Methods and systems described in this disclosure receive a request for assistance from a device associated with a user, launch a conversational virtual assistant on the device, determine at least one potential subject of the request based on information associated with the user and a tab or webpage from which the conversational virtual assistant is launched, receive a verification of the subject of the request, create a contact menu with options for receiving the assistance, and receive a selection of one of the options.

A software app for a smartphone recognizes input from the user (such as the initial digits of a phone number) that identifies the organization to be called, and accesses remotely stored representations of information about the organization along with the IVR phone tree information for that organization. The app then presents a graphical representation of all or part of the retrieved information on a display. The user can then respond to the graphical representation by providing selective inputs that cause the synthesis all or part of the dialstring needed to navigate the phone tree to the desired destination. Once a dialing option has been synthesized, the user may provide additional input that the system interprets as an instruction to open a phone call and send a text message using the synthesized number.

Contact centers often utilize automated agents to converse with customers of the contact center. As provided herein, a user may utilize a virtual private agent to converse with a contact center. A user device is configured to converse with human and/or automated agents to exchange information on behalf of the user. Tasks may be issued by the user to the user device which, may gather any required additional information, and initiate a call. The call comprising a number of prompts which are then analyzed and respond to in a manner determined to perform the task. If the remote system is discovered to also be automated, the speech-based communications utilized for human agents may be discontinued and non-speech tones utilized for more efficient machine-to-machine communications.

A method includes receiving a first instance of raw audio data corresponding to a voice-based command and receiving a second instance of the raw audio data corresponding to an utterance of audible contents for an audio-based communication spoken by a user. When a voice filtering recognition routine determines to activate voice filtering for at least the voice of the user, the method also includes obtaining a respective speaker embedding of the user and processing, using the respective speaker embedding, the second instance of the raw audio data to generate enhanced audio data for the audio-based communication that isolates the utterance of the audible contents spoken by the user and excludes at least a portion of the one or more additional sounds that are not spoken by the user The method also includes executing.

A telecommunications addressing system/method allowing selection of a telephone instrument device (TID) using arbitrary identifiers is disclosed. The system/method allows a source TID (STD) to select a target TID (TTD) by the use of a Target Telephone Identifier (TTI) data string rather than a traditional numeric telephone identification (NTI). This TTI is then indexed within a TTI/NTI mapping server (TMS) that functions as a hierarchical repository of TTI/NTI mappings. STD/TTD communication is established by first performing a lookup of the STD-selected TTI within the TMS to identify the NTI of the TTD. Once the NTI of the STD has been identified by the TMS, communication between the STD and TTD is established using the NTI via the normal public switched telephone network (PSTN). TMS TTI lookup may be performed via STD TID web application and/or via PSTN infrastructure interface.

Telecommunications systems and methods having a mapping server; a communication network; and a mapping database in communication with the mapping server via the communication network, the mapping database associating telephone identifier data strings (which identify a target telephone device) with numeric telephone identifiers; the mapping server is configured to match numeric telephone identifiers of a source telephone of a caller and a target telephone of a callee with respective telephone identifier data strings using the mapping database; the mapping sever is configured to initiate an electronic communication between the source telephone and the target telephone; the numeric telephone identifier of the target telephone is masked to the caller using the target telephone identifier; the mapping server is configured to locate the target telephone device by the telephone identifier data string to provide a Global Positioning System display of the target telephone device on a screen of a source telephone device.

A telecommunications addressing system/method allowing selection of a telephone instrument device (TID) using arbitrary identifiers is disclosed. The system/method allows a source TID (STD) to select a target TID (TTD) by the use of a Target Telephone Identifier (TTI) data string rather than a traditional numeric telephone identification (NTI). This TTI is then indexed within a TTI/NTI mapping server (TMS) that functions as a hierarchical repository of TTI/NTI mappings. STD/TTD communication is established by first performing a lookup of the STD-selected TTI within the TMS to identify the NTI of the TTD. Once the NTI of the STD has been identified by the TMS, communication between the STD and TTD is established using the NTI via the normal public switched telephone network (PSTN). TMS TTI lookup may be performed via STD TID web application and/or via PSTN infrastructure interface.

A telephone subnet crawler is used to access automated telephone response systems and index the information, contents and structure contained therein. A database of the information, contents and structure of a plurality of automated telephone response systems is created by the telephone subnet crawler. A user interface provides a waiting party with direct access to the information, contents and structure of the automated telephone response systems contained in the database. Where an automated telephone response system requires user input, the user interface calls the automated telephone response system and navigates to the node requiring user input, provides the user input and displays the results to the user. Where an automated telephone response system connects to an operator, the user interface calls the automated telephone response system, navigates to the node for an operator, and when an operator is detected, calls the user at a user provided callback number.

A contact information system provides an independent network authority for providing contact information in connection with incoming calls or messages. The contact information system utilizes a database of communication identifiers to provide contact information for end user devices that receive incoming communications which specify communication identifiers that are stored in the database.

A first text message is received from a first user communication endpoint. In one embodiment, the first text message is addressed to a general text messaging address for a corporation. In response to receiving the first text message from the first user communication endpoint, a second text message is sent to the first user communication endpoint. The second text message is used to identify a way to select an individual user of the plurality users. For example, the second text message may have a menu with a list of users. A third text message is received from the first user communication endpoint. The third text message identifies the individual user of the plurality of users. A fourth text message is sent that allows the first user communication endpoint and a user communication endpoint of the selected individual user to establish a text messaging session.