ability to connect the customer with a CSR on other equivalent CSR channels. Using the SRE, the CEC system compares its ability to connect the customer with a CSR on current and equivalent CSR channels to determine if the customer should remain on their current CSR channel or transfer to a new one. In the latter case, the CEC system offers the customer a chance to change channels or remain on their current channel.

A system described herein may provide a technique for a multi-modal interaction experience with a User Equipment (“UE”) via multiple concurrent presentation modes. Such multiple modes may include a voice call with an interactive voice response (“IVR”) system, as well as the simultaneous presentation of information and/or selectable options at a UE associated engaged in the voice call with the IVR system. The information may be presented via a graphical user interface at the UE that is engaged in the call with the IVR system. In this manner, the UE may provide a multi-modal experience to a user, in which the user can simultaneously interact with the IVR system via the call, and can also receive or provide further interactions related to call via the GUI.

Systems and methods are configured for predictive prompt generation for an interaction between a party and an automated prompt system. In various embodiments, metadata is received on the interaction and provided as input to a multi-label predictive model to generate interaction probabilities for a plurality of prompt information data objects. Each probability generated by the predictive model provides a likelihood a particular information data object needs to be provided to the first party during the interaction. Accordingly, one or more of the prompt information data objects are identified based on the probability of each piece found in the one or more prompt information data objects that satisfy a set threshold and one or more notifications are provided so that the automated prompt system provides at least one of the prompt information data objects to the first party during the interaction.

A system and method for applying a generative voice associated with a particular customer service representative to an automated bot that initially interacts with a customer to provide a seamless handoff between the automated bot and the particular customer service representative is described. In one embodiment, when a call from a customer is received at the customer service call center, the customer is matched with a potential customer service representative that is likely to handle the customer's call. The customer will then initially interact with an automated bot that has applied a generative voice associated with the likely customer service representative. The customer can talk with the automated bot using the generative voice and, if needed, when the call is handed off from the automated bot to the customer service representative, the customer will not notice a change in voice or other discontinuity on the call.